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- http://ufdc.ufl.edu/AA00055629/00001
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- Title:
- Evaluation of the evidence on the effectiveness of well child care services for children
- Creator:
- Homer, Charles J.
- Publisher:
- U.S. Congress. Office of Technology Assessment
- Publication Date:
- 1988-07
- Language:
- English
- Physical Description:
- 95 pages.
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- Subjects / Keywords:
- Preventive health services for children -- United States -- Evaluation ( LCSH )
Child health services -- United States -- Evaluation ( LCSH ) Children -- Diseases -- United States -- Prevention ( LCSH ) Children -- Health and hygiene -- United States ( LCSH )
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- federal government publication ( marcgt )
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- General Note:
- This report discusses the frequency and timing of recommended child visits, and the frequency and timing of recommended screening tests or procedures in well child care.
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- University of North Texas
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- University of North Texas
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- This item is a work of the U.S. federal government and not subject to copyright pursuant to 17 U.S.C. §105.
- Classification:
- Y 3.T 22/2:2 H 34/3/eval. ( sudocs )
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- IUF:
- University of Florida
- OTA:
- Office of Technology Assessment
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PAGE 1
Evaluation of the Evidence on the Effectiveness of Well Child Care Services for Children Charles J. Homer, M.D., M.P .H. Division of General and Ambulatory Pediatrics Massachusetts General Hospital Boston, Massachusetts July 1988 Contractor Document Health Program, Office of Technology Assessment U.S. Congress, Washington, DC 20S I 0 This paper was prepared by an outside contractor for the OT A assessment Healthy Children: Investing in the Future. The paper does not necessarily reflect the analytical findings of OT A, the assessment's advisory panel, or the Technology Assessment Board.
PAGE 2
TABLE OF CONTENTS I. Document~tion of Recommended Well Child Interventions for Children From 1 month through 11 years of Age II. Review and Critique of Studies Evaluating the Effectiveness of Well Child Care as A Whole Introduction Literature Review Cone 1 us ions III. The Effectiveness of 5 Well-Child Services Physical Assessment Overview Literature Review Conclusion Page 1-5 6 6 11 28 28 29 29 31 35 Denver Developmental Screening Test 36 Overdew 36 Background, Reliability, and Concurrent Validity 37 Predictive Validity and Utility 39 Conclusion 43 Anticipatory Guidance far Injury Prevention in the Clinical Setting 44 44 45 47 Overview Literature Review Conclusions Iron Deficiency (Anemia> 47 Auditory Screening in the Preschool Child 53 Overview and Introduction 53 Burden of Suffering and Effectiveness of Therapy 54 Screening Tests 56 Conclusions 60 IV. Cost Effectiveness Studies v. Tables 60 66 82 VI References
PAGE 3
LIST OF TABLES Table 1. Recommended Number of Well Child Visits 63 Table 2. General Summary of Physical and Developmental Evaluations 64 Recommended for Child Health Supervision Table 3. Recommended Performance of Specified Screening Tests 65 Table 4. EPSDT Screening Recommendations for Selected States 66 Table 5. Summary of Literature Evaluation Effectiveness of Well 67-73 Child Care as a Whale Table 6. Effectiveness of the Physical Examination in Well Child 74-75 Care Table 7. Predictive Validity of the Denver Developmental Screening 76 Test Table 8. Effectiveness of Anticipatory Guidance on Infant Car 77-78 Restraint Use Table 9. Iron Deficiency, Cognitive, Development and Behavior 79-81
PAGE 4
I. Documentation of Recommended Well Child Interventions for Children from 1 month through 11 years of Age The freQuency and timing of recommended well child visits, and the frequency and timing of recommended screening tests or procedures in well child care, vary substantially among Western nations, amonq states within the United States, and even across time from any particular recommending organization. The specific recommendations of a number of supervisory bodies\ for certain well child care components are presented in fables 1 through 4. These recommendations apply to children aged one month to eleven years. In general these guidelines demonstrate the following characteristics: 1. A trend in recommendations from the American Academy of Pediatrics towards increasing the number of visits over the past fifteen years; 2. A greater number of visits recommended in the United States than in Great Britain, although fewer than commonly provided in other Western European nations; 1 The American Academy of Pediatrics, Canadian Pediatric Society, Canadian Task Force on the Periodic Health Exam, three British groups , and various state Early and Periodic Screening, Diagnosis, and Treatment programs. 1
PAGE 5
3. Recommendations for a more focussed physical examination than in the past; 4. Increased concern with identification of behavioral and developmental problems, coupled recently, especially in Great Britain, with increased recognition of the difficulties in reliably and validly identifying such problems; 5. Lack of consensus, especially apparent among the states, concerning the appropriate populations for screening procedures, the optimal age, and the frequency of use; Several caveats must be borne in mind in making comparisons between American and British schedules. Infants and children in the United Kingdom do not routinely receive immunizations from their physician; therefore, immunization visits are not included in these guiaelines. In England, from the time of the creation of the National Health Service until the mid 19701s, children were served by a "tripartite" service. Preventive child care services were provided through a network of child health clinics, staffed primarily by health visitors--nurses trained in child oriented community medicine--and by clinical medical officers (specially trained physicans>. Health visitors also undertook home visiting; the extent to which this is still done is not clearly documented. Ill children were seen by general practitioners in their offices, although child health clinics provided some ill care as well. Hospitalized children and children with chronic diseases were taken care of by pediatricians. Beginning with the report of a special committee convened in the mid-19701s and chaired by Sir S.D.M. Court, general practitioners were 2
PAGE 6
encouraged to perform an increasing amount of child health supervision activities, and health visitors were increasingly attached to general practitioner's practices rather than district health authorities. General practitioners were also encouraged to develop some expertise in child health supervision. The Handbook of Preventive Care by The Royal College of General Practitioners was written to address this need. recommendations, understanding the nature of the EPSDT program is crucial. Rosenbaum recently reviewed the strengths and limitations of EPSDT
PAGE 7
reflect not simply medical judgement but political and economic judgments of what each state is willing to spend for child health services for the poor. While the tendency of the state EPSDT administrators might be to restrict services, the tendency of the Academy of Pediatrics is likely to be expansive. The American Academy of Pediatrics is an organization of pediatricians; while first and foremost seeking to advance the health of children, this body also represents the professional needs of its members. The Academy has several times sought to compile documentation for the efficacy of well child care and its schedule of care; failing this, the Academy has relied on expert judgement to formulate its recommendations. The Academy forthrightly admits the relatively arbitrary nature of its schedule, although its primary caveat is that the recommendations constitute a minimum standard for intact and functional families. Even within the pediatric community, these recommendations have stirred controversy.
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In its major report, the Task Force reviewed 78 potentially preventable conditions, graded the evidence regarding the effectiveness of interventions for these conditions, and made recommendations with varying degrees of strength about including these interventions in periodic health exams. The Task Force then formulated these recommendations into a series of age-specific "health protection packages." Many of the recommendations made by the Task Force, especially concerning anticipatory guidance and developmental evaluation, were classified as level 11C11, i.e., "There is poor evidence regarding the inclusion of the condition in a periodic health examination, and recommendations may be made on other grounds." Immunizations and dental examinations were the only recommended child health interventions beyond the neonatal period receiving an "A" level recommendation, i.e., good evidence to support inclusion. The existence of these wide variations in recommended well child services, although understandable in light of the differing health care systems and of the varied organizational perspectives, nonetheless bespeaks a paucity of good information supporting any one program of care over another when considered in light of child health outcomes. The information which exists is reviewed in the sections which follow. 5
PAGE 9
II. Review and Critique of Studies Evaluating the Effectiveness of Well Child Care as A Whole A. Introduction 1. General The literature on the effectiveness of well child care has been reviewed repeatedly over the past thirty years,.(Lewis, 1971; Yankauer, 1973; Casey, 1979; Shadish, 1982; Roughmann, 1985; Charney, 1986; Kersch, 1985 > Although the body of literature on which these reviews have been based has not dramatically changed, these reviews have drawn dramatically different conclusions, ranging from profound doubts to ringing endorsements. This variation in inference most likely reflects more the political context of each review than the considered body of knowledge. This review will focus primarily on the methodology of those studies that seek to evaluate the effectiveness of well child care, or, better stated, of "child health supervision." We will focus on studies of child health supervision as practiced primarily in the United States, although a few studies with some relevance from other nations will be cited. We will consider only studies that specifically examine a health services intervention or delivery program; studies examining changes in morbidity and mortality over time or locale alone will not be examined. In addition to considering the methodology of these studies, we will also consider the reasonableness of the hypotheses considered and the completeness of the outcome measures. Well done studies with non-6
PAGE 10
plausible hypotheses or studies with restricted outcomes under consideration, no matter how well executed, will be of limited value. Effectiveness studies evaluate how well programs that function in the "real world" achieve their goals; efficacy studies consider how well programs achieve their goals when performed in an optimal situation and manner. An efficacy study ~sks whether an intervention is conceivably worthwhile; an effectiveness study asks whether such an intervention will indeed work. This review will consider both, but will try to indicate into which category the study falls. 2. Goals of Child Health Supervision In order to measure the effectiveness of child health supervision, we must first identify what the goals are for this activity. Perhaps surprisingly, little unanimity exists in answering this issue. !ndeed9 the most recent Academy of Pediatrics publication providing Guidelines for Child Health Supervision does not even include any mention of the overall goals for this activity.(American Academy of Pediatrics, 1985) Despite this lack of agreement, we will for this review consider three goals for child health supervision against which to measure effectiveness: 1. The prevention of premature mortality--death in infancy, childhood, adolescence, and early ~r middle adulthood. 2. The prevention or reduction of morbidity, defined as functional limitation due to physical or mental illness. 3. The promotion of the ability of the child eventually 7
PAGE 11
to fulfill his or her societally determined adult role; in Western society this means at least the ability to live independently and be self-supporting, and more broadly to participate in the full range of adult social interaction. Short-term indices for this outcome might include measures of maternalinfant interaction or developmental testing. Intermediate range criteria could include school performance and behavior problems. Long-term measures would involve job history, income, marital status, or criminal records. Other goals for child health supervision have been proposed. These include the provision of support and reassurance to a family and the provision of a "medical home" for each child in the event that. illness develops. Further empiric work is needed to assess the utility of these aspects of child health supervision to children and families before they can be considered goals or standards for outcome evaluation. Although child health sucervision visits occur throughout childhood, the great majority take place during the preschool period. This period will be emphasized in this report. 3. Role of Social Factors Although improvement in health status, as broadly defined, is the appropriate goal for child health supervision, positing such goals presents a substantial risk of failure in judging the effectiveness of such a program. Health status of the population in general, and of 8
PAGE 12
children in particular, is far more strongly determined by social and economic factors than by the nature of medical care.
PAGE 13
be drawn from this observation are limited. From a cost perspective, the decreased frequency of acute hospitalization is balanced by an increase in surgical admissions for "corrective" procedures. From a morbidity perspective, hospitalization rates in children vary so dramatically across geographic regions that hospitalization most likely reflects practice style rather than morbidity per .g_. 3. Few studies have adequately considered developmental/social functioning outcomes. The evidence that exists suggests that child health supervision as performed exerts little influence in this arena. Some studies with substantial limitations in generalizability or internal validity imply that modifications in the practice of child health supervision may allow this practice to exert a positive effect on some proximate measures of social functioning outcomes. Studies examining the effectiveness of child health supervision were drawn from several overlapping areas of health services research. These included: examinations of the impact of varying schedules of well child care; studies of the effect of the then newly developed comprehensive care programs in the 1960's and early 1970's; evaluations of the federally mandated child health supervision program--EPSDT
PAGE 14
cutbacks in the 1980's; and, finally, evaluations of child health service activities specifically directed at improving developmental outcomes. Although none of these categories directly address the question of the overall effectiveness of well child care, each provides some insight into this area. A detailed summary of each study is contained in Table 5. This table outlines the locale and years considered by the study, the characteristics of the study population, the study design, the sample size, the nature of the intervention examined, the outcome measures used, the results obtained, and comments concerning the threats to validity and limitations of generalizability. The text will in most instances highlight the conclusions and limitations from each body of literature, rather than repeat the information available in the table. B. Literature Review 1. Evaluation of Periodicity Two studies exist which specifically considered the impact of reducing the frequency of recommended visits for low risk children.(Gilbert, 1984; Hoekelman, 1975;> The more recent study is both methodologically and conceptually more advanced than the prior report, in that it more accurately reflects the population base, had a larger sample size, used blinded outcome assessment, and included important indicators of social functioning as well as physical outcome measures. Nonetheless, both studies failed to identify any ill health effects associated with a decrease in the frequency of scheduled well child visits. The major caveat in interpreting both studies is that in both 11
PAGE 15
reports, the group randomized to the lower number of scheduled visits nonetheless obtained an almost comparable number of visits during the first years of life. In the Hoekelman study, infants scheduled for fewer visits were seen three additional times by the office nurses for immunizations; informal advice and consultation was often obtained at that time. In the Gilbert report, primiparous women randomized to the lower frequency group made an average of 1.25 unscheduled well child visits in the first two years of life; at the same time, families randomized to the 10 visit group averaged only 7.63 visits. Thus, the average number of well child visits in the first two years of life was 6.19 for the low-frequency group and 7.89 for the high frequency group. Although one can reasonably argue that little harm in low risk women is likely to occur from reducing the recommended frequency of visits for low risk infants, one cannot infer that dramatic changes in actual utilization will occur! Moreover, neither study allows generalization to infants at higher social or biologic risk. 2. Evaluation of Comprehensive Care The 1960's witnessed a dramatic expansion in health services provided to the poor, as well as ferment in the conceptualization of the optimal delivery of oersonal health services. These processes found concrete expression in the creation of a variety of "comprehensive care" programs for low income children. The precise character of these programs varied, but in most instances consisted of personal health services provided by a pediatrician in concert with a social worker and nurse; additional aspects often included availability of after hours consultation and continuity in provider 12
PAGE 16
over time. Some programs additionally included augmented outreach activities, such as home visiting and case management. The payment required for use of these services is not documented in most of the evaluation reports; however, most were probably free. Evaluations that examine the effectiveness of comprehensive care programs are not exactly congruent with the evaluation of child health supervision. Such programs certainly provided diagnosis and treatment of acute and chronic illness as well. Several of the evaluation studies did indicate that utilization of well child services increased with participation in comprehensive care programs; therefore, evaluations of the effectiveness of such programs have some bearing on the overall issue of child health supervision. However attributing any positive effect specifically to the child health supervision component, as opposed to, for example, continuity of providers, is simply not possible. Unlike the evaluations of periodicity, these studies deal almost exclusively with populations at substantially higher risk of mortal, morbid, and adverse developmental outcomes than the general population. Failure to show improvements in outcomes may be due to factors outside the purview of child health supervision . At the same time, the more frequent adverse outcomes in such populations make detection of any improvement statistically more likely with small sample sizes. Comprehensive care program evaluations utilized ecologic, crosssectional, and clinical trial (randomized and non-randomized) methods. These will be reviewed sequentially. The two ecologic studies,
PAGE 17
geographically defined population rather than an individual as the unit of observation) used dramatically different outcomes. Gordis's well known study examined the frequency of rheumatic fever in census tracts where comprehensive care programs were introduced; he found significantly fewer cases of rheumatic fever among residents of these tracts, when compared to the frequency of this condition in comparable tracts in the city.
PAGE 18
Two studies creatively sought to use school attendance as a marker for functional status as an outcome measure for gauging the effectiveness of participation in comprehensive care services. A study in Pittsburgh compared school attendance for enrolles in a Children's and Youth Project with non-enrolles, controlling for socioeconomic status by residence in a housing project. The investigators found a small but statistically significant improvement in school attendance--3.2 days, 95 Confidence Interval of .94-5.5. If those who were motivated and oriented towards healthy behaviors preferentially enrolled for care in the C&Y Project, this selection bias of who chose to use the health center could e~plain this difference in outcome. A before-after study in Charlestown , also examined the effect of participation in the then newly developed Bunker Hill Health Center or school attendance.
PAGE 19
intervention consisted of 7 nurse home visits to provide counselling, support, health education, and advocacy. This study is included because the home visiting program was integrally linked to well child services. Other studies of home visiting are not reviewed here.(See, for example, Olds, 1986) No differences existed in any measure of health status, although the measures of health status were crude; no social function outcomes were measured. No significant differences existed between the groups in health services utilization either; although a trend towards fewer outpatient visits was noted, the authors did not include the home visits with the total number of outpatient contacts. The other prospective study compared the impact of intensive follow-up and home visits in the e>
PAGE 20
comprehensive care were reviewed. The evidence here is likewise equivocal. Gordis undertook an randomized clinical trial of comprehensive versus usual care in high social risk mothers in Baltimore. were identified. The overall frequency of outpatient visits and of hospitalizations were similar between experimental and control groups; different patterns of use were noted. Experimental group children made more health supervison visits and control children made more ill visits. Experimental group children underwent more surgery early in the study period, had fewer hospitalizations in year two and experienced comparable rates in year three. Mothers of participants in the comprehensive care program did report improved satisfaction in some areas. Even with these very limited findings, some questions about the generalizability and internal validity of the study exist . Thus, although two studies of comprehensive care found some improvement in health outcomes
PAGE 21
although no study found harm from such programs, none conclusively demonstrated that comprehensive care in general, or child health supervision in particular, results in improvements in major mortality or morbidity outcomes for children. None of these studles examined the realm of development or social function. 3. EPSDT The Early and Periodic Screening, Diaqnosis and Treatment Program is a federally funded, state administered prr,gram which mandates screening of medicaid eligible infants and children and referral for definitive treatment. Although not formally child health supervision, EPSDT programs in most cases follow guidelines similar to the American A~ademy of Pediatrics 1981 Guidelines for Health Supervision. Thus, evaluations of the effectiveness of EPSDT in improving the health of poor children should in large measure reflect on the effectiveness of child health supervision at large. Unfortunately, the outcome measures used in the evaluation of EPSDT are difficult to interpret.
PAGE 22
information is provided about the precise nature of these abnormalities, their importance or remediability, or the eventual improvement with therapy, the importance of reduction in abnormalities/referrals is difficult to interpret. Additional caveats in interpreting the effectiveness of EPSDT are brought to light by Reis's review of unpublished Department of Maternal and Child Health evaluation projects.(Reis, 1984) These projects demonstrate great variability in the proportion of the eligible population which is indeed screened and in the proportion of those screened who are identified as having a problem. Moreover, a recent article eMamining prior use of EPSDT by developmentally disabled children found EPSDT use did not result in earlier diagnosis or treatment for these children.
PAGE 23
Two major studies--one of which was reanalyzed in a separate report--bear directly on this approach. The first was undertaken by Kessner and colleagues in the early 1970's in Washington, D.C.CKessn~r, 1974) Kessner developed and then used a ''tracer" system of measures to assess the quality of care. These tracers were intended to reflect short term outcomes that both had intrinsic health significance and were amenable to medical intervention. The outcomes used were iron deficiency anemia, visual disorders, middle ear infection with better performers (hospital outpatient departments>. After more carefully adjusting for social class differences, Dutton found that users of both prepaid programs and OPD clinics tended to have better health status measures than users of solo-practitioners. Statistically significant differences were observed when all measures were considered together and the OPD and prepaid groups combined and contrasted with the solo practice group. If true, do these findings have any relevance to the assessment of the effectiveness of child health supervision? The answer to this 20
PAGE 24
is uncertain. Kessner did observe that participants in the prepaid plans were far more likely to have well child checks than users of other services. However, the validity of this observation may be limited, in that for this analysis he lumped emergency room users and outpatient clinic users together, did not review private practice records, and reviewed only a very small number of charts. Dutton attributes the differences in outcome more to the characteristics of the practitioners themselves (more training>, their means of reimbursement (salary versus fee-for-service>, their specialization (pediatricians rather than general practitioners>, and their functioning in group settings
PAGE 25
956 families, representing a random sample--with certain limitations-of the population of 6 geographically disparate communities, were randomly assigned to one of several health insurance plans that offered varying percentages of cost-sharing. Despite the many different plans offered, the authors of the report group together all the cost sharing plans and contrast them with free car~ for most analyses. Study subjects were followed for three to five years. The study used a wide variety of health outcome measures. In particular, they considered measures of physiologic health--anemia, hay fever, middle ear fluid, hearing loss, and visual acuity; limitations in daily activities; mental health perceptions; and general health perceptions. Although growth and developmental outcomes were also assessed, they have not been reported. No statistically significant differences were observed overall for any outcome. The only potentially clinically significant difference noted between those in the free care and those in the cost sharing group was the prevalence of anemia among poor children who were anemic at the start of the study. As with Kessner1s study, the relevance of these findings to the evaluation of child health supervision depends on whether the different groups experienced varying levels of well child care. Only partial results of the utilization data for children have been presented.(Leibowitz, 1985) These data were drawn primarily from one site--Dayton; the poorest site, South Carolina, was not analyzed. In general, the study results suggested that although children in cost sharing plans reduced use of well child services somewhat less than they reduced acute and chronic illness episodes (76 as many well-care 22
PAGE 26
episodes, 72 as many acute care episodes, and 63 as many chronic care episodes in cost sharing compared to free care children>, they nonetheless did lower use of well child services substantially. Haggerty and Starfield sepdrately and extensively critiqued the Rand study_.(Haggerty, 1985; Starfield, 1985) These authors criticized both the substantial attrition (40> of the initial study g1oup and the small sample size--especially concerning the issue of functional limitations and concerning sub-groups such as the poor. The choice of outcome measures, while an advance over prior studies, still appeared inappropriate in the pediatric context. The functional limitations measure demonstrated too little variability to be useful. The physiologic outcome measures--with the exception of anemia--may not be responsive to medical therapy. Haggerty specifically noted ti1e lack of consideration of social functioning ("new morbidity") outcomes. Both authors, and indeed the authors of the original report, noted that the nature of the cost sharing plans protected all families--and poor families in particular--from excessive health care cost burdens. Finally, Starfield noted that, although differences between outcomes for free care versus cost sharing among the poor were not statistically significant, "those in cost sharing plans were in worse health at the end of the experiment than those in the free plan on six of the eight health measures ...... Considering both the original reports and the critiques together, one can reasonably conclude that cost sharing reduces utilization of both preventive dnd illness related services and that this reduction is unlikely to affect adversely the physical/physiologic health of low risk populations. The data are consistent with the hypothesis that 23
PAGE 27
cost sharing adversely affects some measures of health status among the poor, although this is far from definitive. The specific impact of reducing health services use on developmental/social functioning remains unexamined. 5. Impact of Service Cutbacks In contrast to the expansion in services in the 1960's and early 1970's, the 1980's have witnessed reductions in programs providing services to popu~ations in need. One study specifically ex~mined the health impact of the reduction in services offered by a public, well child clinic in a rural county in Maryland.(Alexander, 1986) Specifically, ~he clinic no longer offered physical health assessments and exams, and reduced the frequency of offering immunizations. The study was cross sectional, comparing health status and utilization in the county which had reduced its services to these measures in another demograph~cally matched county. No significant differences existed between the study and comparison county in maternal ratings of child health status. Care for those children previously followed in the public health clinic was apparently provided by private practitioners-one in particular. Therefore, although a particular program was discontinued, child health supervision activities in all likelihood continued. 6. Develop111ent/Social Functioning and Child Health Supervision The studies that examined the global effectiveness of child health supervision or child health care at large, reviewed above, do 24
PAGE 28
not consider behavioral and developmental outcomes to any significant extent. We did identify one study, however, which specifically examined how different styles of child health supervision--as practiced in clinical settings--influence these outcomes; likewise we identified a variety of studies that examined how special types of child health supervision might affect such outcomes. Chamberlin conducted the effectiveness study in this arena, comparing the influence of pediatricians using different degrees of "teaching effort" in their well child care on a variety of maternal and child behavioral and developmental outcomes.(Chamberlin, 1980) In support of the effectiveness of the teaching effort, he did find a strong correlation between teaching effort (i.e., pediatrician involvement in parent education> and maternal knowledge and a small but significant correlation between teaching effort and the mother's self reported use of positive interaction with her child. On the othar hand, he found that increased teaching also correlated with increased reported behavior problems; no correlation existed between teaching effort and formally measured developmental test results. Several weaknesses in this study, unfortunately, limit any inferences which may be drawn. The sample was drawn from one city, and primarily represents middle class children. The class limitation of the study became more pronounced as the study progressed, with selective attrition of lower socioeconomic status subjects. The non random allocation of families to practices and practitioners raises the possibility that those differences which were observed were more due to who chose the practitioner than to the practitioner's impact. On the other hand, the average characteristics of all the physicians 25
PAGE 29
in a practice were inferred for all patients using any physician in the practice; this non-systematic inaccuracy would reduce the likelihood of finding any differences, Also, including bo~h the intervention and the positive interaction with child together in regression models to predict developmental testing results may have unfairly minimized the impact of the intervention if its effect is mediated through improving this interaction. The other studies examining the effect of well child care on developmental and behavioral outcomes are more appropriately considered efficacy studies. The most methodologically sophisticated of these studies was performed by Casey.
PAGE 30
and 8 visits in the first three years of life), a "cognitive stimulation program," group counselling, and dietary counselling
PAGE 31
7. Conclusions The literature evaluating the effectiveness of child health supervision is perhaps more remarkable for its limitations than for its findings. No evidence supports the contention that child health supervision as performed significantly influences mortality or morbidity or that the development of the child's social competence is enhanced through his or her participation in this endeavor. On the other hand, methodologically, sample sizes have been uniformly too small, and follow-up too brief, to identify mortality changes; the conceptualization of childhood morbidity until recently--and perhaps still--has been inadequate to examine health care effects, and most investigators have not even looked at developmentally oriented outcomes. For these reasons, we remain constrained by the need to use expert opinion and good intentions rather than scientific data to guide the nature of child health supervision. Given that participation in child health supervision does seem to provide substantial satisfaction to both parents and providers, the value of such opinion should not be overlooked. III. The Effectiveness of Five Well-Child Care Services Observational studies of ambulatory care reveal that a typical well-child visit takes approximately 10-12 minutes.(Reisinger, 1980) According to guidelines for the child health supervision visit, the health care provider should include in this encounter an initial or an interval medical history, a physical assessment, developmental and behavioral assessment, and the provision of anticipatory 28
PAGE 32
guidance.(American Academy of Pediatrics, 1985) Following the visit with the health care provider a number of preventive screening measures may be undertaken. We will review here the evidence for the effectiveness of several aspects of the well child visit. These include: 1> the physical assessment, 2) the most widely used formal instrument for developmental assessment--the Denver Developmental Screening Test, 3> anticipatory guidance for injury prevention, and two specific health screening endeavors--4) the detection of iron deficiency anemia and S> the detection of hearinr deficits. The criteria used here for assessing the effectiveness of these services mirror those used by the Canadian Task Force on the Periodic Health Examination.(Canadian Task Force, 1979) Specifically, a prevention-oriented service can be recommended if a> the condition under consideration is important, that is, presents a substantial individual or societal burden of illness; b> the condition can be effectively treated, and c) the diagnostic maneuver is good, that is, the maneuver is sensitive, specific, safe, simple, cheap and acceptable. Compliance with recommended interventions by both the patient and other providers is also important in assessing large scale screening measures. A. Physical Assessment t. Overview The physical examination may be considered a non-automated multiphasic screening test. The physical examination is a series of diagnostic tests intended to detect a variety of medical conditions. 29
PAGE 33
Given that the physical examination is indeed a diagnostic test, studies examining its effectiveness should be assessed by the same criteria used for judging reports on other diagnostic tests, specifically: a> is there an independent blind comparison to a gold standard, b) does the sample in the study represent a spectrum of the conditions under consideration, c) is the setting for the study well described, d) is the reproducability of the test determined, e> is normal and abnormal sensibly defined, f) is the individual contribution of a part of the test to the overall cluster of tests clearly determined, g) are the tactics for carrying out the tests well described, and last, h) is the utility of the test determined, that is, are patients better off for having undergone it.. Normality and abnormality are not specifically defined in most of these studies; a few studies arbitrarily classify findings as to their severity. The specific contribution of the physical examination to overall detection of disease is not usually considered; when it has 30
PAGE 34
be~n, however, the physical examination often identifies conditions already known to the parents and thus adds little to what can be identified by history alone. Finally, no study truly considers whether the patient is better off for having been examined. 2. Literature Revia. The specifics of the studies evaluated in the physical examination of childhood are listed in Table 6. Only one study directs its attention to the examination of the first year of life, when most physical exams take place.
PAGE 35
influenced the findings. Nonetheless these investigators found that only 3.1 of the preschool examinations as recorded detected a previously unknown abnormality. The authors did not determine whether more abnormalities existed and were not detected, whether those detected had false positive findings, and whether these detections influenced the health of the children. The study by Welch raises the question of the validity of the limited yield of physicians' examinations.
PAGE 36
in this report. Most importantly, the utility of establishing these diagnoses was not considered. The next series of studies considers the usefulness of the routine physical examination for the school aged child by a school physician. Vankauer and colleagues examined a representative sample of Rochester, N.V., first graders--excluding hearing, vision, and dental screening-and then subsequently re-examined these students over the ensuing four years. In the initial screening year, the authors found that 21 of the children had an "abnormality," but most <78) of these conditions were already known and under care.(Vankauer, 1985) The likelihood that a condition was indeed under care was greater for those children who were examined before school by a private physician , 99 of the abnormalities remained four years later.
PAGE 37
Despite their widespread citation in the child care literature, these studies have serious limitations. Like their colleagues studying preschoolers, this team did not assess the validity or the reliability of their exams. Also, they failed to co~sider any potential adverse effect from problem identification <"labelling"). Perhaps the most crucial caveat in making inferences about these studies to apply to the physical exam in well child care is that these investigators assumed that the children under study had a physician outside of school and were "under care." In the absence of well child services, it is possible that many of the conditions Vankauer noted as "under care" would indeed not have been previously identified or treated. Grant reviewed his and his colleagues' experience in screening school aged children in El Paso, Texas, and compared the "yield" of screening tests administer:ed by "paramedical" personnel with that of the physician performed physical exams.(Grant, 1973> He specifically excluded diagnoses of emotional problems, rashes, and acute illnesses from his report. In his sample--which spreads across the full age spectrum of students--13.4 of those screened had an abnormality; 71 of these were detected by screening measures. Again, the examinations were not validated nor was their precision determined. The overall usefulness of the identification was also not established. Kohler screened all children in a given community in Sweden at age 7 with a physical examination, following hearing and vision testing.
PAGE 38
well--no validity testing, unknown reliability, and no utility measure. DeAngelis reported a similar study with somewhat different results.
PAGE 39
detection of scoliosis, patch testing for discovery of strabismus, or abdominal palpation for detection of tumors. Given the more focused nature of these e~aminations, their effectiveness should be easier to clarify. B. The Denver Developmental Screening Test 1. OvervieN Unlike the literature examining either the effectiveness of well child care or the effectiveness of the phy~ical examination, the studies which examine developmental screening demonstrate careful attention to issues of methodology. Even so, this literature only recently began to assess the impact of developmental screening in terms of its long-term affect on developmental outcome. This area will be the focus of this section. Pediatricians and educators agree that school and behavior problems and learning disabilities constitute a major 5ource of morbidity for contemporary youth.
PAGE 40
programs, including home visiting, have also shown some positive effect. Thus, the conditions encompassed within the "new morbidity" present a burden of suffering and efficacious interventions apparently exist. Major additional prerequisites for recommending a preventive intervention program in;lude the availability of an acceptable diagnostic or screening instrument and, given that the intervention here is not provided by the physician, the likely compliance of the client and the service provider with the recommendation to obtain services. 2. The DDST--Background, Reliability, and Concurrent Validity The most widely used and recommended developmental screening tool for use by child health personnel is the Denver Developmental Screening Test or one of its adaptations--the DDST-5 or the Parents Developmental Questionnaire . These latter two tests allow more rapid developmental screening, and thus increase the acceptability of the test to both patient and provider; nonetheless as they have been validated primarily against the full Denver Developmental Screening Test, consideration here will be restricted to the full test. Perhaps the first question in considering the DOST is whether any formal developmental testing is truly necessary? Stated differently, are either parental observations or intuitive judgments by pediatricians sufficiently predictive of subsequent problems so that formal testing is not required? The answer to the second part of the question is clear--physicians are probably poor judges of development. In studies over two decades ago, Bierman and Kersch noted that pediatricians diagnosed only one third of 37
PAGE 41
"mentally retarded" two-year-olds and consistently overestimated the IQs of retarded children.(Bierman, 1964; Kersch, 1961) The validity of parent observations remains an open question. Nonetheless, the delay until school entrance of the diagnosis of many learning and behavioral problems suggests that parental observation alone is also inadequate. The DOST was developed in 1967, and initially tandardized on a presumably normal, non-randomly selected group of children from Denver, Colorado.(Frankenburg, 1967) The scoring system for the Denver test was revised in 1971. The great majority of the validation studies for the DDST examine concurrent validity; that is, these studies compare the DOST to a more established test of developmental or psychological function. The most commonly used criterion tests for comparison are the Bayley Scales of Infant Development or the Stanford Binet rntelligence Tests.1 The initial concurrent validation studies of the Denver showed a sensitivity of 68 and a specificity of 92, comparing abnormal results on the DOST with IQ or developmental quotient of less than 70 on the other criterion tests.
PAGE 42
a sensitivity of 68, and a specificity of 95, comparing the DOST to the Stanford Binet. Given these acceptable test characteristics, many authorities have recommended incorporating the DOST in some form into child health supervision. The primary purpose in doing so would be to identify children likely to have later problems, so that interventions could occur to prevent these problems. Additional reasons for administering the test include providing assurance to the parent concerning the normalcy of development and to identify and reinforce the strengths of the child in the parents' eyes. These additional reasons, while perhaps salutary, seem nonetheless secondary in importance. 3. The DDST--Predictive Validity and Utility Three studies have been performed to evaluate the usefulness of the Denver in predicting global sc~ool performance
PAGE 43
are of excellent methodologic merit(Sturner, 1985; Cadman, 1987>, the earliest is substantially flawed. The first study examining the ability of the Denver to predict subsequent school performance was performed by Camp and colleagues, using one of the original Denver validation populations.
PAGE 44
bias. These biases may influence the validity of the estimates of the test's sensitivity and specificity; they necessarily influence the estimates of the test's predictive value, simply by increasing the prevalence of school problems. The high positive predictive value for the DOST vis-a-vis school performance in this study is therefore meaningless in most clinical settings. Sturner and colleagues reported a more sound investigation of the predictive validity of the Denver, initially screening all children registering for kindergarten in Person County, North Carolina.(Sturner, 1985) Although these investigators again preferentially included those with abnormal Denver screening results in their follow-up group, the preferences were allotted with known probabilities, and therefore the investigators could weight their final results to come up with inferences about the county as a whole. School failure for this investigation was defined as either being in a special class or achieving less than the twentieth percentile for second grade on the California Achievement Test. The North Carolina group found that 57 of those with school failure were previously scored abnormal or questionable on the Denver4 while 87 of children not failing by second grade had a normal DOST result. When these investigators considered a two-stage Denver test, i.e., prescreening with a shortened Denver instrument, the sensitivity decreased to 26, while the specificity improved to 94. Cadman and colleagues not only sought to clarify the predictive validity of the Denver in a community setting, but uniquely sought to determine the utility of a community based screening and referral program.
PAGE 45
preclude their attendance in a regular classroom .. were randomized to receive either the DOST with counselling and referral, the DOST alone, or no developmental test. The excluded group was estimated to be roughly 3-5 of all children starting school. In Cadman's study, trained public health nurses administered the full Denver as the initial screening test. Children with abnormal, questionable, or untestable results and achievement (Wide Range Achievement Test of arithmetic, spelling and reading). Potentially significant attrition and refusal to participate in the study did occur.1 Cadman's group found that a "positive" DOST, administered in two stages at the time of kindergar-ten registration, detected only 6 of those children who would not be in regular second grade class; over 99 of those who were in the regular 2nd grade class had received a normal screening result. Only 9 of students overall were classified as "school failures" by Cadman's criteria. When those children who obtained a "positive" test result and received counselling and referral were compared with those children with ~. 11.5 of those with AQU Denver results on the second test were lost to follow-up, with equal amounts from the counselling and noncounselling groups. Of the random sample of those with normal tests invited to take detailed psychologic testing, 32 refused. Of the sample of those not undergoing Denver tests who were invited to undergo psychologic testing, 41 refused. Those who dropped out from the control groups appeared to have more teacher-judged learning problems than those who underwent testing. These characteristics might cause the study to exaggerate the true differences between those with normal and abnormal Denver results, but should not bias the estimate of the impact of counselling and referral. 42
PAGE 46
similar results but who did not receive counselling and referral, no differences in any measure of school performance were noted. Parents of children who had received counselling reported significantly more parental worry about their children's school work than those without counselling. Children in the counselling group did receive more community based services. Even so, only 10 of the 28 children in the counselling group were actually seen by their community physician and referred for more definitive evaluation. Due to the low frequency of AQU results <1.3>, relatively few children--25 and 21--were included in the study and control groups respectively. The major weakness of the Cadman study, aside from the small final sample size, is the brief period of time between the screening test and school entrance. This short lag time did not leave much time for preschool intervention programs, and, once school began, the control group rapidly received school-based services. Earlier screening may have also allowed earlier identification of some of those e~cluded from th? study group on the basis of "known problems of development," and potentially some of these problems may have benefited from intervention. 4. Conclusion The Denver Developmental Screening test, when administered before school, has fair predictive ability. Assuming a 25 ratP. of school failure, the clinician can predict that a positive preschool screenee will fail in early school between 60 and 70 of the time; a negative screenee will avoid failure 76 to 89 of the time. If the prevalence of school failure is only 10, however, a positive screenee will fail only one-third to one half of the time, while a negative screenee will be in a normal 43
PAGE 47
program with a probability of 95. Less encouraging to the prospect of reducing school failure, however, is the finding that from 50 to 95 of those who will experience school failure will be missed in a preschool screen. Moreover, the very limited evidence presented to date does not support the assumption that detection of a problem will result in improvement; indeed, the parents of these children seem to worry more with no improvement in outcome! Administration of the Denver Developmental Screening Test ~t the immediate pre-school period therefore cannot be recommended at this point as a component of an effective means of reducing school failure. This report does not review whether earlier identification of developmental delay through the use of the DOST is a useful effort. No specific studies on this question were identified. Although the early intervention literature, noted above, is encouraging, eligibility for. participation in such programs is in most cases determined by family socioeconomic and demographic characteristics, rather than by child developmental scores. If the use of the Denver, or comparable tests, is to be recommended in the context of child health supervision, this recommendation must come on intuitive or philosophic rather than scientific grounds. III. C. Anticipatory Guidance for Injury Prevention in the Clinical Setting 1. OvervieN As noted above, the well child visit in pediatric practice consists of an initial or interval history, the physical examination, behavioral and developmental assessment, anticipatory guidance, and, at 44
PAGE 48
times, additional tests. Anticipatory guidance involves providing health education, information, or counselling in order to influence the parents' or child's behavior and thus favorably influence the child's health. Subjects considered in anticipatory guidance range from traditional medical guidance (such as avoidance of contact with children with certain communicable diseases) and nutritional advice, to suggestions for appropriate behavioral management at specific developmental ages and information concerning health behaviors such as smoking and alcohol use. Medical practitioners traditionally spend relatively little time in such activities. Reisinger and Bires found that pediatricians spent 8.4% of the time of a well visit on anticipatory guidance activities, and that the proportion of time spent on such guidance diminished with increasing patient age.
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in increasing infant and child restraint use are listed in table 7. Most of these studies have been reviewed by Bergman, Pless and Christopherson. As these reviews indicate, the early studies suffer from severe methodologic limitations. These limitations consist primarily of non-random assignment of experimental and control groups and use of parental self-report in the assessment of outcome . Even if the results of these studies were valid, they may not be easily generalized to the population in that these studies rely in most cases on either military samples or white, middle class populations. The more methodologically sophisticated studies failed to demonstrate a substantial effect due to educational interventions.CMiller, 1977; Reisenger, 1978; Reisinger, 1981> The most sophisticated study, and the one most relevant to the process of well child care as usually practiced, was performed by Reisinger and Williams.
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likely to use such restraints eventually. 3. Conclusions Whether the limited efficacy of physician counselling in increasing proper use of infant restraints can be generalized to all of anticipatory guidance as usually performed is not certain. On the one hand, use of infant restraints requires initial expenditure of funds and requires repeated individual action. Moreover, as the recent repeal of seat belt laws in Massachusetts indicates, Americans maintain strong emotions about how to travel in an automobile. Furthermore, the health care provider may not be viewed as an authority in the area of child automobile safety. On the other hand, strong feelings often &Kist in families about most aspects of child rearing, such as disciplining and diet, and in these areas, physician expertise rests on a much more narrow body of evidence. Thus, the impact of infant restraint advice on restraint use may accurately reflect the generally limited impact of medically provided anticipatory guidance. The limited efficacy of such guidance has stimulated the development of alternative approaches to traditional well child care. Osborne has proposed and piloted the use of group well child care. III. 4. Iron Deficiency The complexity 47
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of the issues concerning screening for anemia, however, requires that the effectiveness of screening for this "condition" be reviewed. As before, criteria for judging the need for a screening intervention are the burden of illness presented by the condition, the effectiveness of intervention, and the quality of the test. Ideally, the assessment of the quality of the test should include an assessment of the tests overall utility. For the case of screening for iron deficiency, none of these criteria are now satisfied. Anemia, itself, is not a disease. Rather, anemia is a laboratory defined entity characterized by a level of hemoglobin
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Less well established, however, is the harm--the disease, disability, discomfort, and cost--caused by being iron deficient. The anemia, per.!., is not thought to cause overt symptoms until the level of hemoglobin drops below 8 gm/dl. A large number of studies have sought to clarify the issue of whether "sideropenia" These studies are summarized in Table 9. Although a great deal of convincing evidence exists concerning the biochemical impact of iron deficiency, the results of these "clinical" studies are highly contradictory--in part due to different geographic settings, different age groups, different classifications of iron deficiency, different outcome measures, different duration of follow-up, varying attention to potential confounding factors, and inadequate analytic techniques. Although none of these studies show children with iron deficiency to be advantaged, an adverse effect of iron deficiency on learning and behavior remains ''unproven." Thus, concerning "burden of illness," mild iron deficiency is prevalent. Whether the condition is serious, however, remains uncertain. How effective is therapy for iron deficiency? No doubt exists as to the effectiveness of iron therapy in rapidly correcting the hematologic manifestations--i.e., the anemia--and the biochemical markers of iron deficiency. For many children these manifestations 49
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would also resolve without therapy, although resolution would occur more slowly. A large number of additional tests exist for identification of iron deficiency. Anemia itself is felt to be a late effect of iron deficiency. The earliest marker is the serum ferritin level, which is the storage form of iron. This test requires a venous blood sample (difficult for routine screening in children>, and is expensive
PAGE 54
at Massachusetts General Hospital= $23.75). Another early marker is the serum iron level itself. This must be measured together with the transport protein for iron , and is also variable depending on the time of day and the presence of either acute or chronic illness. A somewhat later marker--but still prior to anemia--is the erythrocyte protoporphyrin . This is a measure of the precursor of hemoglobin, and is mildly increased in iron deficiency; this test is routinely done as a screen for lead poisoning, in which case it is markedly elevated. The EP can be done via fingerstick and is inexpensive and rapid. Altho~gh within laboratory reliability is good, inter-laboratory variability can be up to 15. The sensitivities and specificities of the different screening tests for iron deficiency have not been described in an unselected American population using the accepted "gold standard" for iron deficiency of response to a therapeutic trial. In a military sample of children with hemoglobin levels less than 11.5 Gm/dl, the lower (more commonly used) cutoff of 11 Gm demonstrated a sensitivity of 52 and a specificity of 66 when measured against this standard.(Driggers, 1981> Stated otherwise, the most commonly used criterion for iron deficiency anemia identified only half of those in this sample who in fact would respond to a therapeutic trial of iron, and incorrectly identified as iron deficient one-third of those who would not respond. Indeed, in this study, no single commonly used cutoff identified much more than 50 of those who responded to iron therapy.
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colleagues described an elegant approach to choosing both a screening test and cut off values through the use of receiver operator curves; unfortunately, their study design resulted in over-representation of children with low <<10.5 Gm> hemoglobin levels, making generalization difficult.CKim, 1984) In their sample, nonetheless, pre-tre~tment Hgb level per~ was the best indicator (highest sensitivity and specificity> of subsequent response to iron; the EP also performed well, especially as a screening test for more severe iron deficiency (i.e., identifying those who respond to iron therapy with an increase in Hemoglobin of 2 Gm/dl). Thus, although iron deficiency is both prevalent and easily treated, ongoing questions remain about the seriousness of the condition, about the response of the alleged complications of iron deficiency to iron therapy, and about the best means for detection. It is on this somewhat uncertain basis that recommendations exist for pursuing the diagnosis of iron deficiency. Reeves recently stated the dilemma: To date there have been no evidences of physiologic advantage from the common iron deficiency seen in childhood On the other hand, since the deficit is small and may correct itself, saddling the ~ealthy child with a protracted, perhaps difficult therapeutic course may not be justified. infants 52
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with either a capillary hemoglobin, hematocrit, or EP, appears reasonable, with a liberal threshold 35 micrograms/di whole blood> for institution of a therapeutic trial of iron. Additional screening beyond infancy does not appear indicated based on current information. This entire field merits large scale studies of screening tests and (b) impact of iron deficiency and therapy on intelligence, performance, and behavior, using representative populations and careful epidemiologic design and analysis. III. E. Auditory Screening in the Preschool Child 1. Introduction and Overview The American Academy of Pediatrics and other bodies concerned with hearing impaired children recommend a threefold approach to the early detection of children with hearing problems. This approach consists of identification of high risk newborns and infants through application of risk criteria1 of infants and toddlers through monitoring of speech and language development (possibly including use of formal speech and language screening instrumen,s>, and of preschoolers through the use of some form of formal hearing screening test. This critique will focus on th~ effectiveness of hearing screening in preschoolers. Understanding the rationale behind the threefold approach and its limitations requires some understanding of the process of hearing. In brief, sound waves are transmitted from the environment to the tympanic i High risk infants are those with 1> Family history of childhood hearing impariment, 2) Congenital perinatal infection 3) Anatomic malformations of the head or neck 4) Birth weight <1500gm 5) Hyperbilirubinemia 6) Bacterial meningitis or 7) Severe asphyxia. (Joint Committee on Infant Hearing, 1982) 53
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membrane . The sound waves cause vibrations of the ear drum, which are transmitted via a series of fine bones through an air filled space, called the middle ear, to the inner ear. In the inner ear, a specialized structure called the cochlea converts these mechanical impulses to electrical impulses, which are then transmitted to the brain and interpreted as sounds. Impairment at any step in this process will interfere with normal hearing. Thus, excess ear wax blocking the ear canal leading to the ear drum will diminish hearing. Fluid in the middle ear, either concurrent with or residual from an acute ear infection, may cause a "conductive" hearing loss. Damage to the inner ear structures, either as a result of congenital malformation, prenatal or postnatal infection, or the toxic effect of drugs or other che~icals results in "sensorineural 11 hearing loss. Brain injury also may result in problems processing sound input. In general, sensorineural hearing deficits are more severe, bilateral, and permanent, while conductive loss is less severe, unilateral or bilateral, and transient. B. Burden of Suffering and Effectiveness of Therapy Severe sensorineural hearing loss probably occurs at a frequency of 1 to 2 per 1000 live births, resulting in 2000 to 4000 profuundly deaf babies being born each year.(Coplan, 1987; Black, 1975) Additional sensorineural loss results from postnatal infections such as meningitis or encephalitis, from certain medications often used in neonatal intensive care, and from elevated bilirubin levels which also occur most frequently in premature infants. This early and severe loss clearly results in impairment in both general learning and speech and language development. Treatment for such severely impaired children includes use of hearing 54
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amplification and a variety of special educational techniques. In addition, family counselling is often provided. Although the effectiveness of these interventions were not reviewed, the value of providing some therapy for such children and their families appears selfevident. The frequency of conductive hearing loss is less clear cut. Again, the overwhelmingly dominant cause of conductive hearing loss in children is fluid in the middle ear (middle ear effusion>, with or without acute infection.
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intervention also involves risk and expense, as well as uncertainty about the long term implications of tube placement. The burden of disease caused by sensorineural impairment (1 or 2/1000 versus the estimated incidence of PKU of 1/10,000) and the likely effectiveness of therapy makes newborn screening an attractive possibility. Screening in the preschool period offers less attraction on a number of grounds: 1) age three to four is too late for optimal identification of congenital severe sensorineural deficits, in that critical language and learning periods are missed; 2) a great number of positive screens will likely be due to mild conductive hearing loss, with little attendant impairment or disability; and 3) the effectiveness of therapy is uncertain. C. Screening Tests Unfortunately, assessment of hearing on a screening basis is difficult in the newborn period and relatively easy in the preschool age group. As noted above, the AAP and the Joint Committee on Infant Hearing Screening--which includes representatives of the American Academy of Ophthalmology and Otolaryngology and the American Speech and Hearing Association as well as the AAP---recommend use of high risk screening criteria. Infants meeting one of these criteria are then referred for more extensive diagnostic audiologic evaluation. Alternative or complementary newborn screening tests measure the infant's behavioral , or brain wave response to specific sound stimuli. The precise sensitivity and specificity of these tests, and their optimal combination for early identification of hearing deficits remain controversial. (Alberti, 1985; Pettigrew, 1986) Preschoolers are in most cases screened through the use of pure-tone 56
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audiometry. For this test, children are presented with sounds across a range of frequencies at a sound intensity (loudness> somewhat above the young adult normal level . Also, the testing environment must be relatively quiet, although complete soundproofing, necessary for complete diagnostic testing, is not required. Furthermore, other distractions to the child should be kept at a minimum. The extent to which practitioners observe these technical requirements has not been examined. Controversy also exists concerning the precise frequencies which should be tested, and the number of failures which define test passage/failure. The criterion test against which screening audiometry is judged is termed threshold audiometry. For this test, sounds across a range of frequencies are presented at either increasing or decreasing intensity to determine the "threshold" or minimum intensity which the individual perceives. FitzZaland and Zink recently examined the sensitivity and specificity of pure tone audiometry in kindergarten and first grade students in a region of British Columbia.(FitzZland, 1984) These investigators compared results of pure tone audiometry (and other screening tests> with a "complete audiologic evaluation" which included threshold testing. The 57
PAGE 61
authors did not indicate whether the audiologic assessment wa3 performed blind to the screening results. These authors found a sensitivity of 93 and a specificity of 99, with an overall prevalence of hearing impairment of 3.9. Of the 137 children with hearing impairment, 10 had sensorineural defects and 4 had mixed conductive and sensorineural impairment; the remainder had pure conductive deficits. Thus, pure-tone audiometry, properly performed, appears to be an excellent screening test for the detection of hearing impairment when judged against threshold audiometry. Whether this is the appropriate criterion has also been a subject of controversy. Some have argued that detecting deficits in speech perception, rather than sound perception, should be the goal of hearing screening. This perspective led to the development of the Verbal Auditory Screening Test for Children ; unfortunately, validation of this test has been inadequate.(Northern, 1975) An alternative perspective, popular in the audiologic and otologic communities, holds that pure tone audiometry is not sensitive enough for the detection of middle ear disease. Proponents of this perspective advocate use of impedance audiometry, which measures the mobility of the ear drum and assesses the level of pressure in the middle ear. Indeed, impedance audiometry is a sensitive. specific, and reliable measure of middle ear dysfunction, and pure tone audiometry detects only approximately 50 of cases of middle ear effusion.
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optimal assessment of a screening test includes not only gauging the burden of disease, the characteristics of the test, and the effectiveness nf treatment, but also judging the overall utility of screening--i.e., does offering screening improve the well being of the individuals and the community screened? Again, a Canadian group tried to assess the utility of preschool community screening. the study could have easily detected a 25 difference at the .05 level. This study does exhibit several limitations. First, the authors do not indicate whether the kindergarten screener was blind to the results of the preschool screen. Also, although the authors tried to make the communities comparable through selection of relevant census tracts, unknown differences may have existed between the communities. Also, the investigators did not examine whether further ear evaluation or therapy was sought by those identified in the preschool screening, and whether the parents viewed these children differently as a result. Finally, the 59
PAGE 63
actual outcomes for th~se individuals initially screened as abnormal were not examined. Nonetheless, the findings suggest that community pre school screening is not associated with a significant decrease in the prevalence of hearing deficits. The authors ascribe the failure of the screening program to the limited effectiveness of interventions for the treatment of conductive hearing disorders (middle ear effusion>. D. Conclusions Issues surrounding the early identification of hearing deficits through screening in early childhood are surprisingly complex. Sensorineural deafness in infancy presents a significant burden of illness, particularly in terms of its developmental and social impact; unfortunately, infants are difficult to screen. Infants meeting the risk criteria outlined by the Joint Committee on Infant Hearing
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understandably few! No concerted effort was made to identify studies specifically considering the costs associated with well child care. Within the comprehensive care literature, Alpert considered cost.
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for iron deficiency were not identified. Berwick and Komaroff presented a detailed cost effectiveness analysis of lead screening., while the maximum risk period for iron deficiency is at approximately one year. No further studies considering the costs associated with well child services were encountered. 62
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Table 1. Recommended Number of Well Child Visits # of exams recommended Age: 1-bmos 7-12mos 1-4yrs 5-llyrs American Academy of Pediatrics 1974 4 1 4 3 1981 4 2 5 5 1985 4 2 5 4 Canadian Pediatrics Society 1983 4 2 4 4 Canadian Task Force 1979* 4 2 3 2 Court Committee, U.K. 1976 1 1 3 not included Royal College of General Practitioners,U.K. 1984 1 1 2 not inciuded Draft Document, Working Group on Child Health Supervision, U.K., 1987** 1 1 2 *** not included Sweden, 1976@ 4-7 4 Israel+ 16 (5 MD, 11 nurse) France++ 6 6 9 Finland+++ 12 3(Vr 2) *visit numbers are for those recommended for the general population with A,B, or C level of recommendation **Personal communications Ors. David Hall, Chair, and Aidan MacFarlane, Vice-Chair ***Full physical evaluation recommended at age 3 1/2; home assessment of walking and language use at 2 by nurse also recommended; screening tests for hearing and vision recommended before school entrance, with physical examination only if not performed at earlier time. tl3-4 home visits also occur in the first year of 1 ife; at age 4, a major "heal th control 11 -i.e., comprehensive physical, developmental/behavioral exam, is provided (Kohler, 1973> +Pa 1 t i 1982 ++Harris, 1974 +++Gilbert, 1984 63
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Table 2. General Summary of Physical and Developmental Evaluations Recommended for Child Health Supervision, Ages l month through 11 years American Academy of Pediatrics 1981 1985 Canadian Pediatric Society Canadian Task Force Court Committee RC General Practitioners Working Group Physical Evaluation "At each visit a complete physical examination is essential" Specific evaluations recommended at each age. No mention of exam at 9, 12, and 15 month visits other than growth measurements. Complete physical exam recommended at each visit. Specific items emphasized at particular times. specific physical exam measures recommended for most visits. Complete exams not recommended. Full examination at 6 weeks and pre-school; focussed exams at other times. Complete physical exam at first visit; brief exam thereafter. Specific points at each visit. Complete exam at 6 weeks, 8 months, and 3 1/2 years. Focussed measures at other times *Condition not reviewed by Task Force **personal communication, Dr. David Hall Developmental Evaluation "By history and appropriate physical examination. If suspicious, by specific objective developmental testing" Detailed developmental and behavioral guidelines provided at each age, with note of specific items for concern Behavioral history each exam. Language screening 7 times. School performance evaluation yearly beginning age 5 PDQ or DOST recommended most visits before age 2 1/2*; Review history of behavior problems ages 2 1/2,4,5,10. Assess parentchild interaction 18 months to 2 1/2. Review Development age 7 months, 18 months, 2 1/2, 4 1/2. Milestone oriented developmental exam included in each visit Brief developmental assessment at 8 months. Home visit at 2 years with brief gross motor and verbal developmental evaluation. "grave doubts about the value of t~e neurodevelopmental exam"** 64
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Table 3. Recommended Performance of Specified Screening Tests Ages 1 month through 11 years AAP 1981 1985 CPS Task Force Hearing Screening 4,5 yrs"' 5 yrs" 4,5 mos* 3,5 yrs* 2 1/2,5, 10 yrs.** Court 7 mos. 4 1/2 yrs RCGP 7 mos. 2 1/2 yrs.a> 4 1/2 yrs. Working Group 8 mos. 4 1/2 yrs. Vision Screening 3-6,8 yrs.I 3,6,8 yrs# 6 mos., 3-6 yrs. 2-S yrs. Hgb/Hct once ea. infancy, preschool, school optional 9 mos. high risk 9 mos. low SES 9 mos. 7 mos.,2 1/2, not mentioned 4 1/2 yrs. 7 mos. not mentioned 2 1/2 yrs 4 1/2 yrs 4 1/2 yrs. not mentioned Tb Testing Urinalysis 12 mos., then 1 ea. q. 1-2 yrs. period high risk 9, 5,7,9 yrs. 15 mos, 3-5 yrs. high risk 9 mos. not 5 yrs. recommended high risk 5 yrs. not (A), BCG age 5 recommended not mentioned "BCG when appropriate" not mentioned not mentioned not mentioned not mentioned -subjective hearing assessment at all visits and hearing evaluation suggested with speech delay. #subjective assessment at all visits. method not specified **"clinical exam for hearing"--not clearly specified STVCAR 5 toy test 65
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Table 4. EPSDT Screening Recommendations for Selected States+ STATE ALASKA CALIFORNIA COLORADO CONNECTICUT D.C. GEORGIA ILLINOIS INDIANA IOWA KANSAS$ I VISITS 7 Tb Test Hgb/Hct FEP/Pb U/A Hearing Vision 13 15 11 10 10 11 18 11 10 MASSACHUSETTS 17 MARYLAND 10 MINNESOTA 9 NEW HAMPSHIRE 12 NEW JERSEY OREGON$ 11 9 PENNSYLVANIA 17 TEXAS 9 WEST VIRGINIA 18 llm/2 9m/6 opt. 9m/5 12m/7 10m/2 16m/2 ** 15m/1 ly/2 15m/1 13m/1 12m/2 ?m/3 ** 13m/3 12m/2 6m/6 7m/6 9m/3 lOm/2 12m/5 6m/8 lOm/5 9m/2 4m/7 9m/4 ly/3 9m/3 6m/4 9m/2 ?m/3 9m/6 ** 6m/2 12m/11 ** 12m/4 opt. 12m/1 12m/5 15m/opt Sy/3 33m/3 4y/3 3y/4 6m/9 opt. 2y/4# 6y/1 3y/4 6y/1 lm/10 3y 15m/5 4m/10(HR> 20m/2 Sy/1 "inspection" CHR> ly/4 15m/2 ** 12m ** 6m/1 ** 30m/5 30m/5 3y/4 4y/2 5y/l 2y/21 9m/3 2y/1# 12m/5# 20m/2# 42m/4 3y/4 5y/4 5y/2 4y/3 19m/--19m/--opt. 2.5y/4 2m/17 4y/8 +states are included on basis of having sent periodicity schedule to OTA; sample is neither representative nor systematic Aage at first screening/total number of tests recommended through age 11. *screening recommended at each visit. Test not specified; formal and informal screening not differentiated. **"if indicated" HR indicates for high risk groups only # also recommends urine cultures S also recommends use of Denver Development Screening Test or Parent's Developmental Questionnaire. 66
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Author a11wt HHlclNn TMLE s. 1i\t~ry pf Ut1r1tur1 y1Jy1t1na ffm;H'J'lftll..ALW.11 AJlld ctc 818 lfbol Study Papuletlon Study Dnl1n Fr...-ncy af 0111d Health lklpervlslon Vlits 1979-80 1n1-2 'll,t~rlo ..... rl Rochntar Low llolotlc Rlsk-t;llnlc end Private RCT RCT IMple llze 214 P 152 control 125 P 121 control lnterwnt Ion DKrHH I wall child visits fro 10 to 5 In first 2 year l>Kra I well child visits fro 6 to 3 ln first var C7 Outcoaa ""surn I Physical AbnorN 11 t In I Undetect9d Abnorulltln Bayley IOE ttaternal AnNlety Satisfaction Nlth c..-e KnowltldtJe Satisfaction Mith care coapllance utlllzatlon I undetect.t Abnorul l Ues Rnults No DI fferences l)e\pcted No Dlfferencn Coaaents S..11 difference In atual nuabr of II child vlslts -6.19 In np. l"OIIP and '1.19 In control 1. Etra visits occurrM .,_ to contact with nurM1i for 1-,nl1tlons. Etra visits schaduled for by staff far' clinic patient randalzed to l0tt decreased visit schedule. 2. INdaquet ur of davelapMntal/btlhavlaral outcONS 3. Inadequate pa...,. to detect lrve diffrnc in the frequency of physical anarNlltlH It. OutcaN ~nt not blinded ta study 9roup
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.. lhor v .. rs hta Study Study IMplIII lntarV1111Uon Outc-Na..-.. RnuUs eo-nts Collactad Pllpulatton Desl1n Collpr...,.lw Car Protr lordls 1967-70 laltlr RCT 120 ... CNprahenslva lnfnt IIDrlllty ND dlfferenc .. 1. lnadacllNt Powr to Pr 1111111 .. rous 11'1 control care Hospital lzatton detKt 1..-.. di ffrencn, CII Years CND,M,NSU--Cllnlc/ visits c..,t In Ell ue frNI vs .. tt.lt)htlltht(IOI 2. lnaflrC111t 110rbldlty usual care I 1-.anh and .-velapNntal aSllr .. Kaplan 1969-70 PlttaurCJh Cross :125 eap. Enrol lllffflt In School Attandance S..11, st1tlstlcally Potential ulf-HIKtion AttendNS 2 Sectional 700 control CIV Haalth sl1nlflca"t of h9altht..-children lchools In ProJd-dlffwenc with Into protra CNe tt LON lnclNIII daytlN effKt of enrol laent NalQhborprOCJr, status CJ.2 daysl hood ,-ds,w,rn, public hHlth Noor 1968-71 Olarlnto1M CroH 991 total DtNJr of ChftlJ" In sentNIM Na slvnlflcant chancJ9 I. orlor h9alth status sthaol-Ndlonal 3 9roups part Ir. lp-1t Ion In abstmtNIU with likely trIIWCI both, chlldrffl In health par tic lpatlon. Trr-- utll lzatlon afld undw10 I IICJ clfflter-to lncrHd abHnce. abuntNIU coaplet PE aul tldlscp., e. SN:ular tren~ Isled co11prahtm-tOMld lncrsd slve, frft PE absenteel Alp1trl 196--8 Boston, RCT 173 .,. Co11Prahr"11IV9 Ch lld tt.a Ith I ndtt11 tlD si9. dlffernc I. r110t1l~t lrn~rs of Children' IM control ttecllcal Car tttlo11 nv aarbidlh OM flnt:D ii I I Mn~ltal--Prn11ra HD, Slclcl'fts nd DrutJ 0.ys N1S11re1 slllar 2. albllltv not clr poor, no RN, HSW1 v. Satlfactlon fr9q,,...cy outpatint J. 3nl dorout--~robably oth1tr ttO, usual r.r Cos& visit with aor not blHi"9 ti, near ProceH1 Us of prevntl._,. vlslts1 no 4. co1111artlWP ~at~r hnt1plbl PrPVflrtlv s.rvlcs and sl9. di ffrnc ~p. and control ~'lltJP 1...,nlt .. tlons overall not docUN11ted ho~plt1ll1tl~n--aore 5. spKlfic rbldity sur9lcI, f...,-111easurn not natllft In acut t-rrovad report 0\ satlsf~~tlon with 6. No dwlopntAI 00 tMlt Ald prnfessional NISUrn r-.lat ,.,""i"~I 7. ,.,ltlol c~..,~ ~a"" laprovf'ld prccM for stall' tc ,1 tillCJ 'liUrn. 8. Introduction of Ndlcald Ny hlvtt ln,,~izecl ~ff.ct.
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Author v ...... ,. lludy Study ........... Colldlld Papulatlon DHlp ....... 1970-I ... au.st116 P Deflanc, randoal1M 119 control AZ--Llw Trial INlrn Infants Auc)ustln 1'70-1 NYC ~rid total chll* DHltn--...-oiled In first year Nantflora-anrollNS llarlHnla coaparad to CIY Prolact end yaar lordls 1968-70 laltlr Ecolotlc NDt llasldenl CCIIMUS relavant S-H yr. tract as 35,068 In elltlbl unit of ell9lhle census analyslI Incidence tracts 13.5/100000 klln 1968-70 Rochester I.Ecolotlc 1.8000 ..... t.catchant e. Crass '7000 area sactlonal control rnldent e. 1500 to e.health 3300 ....... centar 6000 to uwrs lt750 nonUMrti .,.,sea 1975,1977 Haurd, Ky. Cohort 65 pair INpl of study-froa 177 children P and pair In born at ARH control o;-l9lnal 0\ ho9111tal, 9roups 9roup1 79 \0 utched to 9eu1Jraphl-pairs In children cal lly ne11 study born at separate 9roup ~crabl faclllty Intervention au,c_ .......... ln.,en.lve Infant llartallty follow-up and Httalth ...,,..alul at .. hoN visit Uncorracted VS. U9Ual Mnorulltln, tlabal car lleal1h .......... ,, Net, DDSt ht reportlldl 1 HDtpltal hatlons, and outpatient vllt MDI Dncrlbed ..,..,_. of lllnNs visits to clinic durl"I end yaar of protr participation coapared to ..... tchad first year ...-olln HDspltal O.ys par r99lstrant Edstence of Rh11UUtlc Fever CoaprllheMlve Incidence CR.tnl Care Pra1r In Tract Coaprwn-Haspltallzatlon ratn 11lva, and 1-..th of stay lth1pe-dally 1roup practice I. In Tract vs. not In T'l"'ad 2. UMr11 VS. non-uurs Ho_, visits Hltalth statusa Physical C7t for Otltls ttedla, caunwlll~, Hct, ran deflcl9"CYI support, utlllzatlon--.ctal11slans education, and autptlent/EW nd advocacy, visits plus ~11 chlld c1re ~/ Rnults c:o..n,. ND sl9nlf lcant I. IMdtlquatpawr dlfferencn rtallt, analysis e. Adequate......,. for so rbldltv outcONSt app,aprlat..-. uncwtaln 3. ConfOUftdl"I of ca flndl"I and battar care 4. ND bahavloral outcCHlft 351 deer I. ND tt.scrlpUon outpatl.nt vlslt papulatlon1 2. ND dKrHM In dttscrlptlon of prCNJrN 3. hospltall1atlon rates INldttQl,at control 9roup froa .36 to toe 4. TIN of enrol lNnt and acut IINds related Cconf oundecU 60I dec:llna Cp<.0051 I. colo9lc fallacy CSN In rheuaatlc fever t, rain In elltlble e. NDt ec:lflr.ally census tracts related ta child httalth supervision I. Lawr hospital I. Llltatlons In val adalHIQn ratN of flo,pltallzatlon rtn and LOSIn contra I as outcON. 2. S.lactlon tr.:ts thrDUIJhout bl In uw of Malth study. centr e. UHrs had ,....,. hospitalization ratn than non-users and 10 ... r LOS than non-UHrs or control 1roup. ND di ffarence In I. Inadequate control helth sttu-population Clnc~HM aeawrn1 non-distanc to ttO for sl9nlflcant trend to contra I 9roup, bet tr dKreased utill11tlon IMuranc for In prlntal 9roup lntrvntion qroupt 2. but ho visits not Inadequate pown, ta Included. dtect di ffffel'ICH In ho..,ltallzatlon 3. No b9havloral outcoNS
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Author EPSDT lr11in Keller Rel ...., 0 Years O.t CollKted 1973-80 1979 Study Dnl9n a.foro/Af-tr Mith uprt controls for u I. Rapeated prevalence e. cross-NCtlon uurs vs. non-uHrs Study Population &.E. Penn. EPSDT ellvible >18 at 1st screena scrNned at 2 yrs. Nlchl1an-pop. litlble for EPSDT entire year Revi ... of unpub Ii shad NCH funded EPSDT evaluations SMpl Size 1831 children 16,000 rMldoa uaple e. 10000 UHrSI 6000 non-users Intervention ParUclpaUon ln EPSDT provr PrUclpatlon In EPSDT Proor _-j< Outco ... 1. Jdentlflcatlon of an Abnorul condUion requlrlNJ trutaent e. I treat.Ole conditions identified tndardlzed for nuaber of conditions tHted. t. Referral Ratn e. Costs for participants vs. nonpartlclpantsa Mith and Mlthout adainistratlve costs. R9sulh t. ND difference in crude rtn e. llwn MIJusted for seculr trend of lncreaud ldantifiction rates, rescrNnlNJ NH associatad Nitti a 261 deer I. hc:reased referrl ratn Mith lncruud SCrNni119. 2. Na consistent chnve in costs Mith incresed IUlbers of scrNnings 3. Prtlcipants cost less than nonPrtlcipnts eo-nts t. btlonale for adJustnt for uculr trends unclear e. ND specific lnforutlon on laportance of conditions 3. ND indlvidul helth status -.surn 1. S... crltlclNS JrNin 2 and 3. e. Nan-participants r likely different thn participants CHlec:tion bias>--, non-screened tlltdicaid ell9lble .. Y have spent dollffl to ot onto Necllcid roles. I. &rNt varl.a.lllty in proportion of eli9lble population scrNned Cl4-851>. 2. Variation ln cau flndillCJ ratn C6-18U 3. Althoue.,h ~-BOX of thou Identified Mith probl-re treated, only 7-181 Nitre JudcJed tt Khleve udaua benafit Large proportion of those di~nosed .. re not previously identified
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-..thor Yurs O.t Study Study IMpl SIi lntarY9fltlan Outco "-rn Rnults ca-nts CollKted Dnl1n Pllpuletlon Allernatlw HHUh hllvery nd 1..,,.ance lyst-Vldz an,-ae RCT Rendoa lfl''t Dlffertnv Physlola1lc functlan1 I. 11\,erell no I. S.11111 ttrltlan 301 s-,1. children level9 af AnNI ltnlflunt e. Plens not raprHent-fullln helth Idelle ur fluid difference In health tlve af thas 19narally froa 6 IMurance HHrlnt laH aHsurn Nlth avalll to the poor. ca ... n-Visual Acuity dlffarlnv levels af 3. lnadequat por for ltln. So Phywlnl Ha.Ith 1"41urenc lnatlan of role e1ecluslans. llltatlons In dally 2. 0.crHed llltatlons nd for sub-0-llyrs. activity utlllHtlon 1roup anal vs ttantel and Bllnltrel asuclatad Nlth cast ,. Growth and Heal th PercapUon 9harll'ICJ--Pravntlv dvlopntal autco ... servlr.es dKratld by not raporttld caapartll,I ..,unt to other Mrvlcn 3. for Poor chlldr9'1-If ant1t1lc at outset of study, 81 of thoH In frN care l'IINIIC t nd, Nhll 221 of those In co~t 9harlrNJ ., .. ICeHner 1970-1 Cross WHhlrNJtan, 1 Dlffarant tracer conditions--Pravldrl" type hed no I. Generallzabllltv Sectional D.C. Randoa faII In--typn of I. Idell ear al1nlflcant Influence llltad with I cltv, saaple froa 2780 providers, lnfactlon/hearlnv loss on helth st~tus Black population, lar~ 9PKlflc children solo 2. Fe ct.flclncy ,..la sures after l's tnrwr city solo nelcJtlbar-pracUc, ff 3. Visual Disorder cantralllNJ far SES prKtl tlorwrs hoods.Pre-9raup, 2. T of Adequate doalnantly prepaid rwrllY poor cantrolllnq far !iES Black. 1roup, perfarunce of 3.? r a99rt,qtion of 6aos-l I yrs. hospital CPD, prvntlve Nasur pravidar types ENrgancy by provldrs--tests lapl luUons for Rll,publ le not dona, abnaruls preventlv car clinic not follad-up uncP.rttn1 lf valid, lapllcatlon l that although prtppaid proqr provld~ aor prvntlv car, outconw no diffrent. Dutton 1970-1 r-nalysis 5 .. ...... ... as saN KssMr trend toward lor I.? r qWrli1abllity of KHr knsnar Knwner Kessner hulth status far 25 Agqreqate effect very data uHrs of solo ...... practitioners 3.? ~pproprlaten of .... relatlv to users af I inUng OPD and prepaid prepaid or OPD care. care scheHs lotcer satlsfctlan with OPD use.
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..... N Author Yars Date Collcted Study Population lapac:t of Sarvlc Cutbacks 1983 Rural Nd. Chlldrn born lfflll lndH and control countln Study Dnl9n Cross sectional IMpl Sh 322 lnct.:c N control lntrvntlon Discontinued physical hHlth nt t public health cllnlc OutcHN tt.trNI RatllllJS of Halth Status--vlobal, qrowth, develapaent, acut and chronic I llnns1 UM of chi Id urvlcn Rnults Na sl9nlflcant dlffrencn In halth status f..,.r lncaaplt INUnlzatlons In county Nhr ...-vlcn stopplldt CoaNnts I. tt.ny urvlces reainad 1vllabl both throu9h clinic and privately 2. Cross sectional 1nalyls 3. bact on trnal report ,. Sufficlnt PDNer to dtct SOI dlffrnces ln aost canctlUons1 bordarllne for 251.
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Author Yn Dt Study Study IMpl Size Jntervntlon Outca RHults co-nts Collcted Papultlan O..l9n Dewlapaental OutcON Studt Cullen 1964-73 RurI W. Strati fled, IOI l!0-30 aln. I. a.havlar syapton fllWIPr fears, aare S-.,le Uncrtaln Australia then full IN lntrvl ... 2. Folly rltlans Khoal latMHI uny hMrallz.alllty other rndaalzlld 122 avery 3 3. Readlnns for mrlc btlhavlars Nlth no Uncertain crltrl CRCTJ children In 1st para ,. Basic LrnlrwJ dlffrncH1 lntrventlon not not statlld a. oraup then every 6 Ability Intervention boys standardlzwd for It 5. Early School mr In Khoo I laportance of outcoNs years. Prsonallty rlatad outcaI no unclar eaph;als on 6. Stan-Blrwt vocab ffact for olrls. Plauslblllty of s IJntl ... ntns, 7. Dtt~crlb plctur lntaractlon llalted posltlv 8. Spontrwous spaach outlook, 9. Draw A Nan 8utllus 1965-76 Urban ACT 47 P Pwdlatrlclan Bayley CQ9nltlva10.CraslncJ S.nerallzMlllty llltN (enrolled W.shlncJtan, 118 control and nuru Stanford-Binet dlffrncn after age due ta Idiosyncratic 65 Nlth 6 o.c., I I chi Id WJSC-R 3. study papultlan and year prlloravld visits In Behavior Prafll a.havlaral1 lapraved lnt1tm1lty of pragra fol law-up, 15-18 yar aatar coach, Schaal Readiness social and Hlf-Outca HUHNnt not aathers I hour H.I confldenc Kores at bl lndad. Intervention Nlth arly additional a1 31 fMr e.havlar unstandardlzN. late prenatal nuru visits-prabl ... aqe 5 an. attrition In control car, -total Japrovad school caroup of btter ID>701 no 18112/8 1st 3 coapletlan by P perfarNrs. neonatal yrs. &raup aothers prCKJrM probl-counsel ling, evalvad. Mdlc lnal F, COIJnltiva sUaulatlon ltUUL. Challberlln 1971,-9 Rochester. Cohort 371 total Class I flea-utrnal1 knDNledQe, Jncrased lrnaNINCJ "lddle class population; prilparous tlon of peds attitudes, childwl th I ncrasad All pravldr in one aothers practlcn by rearlnQ styl tHchl ncJ I Na eff act prKtlce qlven averaq recruited pediatrician Chi Ida Behavior, on devlapnts ntlflCJ CNHUr ... nt frOII lnvolv ... nt devlopNnt Iner reported error). Attrition to plldlatriln parent behavior prob1 ... 10 ... r SES failles. clans. education all but si9. RetJrHlon technlqu NY :nrrelatlon teaching have ask.cl study effect and pas l ti ve by includincJ lntervenlflCJ interaction variable. !Selection llJ.lh Casey 1977-8 North RCT 15 P 17 counselllnq 8 ~cI Naternal-all KAJn favored Short falloM-UPI outcoN ..... rarol lnas Crandoalzed control Cof NPhH I z I flCJ Infant intraction1 interventions slg. asures of uncertain w prlalparous after 59 affective BaylYI ObJect dlfferncs 4/8. No signi flcanc. Por aothers, no stntlfl-ellQlble) interactlon1 Peraanence and vocal slq dlff. Bayley. llaitlld. IN!diul cation) control of iltatlan seal Vocal llhtlon Generall1abillty llited co11pllca-wee by ... favored Intervention by population and perhaps tlons1 no ND. p<.I nature of intervention other NO Cunique to provider!). child car -~ --:) ___ _)
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Table lttuuv...,, af lbl fbiIHI iBBIDIUID ID 11111 libUII t;ltl j lluthor Years Oata SMple ttethod Data Validation hllablllty Utility Asu ... nt Yield eo ... nt Collacted Collac:Uon AsHsuent 1nfa1 AnderHn 1969 ,,.. Pncuctnv Physician Rllport ...... ., None NDne 11.,1 NS resulted Par11nt uN-.r of CT pediatricians of Mtnorllty In abnarNlltya 1.91 abnorl ltl 100 ~onsacutlve In si9nlflunt nndh,v n 6h of et:1-ll;bal wll chlld exaH ebnorul Uy1 801 u ... Study of dlscovertld by 6 lllted value O'Connell 1910 382 born Naya Chart Rlrvl NDne Norw Norw 3.11 e.-. ruUed Ii In saaple clinic, In prvlously Mlectlon undernt urldetKted preschool abnarNIIUn arid entered IC8 rous yopl, 1"70 .lablyople, color bl Ind, spNCh diNrder) Walch 1978 IISI .ntrlnt CoaparlHn of Study In orw Not clrly None 331 of children hd .t,norI It iH IC&, Roanok, VA School 11Crftftlnt ...... I .,,eclfled1 11CrNnere ebnorNII tint 911 dtcted by 1977 prOCJrM with val ldt Ion of undrwnt tnlnh19. of thew dtcted by nd not scrHned wltten prior phylclen scrMnl1191 301 for are not phylcln I positive detect"1t by ditJCUHad, preschoo I rapor t flndlNJS of phy1lden ..... scrNnlnt Mere. conflrMd
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...,, ..... YNrS hta IMple l'-thad Dita ValldaUon llellabll lty UUIHy ,._ ... ...,., Yield eo-nts C.IIKIN CaUKIIH ........... kbMl..AIIIII ...... uu lfll!-3 1056 .... EltWd by I llallad-lf In Ntne IN CCI IIS dllldren Md rel tn on .-quacy chlldrN frN te1 vision, ... ,, a NCOII ....... 11ty1 "* ef cr by an raprnentaUwt .......... and aplnlon .... .,..._. c ... and an autlde ...... ,. ....... of dental prableM ...,..., r 11~1 If physician Khools .. lndudad prnchool flly ND celldltlon aore llllll tll.lfl.r 51[11 v ....... c,, ltS!-6 617 of abawt ...... CAI .... N CAt IIDne ... cc, l'I dewlap .... l/251 -r ... 1n1111 far I condlU011, prlMrlly re1111tad In ywars and 2M NDtlONI and ENT1 condition dlMJnoHd r ... 1n1111.,. er SOI under cv not alrffdy undel" ... ywars before Kllool e lrNtaant ...... cc, 192-6 ........ ... CAI .... CAt ..... Of 161 conditions ... UUllty ftO INtlon of lnlllally 1*911'd, .......... ........... ft sllll prnent In .... ,. IIDst MW candltlona ,.. ..... .... '. ENI' ...... uanat pralls _., 11e1y to lapre,,e1 If active, .,._ prfllls 1 ... I lllely I h tn ma.a. Brant 1967-10 6058 student. In paraaHlc ...... ...... IIDne Ca11thors ludlJed 13.,1 ..... 5.31 untretlfd El Paso tichaals ticrNftl"I lnts1 detKIN condition abnorMllty defects ...,.. ........... physician .,-\WIiie even If detacted-.... 51& by prabl ... of vlwal ......... 1 physical eI rwferral resulted In KrNnlfll, 3.91 lay KtJlty screening, ... rashn, acute dlatnOI of no e S-11 yrs. 1111111''1 ... sl.,.lflnnc, such NOUonal N functional ,-~--...... 1 .. ,.", ... l-16'-'72 6'9 children lcl .... AYthor '-'lrwd None None .... 151 had altnnrullty 7 In one t..... In all studants. detacted1 half wr Swtaden vlslo11 prab1 ... half 1trevlCN111ly hown. P detacted 1.-UoNlly laportant little*' tn o.Anqell 1980-1 12,997 rural .... None None '87 of 2691 student students1llttle _..lnlstered undfirqc,1119 fl hart condltion11 acute, Kens to KrNtllfll tNts. prabltt .... ,.tlft~I Nlf llltN IMdlcal care1 r only 171& prevlt1U9ly prnblra. included ... ... practitioner did ...... ND utlllty Nawr. pnctl tloners1 physical -------.. --) --~
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Author lturnar 7. """'"" ''"""' ., .,, ..,,,_ ... 0111 IFtnnJ,w Int Y Data C.llactN 19711-tlO ...,,. Daractwlstlc L 1lalwMrftldaftts ......... 1 .................... Cantw1 ._. _,, If alnarI, ......... If ...... --.... ., ........... owr I ,-rs el41 Nf t/73 n still llvlftl 111 a..w.r lnl eh ,-.uc lcllools ..,.. IIICludN. "3 lnUlal ly c-11ac crUwlI follw -, 6S ef 11. Al I cllll* r .. lstwlng f .. .. 1 l111Nr..,.ten In Jar feur .,.., .... of Nlr, Ontario. DIii*" r ...... llN le raclw INT with cG1111Nlllng1 DDSl wU,_,t CounNll l"I, and N Dlllf. All lltnDruls and randN ... I of.,...,. ......,._, fIMr ....... All cllll* r01lstar ,.., for N1ar..,-ten In ,.,..n r .... tr, IC, ,crNNd I th t-11 .. fol,.,.. ..... '"""' dlffwlne praportl .... f anor .. l C IC)l)U, ... UoNb In C,Olt and llllf'Nls Clt"ll. lpaclal CIHs or.._.., ktll.,,._..I tnt >I .S YNr NIIIN lltnlflunt teachar ratN Nhavlor praltlN 11..,.els ef hyperactivity II C IO Tead...-and 11tarant r ...... tad INrnl111 prabl ... 011141 Nt h, rI clan .,., ..... tal ...,.ry .. IIISC-R 011141 W.11 .,,. ._.U.,...lre lipKlal cl or r-..at CAT-R C IOII IP PrNalenco of lctlNI Fal lure 171 wlltl either IINI ... IOor INrnl"' prabl .. ft .. ... r-.,lar Ind trade clHS ffl not In r9CJUlar class or <20iuo on CAT-R 711 61 601 171-1 .,.~ 9'1-2 .,.,.
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tal I. lffKIIWMH ef ,.._tlcl"lwy tune Ml Dllltl ... trelnl U.. ... Ulor YNr .... 1961-3 .... .... l"'S Allen ~-s lcherl llle/l'racllc ,, .. .......... privet ...-acUc ...... ,., prepaid IINHII ,an INUlI ,rapald ... ,11, ...... lKDN/ allltary wll child c .......... -......... 19 conlrel -., soo ......... soo Allocetl ....... U ctrel ............ one pracUc II di fferenl ....,., .... .. ............. ... u.... .,.uc at tllfferMII u .. lunl-.-andN tevery ether Infant Nral wlunt...,. for nonconcurr911t lnterV911Uon ..... randoe allocaUon lnterwntlon lllUer 'Y .. llt.tt lty,. COUIIMlll"I ltletler lty Nfety ...,.11.uon llc91111Ml ll"I 'Y llt ....... ., ,r...-tal visit. t.ntrol M educaUMI. ltlnfertlonal .. ,.1., .... It lnferI loNI --. ,.,. ,r ..... ,., .... It b1forNtlonal -fll ,r ..... ........ ..... reheerNI ef car .. ..... central._ Info tpostpartual I Ina lnforNt Ion ltdltpley 3tdtsplarpaaphlet U t31 nurM CaunNI 11"1 SI CJI ,_ CounNI 11"1 c-._ ........ larnel r....,.t ef Nat Nit .... ,.,1 ... .. ....... '9rnel r11P11rl, eccalt .... 11, wrlflad tarnel raport-...-u ..... tre tarnal r11POrt-.,..tlonnalr at I ...... Mid -12 ...... ,. 19.61 Inf 1.11 ltter IS.JI,. lettar n II) letter CounNlll"I 'II UN N lnfe 6fl II) h1fe ... .. 11371 no Inf 115'1 Info anly 31711 Info fll only .,60I lnfofll rehearul at Mslll ... .. II ,,n ,, 12n, 311/75 ,. 22181 SI 13/ C:-..t cencarna r ltlffft In allecatlon alld ....... ............... ltln In ws ... nt N difference wlectlan ltl n .. SNnt bl not ftllCftUr I ly rl.,,...t to afflc ,rUce ltlas In ........ due ta IIUrv papulallan.
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....... 00 ......... NIii _. Pin ............. 111111 .. .._,.1..,_ and 111111 .. ICol ly,S.ln, llcfwthy ... lflS-61tl .., ... 1979-f 1-1 11 lelPHcHce ...,1e .... ltyle IIKMetwl 65' ,_.,atrlc .... 0-171 poup practice "'" .. "'' .. .., In ho1pUal pr ..... Pitt ...... '" private practice ..... lot c, Navenlha91tl-ldt tal prlNry care centar AllecaUon ........... COMKullve U lntvI Cnon-concurrent conlrolt .... -concurret1t lnlerfflltlci. Mn control .......... randaahod l11terwntlan 11tt....-.1euver1tal ~-ll~llverltal-.. 1 ,,..,. C9111rel._ Nueatlon c ... trol ... educ. lllltature only ltllteralur .. lMNltll -.cater 31lltaratur .. frN car ... ctrolano Info tudy-...Catlon lty atrlclan with tHtcusslon, ...,..,.,, and ...... ,ration I ,-rt. .-.,,.aop .... tal ly erlt..t courw, ufe hoeo ptcturft 7 -./' (.t tc-,...,. ... llnull Coaaeftts larnal M 9ICJftlflcMI ........ ...-uonnalre, dlff9"9'1CN rOUfJII vallNtlon ... ,...,. control NI a .,.yslclan with direct eltNr lnt.,-venUon per ellNl"vatlen lntwntlen 4Jf'OIIP tHncl obMrvaUon Wl"Y low UH at HIN NY N ., ho91tltal II of ho.;pltal lnflatad coaparod dlwchar .. and I dlwc.._. .. no ........ al ... ......... tudv effect1 ....-,latlon In that padlMlt froe ..,.e educated centrol to frN ,..-t both re Mal wltll UH at f llIY to UH Mat I.e., NII aNI to, ... 261131113611,II. for follMM,p. Only f!"N -talltlcally ltnlflcant dlf feret1t froe control direct obwrvatton SICJftlflcant attrition ranqH ., ,.,.,.,, 15 dlffarenco at 2 fr 10-m. C50 .,.. 2911 I no dlff..-anco frN titer after parM1tal now1-.., allaprovt'd ,rlaarlly par ... tal h... ,.,, ............. ,,....,. rwport of .......... .._ haHrds, c lno outcoan CdlrecU, reported ChaNJO In auto practlcn __. rntralnt UH accidents Cdtocroasod slttlnt In front I, dlno cha"90 In auto KcldWfltS
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,., ... lren Daflclancy, c.,n111,,. llnelopeenl, Md llhavler _,, ..... ....... ...... lnlClft Cln'llflcUOII Gulcoae ,.. ..,,." 11&-.ull c-nts PapulaUen ef Iron DaflclllllCy ..... ,.,. .. ,,..... city 1e-1 ,,. er .... -HIJb < 11.s w. ,.,... le ,oorer perforNnce If N cntrol for S[S Phlladelphl wcllenal Hgb ) AchleWNnt tnts .... 1c1 lncrMNI rl .. sur of Fe status Jr. hllJh -............ c .. 1 ... --,. Interaction KNOii ... 1 ... 11t1e lld1 ft study/IOI control OaUIHllftlt lyt-acuw t-e, nthe ilCI of M1Jb < 10.s and layley lcln Infant sl1nlflcant Iner~In lnltlal ftDI valun .,, outpatlant lntrMUKular IICV Cred cell O.V. lapaent C NI Dt at llffltal a.v.1.....,.t I'* Included In MOIM aodI cllntc1 Ir U.npy ..... < 73 cu. INNllne nd Id after n. CteU In deficient trDUP, ... 1nl"I study ff11rt e-Iron lcron and lmterNIY proportional lo Nflclenl ,. 12.0 NID alpretrHtaent tel 1...-r al...., ....... ,. C.75t to coaaunlty Ir control w. In ...,.,c chlldren1 only detect "1.S point ltHHI e-111J1t <10.S and ll"lflcant In 1-e dlfferenr In tel scorn ~oerlaental I of folll"I .,. ... flDI for nan-a ... lc 1t1a ... 1c children alw had and .O control 31 .oup .. 120. other evl~ of lr.,..ferrln ltlco,relatlon CP9rsonl .., .. ,trlllon Ht < 1011 ._,....,. prtreateet1t NDI clno cort,al In analyn lP > IOOldl and lrw:reHlftCJ l..,.I of for S(S dlffl'f'9'1C RIC' C' ta Iran sufflclency."13. Nt .. n .,..,c: and olhPI' 35/dl ...... clM sl9nlflcant ., ..... ltloodU I and laproOaent In tel Korn dHtDI fer IIDft-anNlc qroup f..-r1u~ < ae. Ith 7 d oral Iran tllerapy IIIC)her thn MOUid N espected. 0aHDt1lt lyracuN -11 ... ..,ore/After All 14gb )11.0t 191D lrat1 -lted 9"DUP ne SES control capt outpatt ... t lntrt111USCular Dapleted1 coaparal Clow ferrltln Mtchlfll by rac~ cl lf'h: I "On-lron1 IIICT Mt Ferrltln <121 onlyl coaparale to btlnadlquat Nl"I ..... c 111th ...,.aved lty DPflclent Cali .. ,,. le lent trDUP Oft II Cfatl ta account for dlfferl"I 11181 hpleted+EP ... ,, ...... rec,rslon to n by lvel of Iron ~:r., bl__.. atJraqtN by lncludlfllJ lnlt hi val11n d9f6cl4'1"CYI Deficient Cbl 1 .,fflclntMPleted vs. In #OMI tatI n-38 0-:-fl cl ent deficient b 9roups, cllepJ-.stbl r~wtt of Ca I tflCV <'70 deficient 1raup had 1......-11141her flnel tel -corn. prtrateent ltDI C93.1 vs. M.,-, p. 17SI and ,r .. ter re.pons. tar C5.9 vs. 21., pt, p.011, endl"9 111th hi~ l'IOI scorn C'8.6 vs. 106, p.21
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00 0 ... .,.,. .. llalt..-lelNrd .. .. ftlnna1POII ..., Duluth public clinic ... Mn-.,..lc Ith dlffl"I lev.1 of Iron NflcletlCYI n-3'\CMvwrel, IICaodt, 157 Ccontrolt lantl ... ,011-1 Infante In Infant fNdl"I tudrl ~ltlrU..ltJht and ., ... ttl. Iron 911fflclent vs. lrat1 Nflclent ltftwJt ...... ~. Iron nctent wl tt1 .... ,a, total n-37. r,,,....,.s,. pulll lc cllnlcea ... ... birthNltltflt and 1rawtt11 anaela/lron deficient vs. Nn-Nelc Iron deficient vs. Iron eufflcl9fttl totI n-70 11-13 ... Cr-All Net > 3'1 MCUONI Nverea ferrltln < t1 ...... t., ferrltln 10-lt norMII ferrltln >It. IS .. ,ore/After ._,a, Hab 100, f..-rUln tl and one ofve criteria 18-60 ... Iron If ...1. Met ... 1c1 IICT of <331 Iran Iron vs. *flclent EP pl.: .... If >35. ...... .... 1c1flc-lent1 plac9bo If 911fflclan~. NII 11D differ~" Ht"'"" M NPate IEI control, vlllNI -...ituatlon poupa on .,., -aaurn alt....,... relUvel, Uapl..., IUlt Ordinal .... ,.ftNU .,. ... lcI of Pa;-cholotlc ,. pt1v-lol09lc aurN of hvelapaen\\ 1-, 11, V C-Iron Nficlency Pl aur" v1 ... 1 punult, ...,. of obtaining end, pd construction of altJect rel.-Uona In acI al PretrNtaent ........ .......... Clncludlng bahavloral ,...., In MINIC vs. other .......... ....... ,. .. .-.uonnalrot l"CNIP'II no dlff..-ence Crl'tJrftlon to an, n NtllNII non-anealc abavet flclent.., 911fflclent cw vs. aoe, ooes, vs. 113, It I ll1nl fl cant 1...,.oVNant .. of .,..,c children with Iron tt.rapy C'8 to 108, pa.0111 IIO CNNJ9 In other troupe e11Capt pot-hoc obNrvatlon that ""-a ... lc ... "' ... find I NJ of Iron dltf lclency Cn-6 I lncrnHd fr 109 to 118. cll ... ro"9Mtlt In .,, .. of c...,.,au,,..... and attenUWtWSe In Iron deflcient/ .... lc 9roup. BID al M pretrnlaent at _..,.,d 81181rwl and llanford-lht di fferencn arr, Mnurft prnenttlon--lnsufflclttnt bl .. ..-.... ,c ., ......... IUlber of control, el9nlflcnt_lapro'V9Nnt In 1Nd9Clllt 9:1tct11no nd outc-awr .. at 3 and failure to UM alterNtlve lloth ..... ..... ns of ...,,rel, ,., nan-a ... ac Iron deficient rl'Qrftianl ... ... did .. ...... bt lnterprttlon af lroWNnt Crl'tJrdlfts of r..,lt wpecultlve Iron therapyt, lNlncJ to dlffer...:n at 3.,. 6 aat1the ct control 'J"DUP........, l"ter r-.onslvenns on Nhavlor nurn at 3 and 6 nth
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Lo1off ..... 1., Khool students 111 rural prevlnc Ith .... ..... th .... .. overt dlHnl Ir tlclt hdth ....... Cnw79t fl raplele c.-u r.,.,. Ille, eldtlle cl uJor eedlcal or 4hvel.,_.., ,, ....... 1 c1111 tolel 11-13 ... 111s IICT I lre11 ,.1 ... IICI '" lnnl ... Ir vs. ...... laflcleftt I HIJI cu, tr.,..ferrln ut 11, .. >IOI ......... 1c CNlllt>l!eufflclent ... 1., ... deflclt lnteradlat CMIJblO.S-11.tl tlclent .... 1c CHgb
PAGE 87
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Webb, TE, Oski, FA, "Iron deficiency anemia and scholastic achievement in young adolescents," The Journal of Pediatrics 1983; 82:827-830. Welch, NM, Kesler, RW, "The value of the preschool examination in screening for health problems," The Journal of Pediatrics 1qe2: 100:232234. Vankauer, A, Lawrence, RA, "A Study of Periodic School Medical Examinations--1. Methodology and Initial Findings, 11 AJPH 1qss: 45 :71-78T Vankauer, A, Lawrence, R, Ballou, L, "A Study of Periodic School Medical E>
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AGREEMENT_INFO ACCOUNT UF PROJECT UFDC
FILES
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