Peak Vertical Jump Power as a Marker of Bone Health in Children.

The objective of this investigation was to evaluate the accuracy of peak vertical jump power (VJP) to identify children with bone mineral density (BMD) below average, defined as BMD measured by DXA and adjusted for body height at the whole body less head≤- 1.0 standard deviation (SD). The sample included 114 boys and girls aged 8.5±0.4 years old. VJP was estimated from a countermovement jump performed on a contact mat using the measured flight time to calculate the height of rise of the center of gravity. Logistic regression analysis revealed that the odds ratio of having BMD≤1.0 SD decreased 1.2% per watt of power and the probability of BMD below average was 75.6% higher in boys than in girls with the same peak power jump. Receiver operating characteristic analysis showed that the best trade-off between sensitivity and specificity to identify children with BMD<- 1.0 SD was 635 watts in boys (sensitivity=63.3%; specificity=69.2%; AUC=0.816, 95% CI: 0.681-0.95; p<0.001) and 515 watts in girls (sensitivity=75.0%; specificity=77.0%; AUC=0.849, 95% CI: 0.698-0.999; p=0.002). These cut-off values correspond to a vertical jump of 19.9 cm and 20.5 cm in 8-year-old boys and girls, respectively. The VJP showed a reasonable sensitivity and specificity as well good discriminant ability to identify children with BMD below average.

The National Osteoporosis Foundation's position statement on peak bone mass development and lifestyle factors: a systematic review and implementation recommendations.

Lifestyle choices influence 20-40 % of adult peak bone mass. Therefore, optimization of lifestyle factors known to influence peak bone mass and strength is an important strategy aimed at reducing risk of osteoporosis or low bone mass later in life. The National Osteoporosis Foundation has issued this scientific statement to provide evidence-based guidance and a national implementation strategy for the purpose of helping individuals achieve maximal peak bone mass early in life. In this scientific statement, we (1) report the results of an evidence-based review of the literature since 2000 on factors that influence achieving the full genetic potential for skeletal mass; (2) recommend lifestyle choices that promote maximal bone health throughout the lifespan; (3) outline a research agenda to address current gaps; and (4) identify implementation strategies. We conducted a systematic review of the role of individual nutrients, food patterns, special issues, contraceptives, and physical activity on bone mass and strength development in youth. An evidence grading system was applied to describe the strength of available evidence on these individual modifiable lifestyle factors that may (or may not) influence the development of peak bone mass (Table 1). A summary of the grades for each of these factors is given below. We describe the underpinning biology of these relationships as well as other factors for which a systematic review approach was not possible. Articles published since 2000, all of which followed the report by Heaney et al. [1] published in that year, were considered for this scientific statement. This current review is a systematic update of the previous review conducted by the National Osteoporosis Foundation [1]. [Table: see text] Considering the evidence-based literature review, we recommend lifestyle choices that promote maximal bone health from childhood through young to late adolescence and outline a research agenda to address current gaps in knowledge. The best evidence (grade A) is available for positive effects of calcium intake and physical activity, especially during the late childhood and peripubertal years-a critical period for bone accretion. Good evidence is also available for a role of vitamin D and dairy consumption and a detriment of DMPA injections. However, more rigorous trial data on many other lifestyle choices are needed and this need is outlined in our research agenda. Implementation strategies for lifestyle modifications to promote development of peak bone mass and strength within one's genetic potential require a multisectored (i.e., family, schools, healthcare systems) approach.

Influence of physical activity and skeleton geometry on bone mass at the proximal femur in 10- to 12-year-old children--a longitudinal study.

UNLABELLED: Physical activity (PA) have long been identified as a determining factor of the mineralization of the skeleton, particularly in children. Our research supports the hypothesis that the geometry of the pelvis and proximal femur (PF) might moderate the effect of PA in the relative mineralization of the PF subregions. INTRODUCTION: Using a longitudinal observational study with two evaluations and a 1-year follow-up interval, we investigated the influence of PA and skeletal geometry in bone mineral density (BMD) and bone mass distribution at the PF in 96 girls and 81 boys (10-12 years). It is plausible that the geometry of the pelvis-PF structure moderates mechanical forces exerted at the hip and therefore creates different degrees of mineralization among PF subregions. METHODS: Whole body and left hip dual X-ray absorptiometry scans were used to derive geometric measures of the pelvis-inter-acetabular distance (IAD) and PF abductor lever arm (ALA). BMD was measured at the integral, superolateral (SL), and inferomedial (IM) femoral neck (FN), and at the trochanter (TR). These subregions were used to represent bone mass distribution via three BMD ratios: FN/PF, IM/SL, and TR/PF. PA was measured using accelerometry and a bone-specific PA questionnaire (BPAQ). RESULTS: A longitudinal data approach revealed BPAQ as a positive predictor for all BMD variables (p < 0.05) except TR BMD in girls and FN BMD in boys. Comparing the most active with the less-active participants, the greatest benefits of PA were observed at the FN of the girls with the lowest IAD (p < 0.001), at the FN of the boys with the highest IAD (p < 0.001) and at the TR of the boys with the lowest ALA (p < 0.01). CONCLUSIONS: Geometric measures of IAD and ALA seem to moderate the effect of PA role in the relative mineralization of the PF regions. On the other hand, absolute BMD levels appear to be determined by mechanical loading.

Effects of life-long fluoride intake on bone measures of adolescents: a prospective cohort study.

Controversy persists concerning the impact of community water fluoridation on bone health in adults, and few studies have assessed relationships with bone at younger ages. Ecological studies of fluoride's effects showed some increase in bone mineral density of adolescents and young adults in areas with fluoridated water compared with non-fluoridated areas. However, none had individual fluoride exposure measures. To avoid ecological fallacy and reduce bias, we assessed associations of average daily fluoride intake from birth to age 15 yr for Iowa Bone Development Study cohort members with age 15 yr dual-energy x-ray absorptiometry (DXA) bone outcomes (whole body, lumbar spine, and hip), controlling for known determinants (including daily calcium intake, average daily time spent in moderate-to-vigorous intensity physical activity, and physical maturity). Mean (SD) daily fluoride intake was 0.66 mg (0.24) for females and 0.78 mg (0.30) for males. We found no significant relationships between daily fluoride intake and adolescents' bone measures in adjusted models (for 183 females, all p values ≥ .10 and all partial R(2) ≤ 0.02; for 175 males, all p values ≥ .34 and all partial R(2) ≤ 0.01). The findings suggest that fluoride exposures at the typical levels for most US adolescents in fluoridated areas do not have significant effects on bone mineral measures.

Factors associated with development of excessive fatness in children and adolescents: a review of prospective studies.

The purpose of this review was to examine the factors that predict the development of excessive fatness in children and adolescents. Medline, Web of Science and PubMed were searched to identify prospective cohort studies that evaluated the association between several variables (e.g. physical activity, sedentary behaviour, dietary intake and genetic, physiological, social cognitive, family and peer, school and community factors) and the development of excessive fatness in children and adolescents (5-18 years). Sixty-one studies met the eligibility criteria and were included. There is evidence to support the association between genetic factors and low physical activity with excessive fatness in children and adolescents. Current studies yielded mixed evidence for the contribution of sedentary behaviour, dietary intake, physiological biomarkers, family factors and the community physical activity environment. No conclusions could be drawn about social cognitive factors, peer factors, school nutrition and physical activity environments, and the community nutrition environment. There is a dearth of longitudinal evidence that examines specific factors contributing to the development of excessive fatness in childhood and adolescence. Given that childhood obesity is a worldwide public health concern, the field can benefit from large-scale, long-term prospective studies that use state-of-the-art measures in a diverse sample of children and adolescents.

[Status quo of facet joint replacement]. / Status quo des Facettengelenkersatzes.

This review, regarding facet joint replacement, includes the presentation of six different implant systems from five US firms and one Swiss company. The implant systems are introduced for motion retaining replacement of the lumbar facet joints. Biomechanical and clinical results are included as far as they have been available from an Internet search, publications,oral and poster presentations, and from companies directly. At the beginning anatomical, biomechanical, and clinical data of the natural facet joints are presented. Basic principles of the high morbidity in that topographical region and at the same time for an artificial replacement of the facet joints are derived from the data. An implant classification and the available results of these implants are the basis for this article, which presents the actual situation of the treatment method for motion retaining replacements of facet joints, which have been in general clinical use since 2005. Clinical studies are not yet finalized and there are not enough clinical data; therefore, no binding recommendations for treatment with artificial facet joints are possible.

Subjective and objective measures of physical activity in relationship to bone mineral content during late childhood: the Iowa Bone Development Study.

OBJECTIVE: This study compared accelerometry to self-report for the assessment of physical activity (PA) in relation to bone mineral content (BMC). In addition, we compared the ability of these measures to assess PA in boys versus girls. METHODS: Participants in this cross-sectional study included 449 children (mean age 11 years) from the Iowa Bone Development Study. PA was measured via 3-5 days of accelerometry using the Actigraph and 7 day self-report questionnaire using the Physical Activity Questionnaire for Children (PAQ-C). Hip, spine, and whole body BMC were measured via dual energy x ray absorptiometry (DXA). RESULTS: Partial correlation analysis (controlling for height, weight, and maturity) showed the Actigraph was significantly associated with hip (r = 0.40), spine (r = 0.20), and whole body (r = 0.33) BMC in boys, as was the PAQ-C (r = 0.28 hip, r = 0.19 spine, and r = 0.22 whole body). Among girls, only the Actigraph was significantly associated with hip (r = 0.18) and whole body (r = 0.16) BMC. Both the Actigraph and PAQ-C were significant in hip, spine, and whole body multivariable linear regression models (after controlling for body size and maturity) in boys. Only the Actigraph entered hip BMC regression model in girls. CONCLUSIONS: Our study supports previous work showing associations between everyday PA and BMC in older children. These associations are more likely to be detected with an objective versus subjective measure of PA, particularly in girls.

[Metal/metal--a new (old) hip bearing system in clinical evaluation. Prospective 7-year follow-up study]. / Metall/Metall--eine neue (alte) Gleitpaarung künstlicher Hüftgelenke in der klinischen Bewährungsprobe. Prospektive Verlaufsbeobachtung über 7 Jahre.

The problems of wear debris of bearing systems containing polyethylene used in hip arthroplasty have led to an increased trend to hard on hard bearing surfaces. Based on our own good experiences with the cementless Zweymüller-Alloclassic system, we implanted the same system with metal-on-metal bearing surfaces (Metasul) in 100 cases between October 1993 and November 1994. In order to record potential side effects, specific questioning and a clinical and radiological survey were carried out before surgery and in regular intervals thereafter. Up to date almost all of the patients have had good and excellent results with an average of more than 90 points in the Harris hip score (47.8 before surgery). There were no cases of revision surgery as a result of aseptic loosening. Two revisions were performed for other reasons (change of the insert, deep infection). No disadvantageous phenomena related to Metasul in the surrounding tissue were found on macroscopic and histologic investigation. The radiological examination did not show any specific signs pertaining to the use of a metal-on-metal bearing system. We also have no grounds to suppose that there are systemic reactions due to chromium or cobalt ions. Up to now, the new metal-on-metal bearing system in connection with a proven hip arthroplasty system has lived up to clinical expectations. With regard to less wear debris, it is justified to implant it in younger patients as well. Other open questions, in particular the possibly improved long-term results, have to be answered by continuation of the study.

Injury prophylaxis in paragliding.

OBJECTIVES: To show trends in paragliding injuries and derive recommendations for safety precautions for paraglider pilots on the basis of accident statistics, interviews, questionnaires, medical reports, and current stage of development of paragliding equipment. METHODS: All paragliding accidents in Germany have to be reported. Information on 409 accidents was collected and analysed for the period 1997-1999. RESULTS: There was a substantial decrease in reported accidents (166 in 1997; 127 in 1998; 116 in 1999). The number of accidents resulting in spinal injuries was 62 in 1997, 42 in 1998, and 38 in 1999. The most common cause of accident was deflation of the glider (32.5%), followed by oversteering (13.9%), collision with obstacles (12.0%), take off errors (10.3%), landing errors (13.7%), misjudgment of weather conditions (4.9%), unsatisfactory preflight checks (4.9%), mid-air collisions with other flyers (2.2%), accidents during winching (2.2%), and defective equipment (0.5%). Accidents predominantly occurred in mountain areas. Fewer than 100 flights had been logged for 40% of injured pilots. In a total of 39 accidents in which emergency parachutes were used, 10 pilots were seriously injured (26%) and an additional three were killed (8%). CONCLUSIONS: Injuries in paragliding caused by unpredictable situations can be minimised by (a) using safer gliders in the beginner or intermediate category, (b) improving protection systems, such as padded back protection, and (c) improving pilot skills through performance and safety training.

[Basic principles of successful implantation of the SB Charité model LINK intervertebral disk endoprosthesis]. / Grundlagen einer erfolgreichen Anwendung der LINK Zwischenwirbel-Endoprothese Modell SB Charité.

The scope of the LINK SB Charité Artificial Disc is to replace degeneratively changed, symptomatic intervertebral discs and to restitute the fundamental functions of the lumbar mobile segment. Biomechanical static- and dynamic test results as well as postoperative controls of a patient-group with uniform indications are presented. The options of an intervertebral disc replacement with the SB Charité Artificial Disc are discussed. For the evaluation of segmental stability, comparative static examinations of the range of motion of cadaveric lumbar segments prior to and after the implantation of the artificial disc were carried out. The stress-dependent mechanical response to directional static load on implanted SB Charité Discs in neutral position, extension and flexion was examined under different testing-conditions in order to gain results on changes of surfaces, durability and sustain of functionality. Restitutable changes to the UHMWPE sliding core, prognosed definite deformations of the sliding core after 5 and 10 years, and the functionality of the UHMWPE sliding cores after stress were examined using dynamic compression tests. Our clinical results refer to 20 patients, who received a mono- (n = 14) or bisegmental (n = 6) implantation of a SB Charité Artificial Disc following a postnucleotomy-syndrome. Comparison of the ranges of motion in cadaveric segments with and without a SB Charité Artificial Disc reflected a significantly higher mobility in cases with an implanted prosthesis only in axial rotation. Other movements showed similar ranges of motion in native segments and in segments with prosthesis. The UHMWPE sliding cores showed tolerable changes during maximal static compression in neutral position and extension. The 7.5 mm sliding cores showed changes beyond normal deformations on compression in maximal flexion. None the less it may be concluded that in vivo these sliding cores also retain their mechanical integrity. Most of the 7.5 mm and 9.5 mm high sliding cores showed a regeneration of 50% compared to maximal deformation. All the tested UHMWPE sliding cores reflected continued articulation despite plastic deformation. Predictions for a period of 5 and 10 years state that extreme loads of 4.5 kN would lead to a reduction in the height of the sliding cores of less than 8%. There was no failure of the sliding cores due to delamination or extreme coldflow. The Oswestry-Score amounted to 24% (0-56) in the postoperative controls 46 months (6 months-13 years) postoperatively. In pain analysis 5 patients (25%) were pain free, 14 patients (70%) reported a pain reduction and 1 patient (5%) had no pain relief compared to preoperatively. 15 (83%) of 18 patients had no leg pain anymore after implantation of the SB Charité Artificial Disc. 14 (93%) of 15 patients had a negative leg raising test. 2 of 5 patients recovered from their motor symptoms. The segmental saggital total range of motion was 6.8 degrees (0-20) and in cases of bisegmental implantation 5.8 degrees (0-14) in the second disc segment. Those neighboring segments with the best function showed a range of motion of 6.8 degrees (2-15). The stated general and specific complications (n = 9) had a definite influence on the results of the postoperative control in one patient and a questionable influence in another patient. Based on biomechanical static and dynamic testing, the SB Charité Artificial Disc is suited to replace the fundamental functions of the lumbar intervertebral disc. Patients suffering from a postnucleotomy-syndrome can be rendered pain free with the implantation of this prosthesis.

Physical activity and bone development during childhood and adolescence. Implications for the prevention of osteoporosis.

Osteoporotic fractures are a debilitating and a frequently fatal health problem for older adults. A growing body of evidence indicates that osteoporosis has its origin in early life and that the level of development of bone mass during childhood and adolescence strongly influences the risk for osteoporotic fractures. The development of osteoporosis results from an interaction between 1) bone mass accrual via growth, remodeling, and modeling during childhood and adolescence and 2) the maintenance of bone mass (primarily via remodeling) during adulthood. Peak bone mass which occurs at the conclusion of growth may be the most important factor for preventing osteoporosis since as much bone is accrued during the adolescent years as most individuals will lose during all of adult life. In this review, I examine the contribution of physical activity as an important behavioral determinant of children's bone development, particularly of peak bone mass. Since it is a behavior, physical activity is a potentially modifiable determinant of peak bone mass; therefore, understanding activity's impact on bone health is central to developing primary prevention strategies for osteoporosis.

Increases in physical fitness during childhood improve cardiovascular health during adolescence: the Muscatine Study.

Longitudinal studies from childhood through adolescence have the potential of defining maturational changes in cardiovascular risk factors and may provide insight into the prediction of future cardiovascular disease. We assessed aerobic fitness, muscular strength, vigorous and sedentary activity, maturation, blood pressure, lipids, and body composition in 125 healthy children for a period of five years (mean baseline age, 10.5 years). All subjects were in pre- or early-puberty at baseline. After adjusting for age and gender and considering the confounding effects of growth and maturation, we examined whether changes in fitness and activity during the first four years of our study could predict cardiovascular health outcomes at year-five of our study. Change in muscular strength explained 4 % of the variability in year-five systolic blood pressure. Change in aerobic fitness explained 11 % of year-five total cholesterol to high density lipoprotein ratio and 5 % of year-five low density lipoprotein cholesterol. Changes in aerobic fitness and muscular strength explained 15 % of the variability in year-five adiposity and 15 % of the variability in year-five abdominal adiposity. Childhood health promotion programs that specifically target increases in physical fitness may help to reduce the increasing prevalence of adolescent obesity.

[Influencing factors of the patella alignment in TKR and operative soft tissue management]. / Einflussfaktoren auf die Patellaführung in der Knieendoprothetik und operatives Weichteilmanagement.

UNLABELLED: The patella has a crucial effect on the postoperative result after TKR, as complication statistics demonstrate. What factors influence the patella alignment and through which surgical steps can it be centred? METHOD: Reviewing the findings from publications ranging from 1983 to 2000 and our own operative experience, we tried to establish all factors that could influence patella alignment after TKR. RESULTS: A complex overview is given about the dependency of the patella alignment on the design of the prosthesis, the soft tissue and bone preparation and the implantation technique, together with suggestions for intraoperative management for patella centralisation. CONCLUSION: To avoid any patella pathologies, it is of crucial importance to have comprehensive knowledge and to follow the described surgical steps strictly for patella centralisation, including the extensor mechanism. This is essential to achieve a satisfying functional result after TKR.

Physical activity and bone measures in young children: the Iowa bone development study.

OBJECTIVES: Physical activity has a beneficial effect on bone development in circumpubertal children, although its effect on younger children is uncertain. In this cross-sectional study, we examined associations between physical activity and bone measures in 368 preschool children (mean age: 5.2 years, range: 4-6 years). DESIGN: Physical activity was measured using 4-day accelerometry readings, parental report of children's usual physical activity, and parental report of children's hours of daily television viewing. Total body and site-specific bone mineral content and area bone mineral density (BMD) were measured by dual energy radiograph absorptiometry. RESULTS: After adjustment for age and body size, accelerometry measures of physical activity and parental report of usual physical activity were consistently and positively associated with bone mineral content and BMD in both boys and girls (r = 0.15-0.28). Television viewing was inversely associated with hip BMD in girls (r = -0.15). The proportion of variance in bone measures explained by physical activity in linear regression models ranged from r(2) = 1.5% to 9.0%. In all of these models except total body BMD, at least 1 and often several of the physical activity variables entered as independent predictors. Activity variables most likely to enter the regression models were vigorous physical activity (as determined by accelerometry) and parental ranking of child's usual physical activity. CONCLUSIONS: Findings indicate that there are statistically significant and, perhaps important, associations between physical activity and bone measures during early childhood, well ahead of the onset of peak bone mass. This would suggest that intervention strategies to increase physical activity in young children could contribute to optimal bone development.

[Postoperative analgesic effect after intra-articular morphine or ropivacaine following knee arthroscopy - a prospective randomized, doubleblinded study]. / Postoperative analgetische Wirksamkeit intraartikulärer Morphin- oder Ropivacaingabe nach Kniegelenkarthroskopie - Prospektive randomisierte Doppelblindstudie.

INTRODUCTION: Recent studies for postoperative pain relief after arthroscopy by intraarticular morphine or bupivacaine showed controversial results. The aim of the study was to evaluate the analgesic effect of intraarticular morphine and ropivacaine. METHODS: 135 patients were randomized into 9 groups (n=15) after standardized knee-arthroscopy. They received either 1 mg or 5 mg morphine or 150 mg ropivacaine or a combination of 5 mg morphine and 75 mg ropivacaine. Drains were opened either after 10 or 30 minutes. A control-group received isotonic saline. Pain was assesed 1 h and 4 h after surgery, at 8 pm on the day of the operation and at 8am and 4 pm the following two days by a VAS scale. Tramadol consumption as rescue medication was registred. RESULTS: Ropivacaine showed the best pain relief after surgery. After 24 h the pain intensity approximated in all groups and after 48 h there was no difference. Tramadol consumption was highest in the control group and lowest in the ropivacaine group (p<0,05). Ropivacaine showed better pain reduction than morphine. An influence of the time, when drains were opened, could only be demostrated for the 75 mg ropivacain combination group. CONCLUSION: Intraarticular ropivacaine following elective knee-arthroscopy reduces postoperative analgetic consumption significantly and improves patient comfort.

Goal orientation and ratings of perceived exertion in graded exercise testing of adolescents.

This study examined the relationship between adolescents' goal orientation in sport and their ratings of perceived exertion (RPE) during a graded exercise test. Subjects (N = 114; 56 boys) were randomly selected adolescents (ages 11 to 15 years) who were part of a 5-year longitudinal study of cardiac growth. RPE was measured during each of three submaximal stages throughout the graded exercise test and again during the maximal stage. A series of regression analyses showed that RPE for female subjects was significantly predicted by Task Orientation, Perceived Ability, and Intensity of Leisure Activity at Stage 1, Task Orientation and Perceived Ability at Stage 2, and by Intensity of Leisure Activity at Stage 3. Examination of the beta weights indicated that lower RPE for the girls was related to higher Task Orientation and lower Perceived Ability and more experience with higher Intensity of Leisure Activity. Results are discussed in light of the literature pertaining to goal orientation and ratings of perceived exertion.

Tracking physical fitness and physical activity from childhood to adolescence: the muscatine study.

PURPOSE: Physical fitness and physical activity tracking data enhance our understanding as to when children settle into their long-term exercise and fitness patterns and, therefore. provide insight as to when programs focusing on preventing sedentary adults behaviors should be initiated. METHODS: In this paper, the tracking of physical fitness and physical activity was examined in a 5-yr population-based study of children and adolescents in Muscatine, IA. Study subjects (N = 126) were pre- or early-pubescent at baseline (mean age boys 10.8 yr and girls 10.3 yr). Physical fitness was measured using direct determination of oxygen uptake and maximal voluntary isometric contraction while physical activity was assessed via questionnaire. RESULTS: Boys classified as sedentary based on initial measurements of TV viewing and video game playing were 2.2 times more likely than their peers to also be classified as sedentary at follow-up. Tracking of most physical fitness and physical activity variables was moderate to high, indicating some predictability of early measurements for later values. Sedentary behavior tracked better in boys, whereas vigorous activity tended to track better in girls. CONCLUSION: These observations suggest that preventive efforts focused on maintaining physical fitness and physical activity through puberty will have favorable health benefits in later years.

Predicting heart growth during puberty: The Muscatine Study.

OBJECTIVES: During childhood, heart growth is closely associated with somatic growth including increases in body weight, fat-free body mass (FFM), and height. However, with age, greater variability in heart size in relationship to body size is observed, presumably attributable to the increased effect of cardiac workload. At this time, little is known as to what functional attributes (eg, aerobic fitness) contribute to cardiac workload and the relative contribution of these attributes to heart growth during childhood and adolescence. In this article, we report cross-sectional and longitudinal relationships among aerobic fitness, body size, blood pressure (BP), and left ventricular mass (LVM) through puberty including the predictors of heart growth during puberty and the tracking of LVM from pre-puberty to late and post-puberty. Describing the predictors of heart size and heart growth and establishing the likelihood that a large heart, relative to peers, may (or may not) remain a large heart should aid pediatricians in discerning between normal developmental increases in LVM and increases in LVM suggestive of excessive heart growth (left ventricular hypertrophy). METHODOLOGY: Using a repeated-measures design, we assessed aerobic fitness, FFM, fatness, weight, height, sexual maturation, resting BP, peak exercise BP, and LVM in 125 healthy children (mean baseline age: 10.5 years) for a period of 5 years. All subjects were either in prepuberty or early puberty at the beginning of the study. At follow-up, 110 subjects attempted all research procedures (87% of the initial cohort). Using anthropometry and bioelectrical impedance, we measured FFM, fatness, weight, and height quarterly (once every 3 months) for a total of 20 examinations. Resting BP and LVM (2-dimensional echocardiography) were also assessed quarterly. Aerobic fitness, peak exercise BP, and sexual maturation (staging of secondary sex characteristics and, for boys, serum testosterone) were measured annually (5 examinations). The same field staff conducted all examinations. Statistical methods included Spearman rank correlation coefficients (r(s)) calculated to estimate how well the year 5 LVM was predicted by LVM at earlier years. We also categorized the LVM data into tertiles and reported the percentage who remained in the extreme tertiles in year 5, given they began in that tertile in year 1. Gender-specific stepwise multivariate analysis was used to evaluate predictors of follow-up LVM and predictors of changes in LVM. The latter model examined whether the variability in the changes in LVM, as quantified by subject-specific slopes, could be explained by changes in predictor variables, also quantified by subject-specific slopes. RESULTS: At baseline and at follow-up, boys tended to be taller, leaner, more aerobically fit, and had greater LVM than girls. Rate of change for these variables was also greater in boys than girls. For example, LVM increased 62% in boys and 48% in girls. At year 5, subjects had advanced at least 1 stage in genital or breast development and over 80% of the subjects were in late- or post-puberty. Significant and strong tracking of heart size (r(s) =.65-.87) was observed. The likelihood that a subject would be in an extreme tertile for heart size at follow-up was approximately doubled if he or she started there at baseline. In boys, baseline FFM explained 54% of the variability in follow-up LVM. Change in aerobic fitness and change in FFM explained 55% of the variability in change in LVM. In girls, baseline aerobic fitness and fatness explained 45% of the variability in follow-up LVM. Because FFM did not enter in this model, we constructed an alternative model in which baseline aerobic fitness adjusted for FFM was entered. Using this approach, 43% of the variability in follow-up LVM was explained by baseline FFM, fatness, and adjusted aerobic fitness. Change in FFM explained 58% of the variability in change in LVM. (ABSTRACT TRUNCATED)