Accelerometer-based sedentary time and physical activity from childhood through young adulthood with progressive cardiac changes: a 13-year longitudinal study.

AIMS: Longitudinal evidence on the relationship of sedentary time (ST), light-intensity physical activity (LPA), and moderate-to-vigorous-intensity physical activity (MVPA) with changes in cardiac structure and function in the paediatric population is scarce. This evidence is clinically important due to the impact ST can have on the long-term prognosis of healthy young population in the lifetime continuum. This prospective observational study examined the relationships of cumulative ST, LPA, and MVPA from childhood with longitudinal changes in cardiac structure and function. METHODS AND RESULTS: This is a secondary analysis from the Avon Longitudinal Study of Parents and Children, UK birth cohort of 1682 children aged 11 years. Participants who had at least one follow-up timepoints accelerometer-measured ST, LPA, and MVPA over a period of 13 years and repeated echocardiography-measured cardiac structure and function at ages 17- and 24-year clinic visit were included. Left ventricular mass indexed for height2.7 (LVMI2.7) and left ventricular (LV) diastolic function from mitral E/A ratio (LVDF) were computed. Among 1682 children (mean [SD] age, 11.75 [0.24] years; 1054 [62.7%] females), the cumulative one-min/day increase in ST from ages 11 to 24 years was associated with progressively increased LVMI2.7 {effect estimate 0.002 g/m2.7 [confidence interval (CI) 0.001-0.003], P < 0.001}, irrespective of sex, obesity, and hypertensive status. Cumulative one-min/day increase in LPA was associated with a decreased LVMI2.7 (-0.005 g/m2.7 [-0.006 to -0.003], P < 0.0001) but an increased LVDF. Cumulative one-minute/day increase in MVPA was associated with progressively increased LVMI2.7 (0.003 g/m2.7 [0.001-0.006], P = 0.015). CONCLUSION: ST contributed +40% to the 7-year increase in cardiac mass, MVPA increased cardiac mass by +5%, but LPA reduced cardiac mass by -49%. Increased ST may have long-term pathologic effects on cardiac structure and function during growth from childhood through young adulthood; however, engaging in LPA may enhance cardiac health in the young population.

The aim of this longitudinal study including 1682 children and adolescents was to examine the effect of sedentary time (ST), light-intensity physical activity (LPA), moderate-to-vigorous-intensity physical activity (MVPA) on changes in cardiac structural and functional properties during growth until young adulthood. Cumulative ST from childhood contributed a maximum of 40% (+1.29 g/m2.7 out of the total 7-year increase in cardiac mass of 3 g/m2.7) during growth from adolescence to young adulthood. Cumulative LPA from childhood was associated with decreased cardiac mass (−0.005 g/m2.7), amounting to a −49% average reduction (−1.49 g/m2.7 out of 3 g/m2.7) in the increase in cardiac mass across the 7-year observation period. Each minute of cumulative MVPA from childhood was associated with a 5% progressively increased cardiac mass, amounting to +0.15 g/m2.7 out of 3 g/m2.7 increase during growth from adolescence to young adulthood.Participation in LPA of at least 3 h/day and decreasing ST was longitudinally associated with healthier cardiac indices in the young population. The contribution of ST to increased cardiac mass is eight times more than the MVPA-associated physiological increase. Hence, progressively increasing childhood sedentariness may independently and pathologically contribute to worsening cardiac structural and functional alterations in the young population. Childhood sedentariness causes an increased body fat, inflammation, blood pressure, lipid levels, arterial stiffness, and subsequently cardiac enlargement, thereby increasing the risk of adverse cardiovascular health consequences in later life.

Environmental Exposures and Pediatric Cardiology: A Scientific Statement From the American Heart Association.

Environmental toxicants and pollutants are causes of adverse health consequences, including well-established associations between environmental exposures and cardiovascular diseases. Environmental degradation is widely prevalent and has a long latency period between exposure and health outcome, potentially placing a large number of individuals at risk of these health consequences. Emerging evidence suggests that environmental exposures in early life may be key risk factors for cardiovascular conditions across the life span. Children are a particularly sensitive population for the detrimental effects of environmental toxicants and pollutants given the long-term cumulative effects of early-life exposures on health outcomes, including congenital heart disease, acquired cardiac diseases, and accumulation of cardiovascular disease risk factors. This scientific statement highlights representative examples for each of these cardiovascular disease subtypes and their determinants, focusing specifically on the associations between climate change and congenital heart disease, airborne particulate matter and Kawasaki disease, blood lead levels and blood pressure, and endocrine-disrupting chemicals with cardiometabolic risk factors. Because children are particularly dependent on their caregivers to address their health concerns, this scientific statement highlights the need for clinicians, research scientists, and policymakers to focus more on the linkages of environmental exposures with cardiovascular conditions in children and adolescents.

The Interactive Effects of Sedentary Time, Physical Activity, and Fat Mass on Insulin Resistance in the Young Population.

CONTEXT: Recent evidence in 9-year-old children with overweight/obesity followed up for 7 years until late adolescence concluded that increased physical activity (PA) decreased the risk of high fasting glucose, low insulin sensitivity, and secretion. However, whether this effect persists until young adulthood is unknown. OBJECTIVE: This observational study examined the effects of cumulative sedentary time (ST), light PA (LPA), and moderate-to-vigorous (MVPA) on glucose, insulin, and homeostatic model assessment for insulin resistance (HOMA-IR) in 11-year-old children followed up for 13 years until young adulthood. METHODS: Altogether 792 children from the Avon Longitudinal Study of Parents and Children, UK who had data on at least two measures of accelerometer-based movement behaviour during ages 11, 15, and 24 years follow-up clinic visits with complete fasting glucose, insulin, and HOMA-IR measures at ages 15, 17, and 24 years were included. ST, LPA, and MVPA were measured with an accelerometer. RESULTS: Cumulative ST from ages 11-24 years was associated with increased odds (odds ratio 1.20 [95% CI 1.00-1.44] p=0.047) and cumulative LPA was associated with the decreased odds of hyperinsulinemia (0.80 [0.66-0.96] p=0.017) among participants with overweight/obesity. Cumulative MVPA was inversely associated with insulin but after accounting for the mediating role of fat mass, MVPA effect on lowering insulin decreased by 58% resulting in statistical non-significance. In the temporal path analyses, among participants with overweight/obesity, higher glucose at age 15 years was associated with lower LPA and MVPA at 24 years. Higher LPA at 15 years was associated with lower insulin and HOMA-IR at 24 years and vice-versa. CONCLUSIONS: Promoting LPA while decreasing body fat mass and ST may be considered crucial intervention targets to attenuate the risk of hyperinsulinemia and insulin resistance from childhood through young adulthood.

Waist-circumference-to-height-ratio had better longitudinal agreement with DEXA-measured fat mass than BMI in 7237 children.

BACKGROUND: The absolute agreement of surrogate measures of adiposity with dual-energy X-ray absorptiometry (DEXA)-measured body composition was examined. METHODS: Over a 15-year follow-up, 7237 (3667 females) nine-year-old children from the Avon Longitudinal Study of Parents and Children (ALSPAC) UK birth cohort were included. Total fat mass (FM) and trunk FM were serially measured with DEXA at ages 9, 11, 15, 17, and 24 years. BMI and waist circumference-to-height ratio (WHtR) were computed. Pearson's correlations, intraclass correlations (ICC), and area under curve (AUC) analyses were conducted. RESULTS: Over 15 years, BMI, total FM, and trunk FM, increased but WHtR was relatively stable. WHtR provided a better longitudinal absolute agreement [males ICC 0.84 (95% CI 0.84-0.85); females 0.81 (0.80-0.82)] than BMI [(males (0.65 (0.64-0.66); females 0.72 (0.71-0.73)] with total FM as well as trunk FM from ages 9-24 years. WHtR cut-point for predicting excess total FM (75th-95th percentile) was 0.50-0.53 in males [AUC 0.86-0.94, sensitivity 0.51-0.79 and specificity 0.93-0.95]. WHtR cut-point for predicting excess total FM (75th-95th percentile) was 0.52-0.54 in females [AUC 0.83-0.95, sensitivity 0.38-0.68 and specificity 0.92-0.95]. Results were similar with trunk FM. CONCLUSION: WHtR is an inexpensive alternative to BMI for predicting FM in pediatrics. IMPACT: Waist circumference-to-height ratio (WHtR) is a better adiposity surrogate measure than body mass index (BMI) in predicting fat mass and discriminating lean mass from childhood through young adulthood. BMI has been used as an inexpensive surrogate measure of adiposity in children for several decades. However, emerging findings suggest that BMI fails to discriminate between fat mass adiposity and lean mass. This is the first-ever longitudinal study in over 7000 children followed up for 15 years that identified WHtR as an inexpensive accurate measure that discriminates fat mass from lean mass that could replace BMI measure of obesity in pediatrics.

Accelerometer-based sedentary time, light physical activity, and moderate-to-vigorous physical activity from childhood with arterial stiffness and carotid IMT progression: A 13-year longitudinal study of 1339 children.

AIMS: We examined the longitudinal associations of sedentary time (ST), light physical activity (LPA), and moderate-to-vigorous PA (MVPA) from childhood with carotid-femoral pulse wave velocity (cfPWV), a measure of arterial stiffness and carotid intima-media thickness (cIMT). METHODS: We studied 1339 children, aged 11 years from Avon Longitudinal Study of Parents and Children, UK, followed up for 13 years. Accelerometer-based ST, LPA, and MVPA were assessed at ages 11, 15, and 24 years clinic visits. cfPWV and cIMT were measured with Vicorder and ultrasound, respectively, at ages 17 and 24 years. RESULTS: Among 1339 [56.4% female] participants, mean ST increased from ages 11 through 24 years, while mean LPA and MVPA decreased. Persistently high ST tertile from childhood was associated with increased cfPWV progression, effect estimate 0.047 m/s; [(95% CI 0.005 to 0.090); p = 0.030], but not cIMT progression. Persistently high LPA tertile category was associated with decreased cfPWV progression in males -0.022 m/s; [(-0.028 to -0.017); p < 0.001] and females -0.027 m/s; [(-0.044 to -0.010); p < 0.001]. Cumulative LPA exposure decreased the odds of progressively worsening cfPWV [Odds ratio 0.994 (0.994-0.995); p < 0.0001] and cIMT. Persistent exposure to ≥60 min/day of MVPA was paradoxically associated with increased cfPWV progression in males 0.053 m/s; [(0.030 to 0.077); p < 0.001] and females 0.012 m/s; [(0.002 to 0.022); p = 0.016]. Persistent exposure to ≥60 min/day of MVPA was inversely associated with cIMT progression in females -0.017 mm; [(-0.026 to -0.009); p < 0.001]. CONCLUSION: LPA >3 h/day from childhood may attenuate progressively worsening vascular damage associated with increased ST in youth.

Mediating effect of fat mass, lean mass, blood pressure and insulin resistance on the associations of accelerometer-based sedentary time and physical activity with arterial stiffness, carotid IMT and carotid elasticity in 1574 adolescents.

This study examined the mediating effect of total body fat mass, lean mass, blood pressure (BP) and insulin resistance on the associations of sedentary time (ST), light physical activity (LPA) and moderate-to-vigorous PA (MVPA) with carotid-femoral pulse wave velocity (cfPWV), carotid intima-media thickness (cIMT) and carotid elasticity in 1574 adolescents from the Avon Longitudinal Study of Parents and Children birth cohort, UK. ST, LPA and MVPA were assessed with ActiGraph accelerometer. ST and LPA were sex-categorised in tertiles as low (reference), moderate and high, while MVPA was categorised as <40 min/day (reference), 40-<60 min/day and ≥60 min/day. cfPWV, cIMT and carotid elasticity were measured with Vicorder and ultrasound. Fat mass and lean mass were assessed with dual-energy X-ray absorptiometry and homeostatic model assessment of insulin resistance (HOMA-IR) was computed. Mediation analyses structural equation models and linear mixed-effect models adjusted for cardiometabolic and lifestyle factors were conducted. Among 1574 adolescents [56.2% female; mean (SD) age 15.4 (0.24) years], 41% males and 17% females accumulated ≥60 min/day of MVPA. Higher ST was associated with lower cIMT partly mediated by lean mass. Higher LPA (standardized ß = -0.057; [95% CI -0.101 to -0.013; p = 0.014]) and the highest LPA tertile were associated with lower cfPWV. BP had no significant mediating effect movement behaviour relations with vascular indices. Lean mass partially mediated associations of higher MVPA with higher cIMT (0.012; [0.007-0.002; p = 0.001], 25.5% mediation) and higher carotid elasticity (0.025; [0.014-0.039; p = 0.001], 28.1% mediation). HOMA-IR mediated the associations of higher MVPA with higher carotid elasticity (7.7% mediation). Engaging in ≥60 min/day of MVPA was associated with higher carotid elasticity. In conclusion, higher LPA was associated with lower arterial stiffness, but higher MVPA was associated with thicker carotid wall explained by higher lean mass.

DXA-based Fat Mass With Risk of Worsening Insulin Resistance in Adolescents: A 9-Year Temporal and Mediation Study.

CONTEXT: Surrogate measures of childhood and adolescent obesity have impaired the understanding of the relationship of body composition with insulin resistance in the young population. OBJECTIVE: We aim to examine the longitudinal associations of directly measured total fat mass, trunk fat mass, and lean mass with the risk of hyperglycemia, hyperinsulinemia, and insulin resistance from ages 15 to 24 years, the mediation path through which lipids and inflammation influence insulin resistance, and whether increased fat mass temporally precede insulin resistance. METHODS: We studied 3160 adolescents from the Avon Longitudinal Study of Parents and Children (ALSPAC), UK birth cohort, who had complete dual-energy x-ray absorptiometry measure and fasting blood samples at age 15 years and repeated measures at ages 17- and 24-years clinic visit. Fasting glucose greater than 6.1 mmol/L, insulin greater than 11.78 mU/L, and homeostatic model assessment for insulin resistance (HOMA-IR) greater than or equal to the 75th percentile were categorized as hyperglycemia, hyperinsulinemia, and high insulin resistance, respectively. Longitudinal associations were examined with generalized logit-mixed-effect models, while mediation and temporal path analyses were examined using structural equation models, adjusting for cardiometabolic and lifestyle factors. RESULTS: Among 3160 participants (51% female), fat mass and lean mass increased linearly both in males and females, while glucose, insulin, and HOMA-IR had a U-shaped course from age 15 through 24 years. After full adjustment, each 1-kg cumulative increase in total fat mass (odds ratio 1.12 [95% CI, 1.11-1.13]) and trunk fat mass (1.21 [1.19-1.23]) from ages 15 through 24 years were associated with a progressively worsening risk of high insulin resistance as well as hyperglycemia and hyperinsulinemia. The association of increased total fat mass with increased insulin resistance was partly mediated by triglycerides (9% mediation). In the temporal path analysis, higher total fat mass at age 15 years was associated with higher insulin resistance at age 17 years, but not vice versa. Higher total fat mass at age 17 years was bidirectionally associated with higher insulin resistance at 24 years. CONCLUSION: Mid-adolescence may be an optimal time for interrupting the worsening fat mass-insulin resistance pathologic cycle and attenuating the risk of progressively worsening metabolic dysfunction before young adulthood.

Increasing lipids with risk of worsening cardiac damage in 1595 adolescents: A 7-year longitudinal and mediation study.

BACKGROUND AND AIMS: Longitudinal evidence on the associations of changes in lipids level with changes in cardiac structure and function in youth is limited due to few repeated echocardiography measures. This study examined whether changes in lipid levels from adolescence through young adulthood associate with the risk of cardiac damage progression and potential mechanistic pathways. METHODS: From the Avon Longitudinal Study of Parents and Children (ALSPAC), UK birth cohort, 1595 adolescents aged 17 years who had fasting plasma total cholesterol, triglyceride, high-density lipoprotein cholesterol (HDL-c), low-density lipoprotein cholesterol (LDL-c), and non-HDL-c measured at 17- and 24-year clinic visit were included. Echocardiography measured left ventricular mass indexed for height2.7 (LVMI2.7), and LV diastolic function from mitral E/A ratio (LVDF). LVMI2.7 ≥51 g/m2.7 and LVDF<1.5 were categorized as LV hypertrophy and LVD dysfunction, respectively. Multivariable adjusted associations were examined using generalized logit mixed-effect models and structural equation models for mediation analyses. RESULTS: The prevalence of LV hypertrophy increased from 3.6% at baseline to 11.6% at follow-up in males and increased from 1.6% to 4.0% in females. The prevalence of LVD dysfunction increased from 7.8% at baseline to 16.6% at follow-up in males and increased from 10.3% to 15.4% in females. Each 1 mmol increase in total cholesterol (OR, 1.18; [95% CI, 1.09-1.27]), triglyceride (2.89; [1.54-5.43]), LDL-c (1.19; [1.08-1.32]), and non-HDL-c (1.21; [1.11-1.33]) was associated with higher odds of worsening LV hypertrophy progression over 7 years. Increased triglyceride was associated with the odds of progressively worsening LVD dysfunction (1.98; [1.06-3.71]). Increased HDL-c was not associated with the odds of cardiac structural and functional damage. Systolic blood pressure (12% mediation) and fat mass (25% mediation) partly mediated the associations of LDL-c with increased LVMI2.7. CONCLUSIONS: Increased lipids may independently associate with the risk of progressively worsening structural and functional cardiac damage in youth but increased systolic blood pressure and fat mass explained circa forty percent of the relationship.

Associations of Sedentary Time and Physical Activity From Childhood With Lipids: A 13-Year Mediation and Temporal Study.

CONTEXT: Among children, evidence on long-term longitudinal associations of accelerometer-measured sedentary time, light physical activity (LPA), and moderate to vigorous PA (MVPA) with lipid indices are few. The mediating role of body composition and other metabolic indices in these associations remains unclear and whether poor movement behavior precedes altered lipid levels is unknown. OBJECTIVE: This study examined the associations of sedentary time, LPA, and MVPA from childhood through young adulthood with increased lipids, the mediating role of body composition, and whether temporal interrelations exist. METHODS: Data from 792 children (58% female; mean [SD] age at baseline, 11.7 [0.2] years), drawn from the Avon Longitudinal Study of Parents and Children (ALSPAC) UK birth cohort, who had at least 2 time-point measures of accelerometer-based sedentary time, LPA, and MVPA during clinic visits at ages 11, 15, and 24 years and complete fasting plasma high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, triglyceride, and total cholesterol measured during follow-up visits at ages 15, 17, and 24 years were analyzed. RESULTS: Total fat mass partly mediated the inverse associations of LPA with low-density lipoprotein cholesterol by 13%, triglyceride by 28%, and total cholesterol by 6%. Total fat mass mediated the inverse associations of MVPA with low-density lipoprotein cholesterol by 37% and total cholesterol by 48%, attenuating the effect on total cholesterol to nonsignificance (P = .077). In the temporal path analyses, higher MVPA at age 15 years was associated with lower low-density lipoprotein cholesterol at 24 years (ß = -0.08, SE, 0.01, P = .022) but not vice versa. CONCLUSION: Sedentary time worsens lipid indices, but increased LPA had a 5- to 8-fold total cholesterol-lowering effect and was more resistant to the attenuating effect of fat mass than MVPA.

Effects of accelerometer-based sedentary time and physical activity on DEXA-measured fat mass in 6059 children.

Globally, childhood obesity is on the rise and the effect of objectively measured movement behaviour on body composition remains unclear. Longitudinal and causal mediation relationships of accelerometer-based sedentary time (ST), light physical activity (LPA), and moderate-to-vigorous physical activity (MVPA) with dual-energy X-ray absorptiometry-measured fat mass were examined in 6059 children aged 11 years followed-up until age 24 years from the Avon Longitudinal Study of Parents and Children (ALSPAC), UK birth cohort. Over 13-year follow-up, each minute/day of ST was associated with 1.3 g increase in fat mass. However, each minute/day of LPA was associated with 3.6 g decrease in fat mass and each minute/day of MVPA was associated with 1.3 g decrease in fat mass. Persistently accruing ≥60 min/day of MVPA was associated with 2.8 g decrease in fat mass per each minute/day of MVPA, partly mediated by decrease insulin and low-density lipoprotein cholesterol. LPA elicited similar and potentially stronger fat mass-lowering effect than MVPA and thus may be targeted in obesity and ST prevention in children and adolescents, who are unable or unwilling to exercise.

Arterial stiffness but not carotid intima-media thickness progression precedes premature structural and functional cardiac damage in youth: A 7-year temporal and mediation longitudinal study.

BACKGROUND AND AIMS: The longitudinal relations of cardiac indices with the aorta and carotid vessel and the time sequence for early cardiac disease development are uncharacterized in youth. We examined the temporal longitudinal associations of carotid-femoral pulse wave velocity (cfPWV) and carotid intima-media thickness (cIMT) with left ventricular hypertrophy (LVH) and diastolic dysfunction (LVDD). METHODS: From the Avon Longitudinal Study of Parents and Children, UK birth cohort, 1856 adolescents (1011 females) at a mean (SD) age 17.7 (0.3) years were followed up for 7 years. Vicorder-measured cfPWV and ultrasound-measured cIMT were grouped in tertiles as low (reference), moderate, and high. Echocardiography measured cardiac abnormalities are left ventricular mass indexed for height2.7 (LVMI2.7) ≥51 g/m2.7 as LVH; relative wall thickness ≥44 as hiRWT; LVD function E/A <1.5 as LVD dysfunction (LVDD); and LV filling pressure E/e' ≥8 as hiLVFP. Data were analysed with generalized logit mixed-effect models, cross-lagged path, and mediation structural equation models adjusting for cardiometabolic and lifestyle factors. RESULTS: Over follow-up, LVH prevalence increased from 3.6% to 7.2% and LVDD from 11.1 to 16.3%. High cfPWV progression was associated with worsening LVH [Odds ratio 1.23 (1.13-1.35); p < 0.001] in the total cohort, males, overweight/obese, and normotensive. High cfPWV progression was associated with worsening hiLVFP in the total cohort, females, and normal weight. Likewise, high cIMT progression was associated with worsening LVH [1.27 (1.26-1.27); p < 0.0001] in the total cohort, overweight/obese and elevated BP/hypertensive. Neither cfPWV nor cIMT progression was associated with worsening hiRWT in the total cohort. In cross-lagged models, higher baseline cfPWV was associated with future LVMI2.7 (ß = 0.06, SE, 5.14, p = 0.035), RWT, LVDF, and LVFP. However, baseline LVMI2.7, RWT, LVDF, and LVFP were not associated with follow-up cfPWV. Baseline cIMT was not associated with follow-up cardiac indices and vice versa. Cumulative increased systolic blood pressure (34.3% mediation) and insulin resistance (15.1% mediation) mediated the direct associations of cumulative cfPWV with cumulative LVMI2.7. CONCLUSIONS: Arterial stiffness progression temporally preceded worsening structural and functional cardiac damage in youth with increased systolic blood pressure and insulin resistance partly mediating the relationships. Future interventions aimed at attenuating premature cardiac damage in adolescents and young adults may consider a simultaneous treatment of both arterial stiffness, elevated blood pressure and insulin resistance.

Longitudinal Mediating Effect of Fat Mass and Lipids on Sedentary Time, Light PA, and MVPA with Inflammation in Youth.

CONTEXT: Inflammation has been associated with atherosclerosis and metabolic disorders in youth. Preventing inflammation through exposure to different accelerometer-based movement behaviors has not been longitudinally examined. OBJECTIVE: This work aimed to examine the mediating role of fat mass, lipids, and insulin resistance on the associations of cumulative sedentary time (ST), light physical activity (LPA), and moderate-to-vigorous physical activity (MVPA) with inflammation. METHODS: From the Avon Longitudinal Study of Parents and Children, United Kingdom, 792 children with data on at least 2 time-point measures of accelerometer-based ST, LPA, and MVPA during age 11, 15, and 24 years follow-up clinic visits with complete high-sensitivity C-reactive protein (hsCRP) measures at age 15, 17, and 24 years were studied. Mediating associations were examined using structural equation models. When the magnitude of the association between the exposure and outcome is increased after including a third variable, suppression occurred but mediation if decreased. RESULTS: Among 792 (58% female; mean [SD] age at baseline, 11.7 [0.2] years), ST increased, LPA decreased, and MVPA had a U-shaped increase while hsCRP increased during 13-year follow-up. Insulin resistance partly suppressed (23.5% suppression) the positive associations of ST with hsCRP among participants who were overweight/obese. Fat mass partly mediated (30% mediation) the negative associations of LPA with hsCRP. Fat mass had a 77% mediation effect on the negative associations of MVPA with hsCRP. CONCLUSION: ST worsens inflammation, but increased LPA had a 2-fold inflammatory-lowering effect and was more resistant to the attenuating effect of fat mass compared with MVPA, and hence should be targeted in future interventions.

Arterial stiffness preceding metabolic syndrome in 3,862 adolescents: a mediation and temporal causal longitudinal birth cohort study.

The temporal longitudinal associations of carotid-femoral pulse wave velocity (cfPWV), a measure of arterial stiffness, with the risk of incident metabolic syndrome, were examined in youth. A total of 3,862 adolescents, aged 17.7 yr and followed up for 7 yr, from the Avon Longitudinal Study of Parents and Children were included. cfPWV was assessed by Vicorder at baseline and follow up. Metabolic syndrome was determined by the presence of three or more of dual-energy X-ray absorptiometry-measured trunk fat obesity; decreased high-density lipoprotein cholesterol, elevated triglyceride, hyperglycemia, and elevated/hypertensive blood pressure at both measurement time points. Analyses were conducted using generalized logit mixed-effect models and autoregressive cross-lagged and mediation structural equation models. Among 3,862 adolescents [2,143 (55.5%) female], 5% of male and 1.1% of female participants had metabolic syndrome at baseline, whereas 8.8% of male and 2.4% of female participants had metabolic syndrome at follow-up. In the mixed-model analysis, a 7-yr progressive increase in cfPWV was associated with a cumulatively increased risk of incident metabolic syndrome from baseline through follow-up in the total cohort (odds ratio 1.04 [confidence interval, 1.02-1.06], P = 0.002) and in males (1.09 [1.06-1.12], P < 0.001) but not in females (1.01 [0.95-1.06], P = 0.885). In the cross-lagged model, higher cfPWV at baseline was associated with a higher metabolic syndrome score (ß = 0.08, standard error = 0.39, P < 0.0001) at follow-up but metabolic syndrome score at baseline was not associated with cfPWV at follow-up. Cumulatively increased fasting insulin and low-density lipoprotein cholesterol had 12.4 and 9.4% respective mediation effects on the positive relationships between cumulative arterial stiffness and metabolic syndrome score. In conclusion, arterial stiffness temporally preceded incident and progressive metabolic syndrome in youth in a potential causal path, but experimental studies are warranted.NEW & NOTEWORTHY Participants at risk of metabolic syndrome increased twofold during growth from late adolescence to young adulthood. The cumulative increase in arterial stiffness independently predicted the progressive risk of incident metabolic syndrome. Arterial stiffness temporally preceded metabolic syndrome. Increased fasting insulin and low-density lipoprotein cholesterol partly mediated the direct associations between arterial stiffness and metabolic syndrome. Age 17 yr may be an optimal arterial stiffness intervention timing for attenuating metabolic syndrome risks.

Associations of accelerometer-based sedentary time, light physical activity and moderate-to-vigorous physical activity with resting cardiac structure and function in adolescents according to sex, fat mass, lean mass, BMI, and hypertensive status.

BACKGROUND: This study examined the independent relationships of device-based measured sedentary time (ST) and physical activity (PA) in relation to cardiac structural and functional geometry among adolescents. METHODS: From the Avon Longitudinal Study of Parents and Children, UK birth cohort, 530 (50% female) adolescents aged 17 years had complete ST, PA, cardiac, and covariate measures. Echocardiography cardiac measures were left ventricular mass indexed for height2.7 (LVMI2.7 ), relative wall thickness, LV diastolic function (LVDF), and LV filling pressure (LVFP). Overweight/obesity and elevated systolic/BP hypertension were categorized as body mass index >24.99 kg/m2 and ≥130 mmHg, respectively. Data were analyzed with linear regression models adjusting for cardiometabolic factors and lifestyle factors. RESULTS: The prevalence of overweight/obesity in males and females was 17.9% and 24.5%, respectively. The prevalence of elevated systolic BP/hypertension was 11.6% in males and 1.1% among females. The average ST was 484 ± 78 min/day, light PA was 274 ± 62 min/day, and moderate-to-vigorous PA (MVPA) was 41 ± 24 min/day, among females. Average ST, LPA, and MVPA were 468 ± 87 min/day, 293 ± 70 min/day, and 56 ± 30 min/day, respectively, among males. Higher ST was associated with higher LVMI2.7 (standardized ß = 0.16; p = 0.01) among females, but higher ST was associated with lower LVDF in males (ß = -0.14; p = 0.04). Higher ST and MVPA were associated with higher LVMI2.7 in the total cohort, normal weight, and overweight/obese adolescents. Light PA was associated with higher LVDF in the total cohort and normotensives and lower LVFP among adolescents with high lean mass. CONCLUSIONS: Higher ST and MVPA were associated with higher LVMI; however, ST-associated LVMI increase was threefold higher than MVPA-associated LVMI increase. Higher LPA was associated with better cardiac function. Reducing ST and increasing LPA may attenuate the risk of altered cardiac structure and function in adolescents.

Does arterial stiffness mediate or suppress the associations of blood pressure with cardiac structure and function in adolescents?

There is limited understanding of the role of arterial stiffness in cardiovascular disease risk in the pediatric population, lagging behind strong evidence in the adult population. Arterial stiffness progression among adolescents with hypertension has been considered hypertension-mediated vascular damage. However, emerging pediatric reports suggest that arterial stiffness may precede increased blood pressure and hypertension, whereas increased blood pressure from childhood has been associated with signs of cardiac damage in mid-adulthood. Thus, this study used a third variable analytical approach to examine whether arterial stiffness mediates or suppresses the effects of increasing blood pressure on cardiac structure and function in the Avon Longitudinal Study of Parents and Children (ALSPAC) cohort of 1,778 adolescents. After an adjustment for cardiometabolic and lifestyle factors, arterial stiffness measured as carotid-femoral pulse wave velocity partly suppressed the association of higher systolic blood pressure with higher left ventricular mass (standardized regression coefficient, ß = -0.012; P = 0.017; suppression effect = 4%), partly mediated the associations of higher systolic and diastolic blood pressure with higher relative ventricular wall thickness, and partly suppressed the association of higher diastolic blood pressure with lower left ventricular diastolic function (ß = -0.021; P = 0.003; suppression effect = 14.5%). In conclusion, increasing arterial stiffness could attenuate some of the adverse effects of increased blood pressure on cardiac structure and function in adolescents possibly by modifying the Windkessel effects.NEW & NOTEWORTHY The present study demonstrates that the associations of blood pressure with cardiac function and structure in adolescents may be mediated or suppressed by arterial stiffness depending on the blood pressure phenotype: systolic or diastolic. Arterial stiffness may be considered as an intermediate pathway to attenuate the effect of increased blood pressure on altered cardiac structure and function in youth.

Elevated Blood Pressure and Worsening Cardiac Damage During Adolescence.

OBJECTIVES: To examine the longitudinal course for the development of elevated blood pressure (BP)/hypertension and cardiac damage in adolescents. STUDY DESIGN: From the Avon Longitudinal Study of Parents and Children, UK birth cohort, 1856 (1011 female) 17-year-old adolescents were followed up for 7 years. BP and echocardiography were assessed at ages 17 and 24 years. Elevated/hypertensive BP was defined as ≥130 mm Hg systolic and ≥85 mm Hg diastolic. Left ventricular (LV) mass indexed for height2.7 (LVMI2.7) ≥51 g/m2.7 was defined as LV hypertrophy (LVH) and LV diastolic function (LVDF) E/A <1.5 as LVD dysfunction (LVDD). Data were analyzed with generalized logit mixed-effect models and cross-lagged structural equation temporal path models adjusting for cardiometabolic and lifestyle factors. RESULTS: Over follow-up, the prevalence of elevated systolic BP/hypertension increased from 6.4% to 12.2%, LVH from 3.6% to 7.2%, and LVDD from 11.1% to 16.3%. Cumulative elevated systolic BP/hypertension was associated with worsening LVH in female participants (OR 1.61, CI 1.43-1.80 P < .001) but not in male participants. Elevated systolic BP/hypertension was associated with worsening LVDD in male and female participants. Elevated diastolic BP/hypertension was associated with worsening LVH in male and female participants. In cross-lagged temporal path models, higher baseline systolic BP was associated with LVDF (ß = 0.09, SE = 0.002, P = .029) but not LVMI2.7 at follow-up. Higher baseline cardiac indices were not associated with follow-up systolic BP. Higher baseline diastolic BP was associated with follow-up higher cardiac indices except LVDF. Baseline LVMI2.7 was not associated with follow-up diastolic BP. CONCLUSIONS: Elevated BP/hypertension may temporally precede premature cardiac damage in youth.

Temporal longitudinal associations of carotid-femoral pulse wave velocity and carotid intima-media thickness with resting heart rate and inflammation in youth.

We examined the temporal longitudinal associations of carotid-femoral pulse wave velocity (cfPWV) and carotid intima-media thickness (cIMT) with the risk of elevated resting heart rate (RHR) and high-sensitivity C-reactive protein (hsCRP). We studied 3,862 adolescents, mean age 17.7 (SD 0.3 yr), followed-up for 7 yr until age 24.5 (0.7) yr, from the Avon Longitudinal Study of Parents and Children, UK. RHR, fasting plasma hsCRP, cfPWV, and cIMT were repeatedly assessed and analyzed using logistic regression, linear mixed-effect, and structural equation models adjusting for important covariates. Among 3,862 adolescents [2,143 (55.5%) female], 10% and 44% were at moderate-to-high risk of elevated RHR and hsCRP at 24.5 yr, respectively. Higher cfPWV at 17.7 yr was associated with elevated RHR risk at follow-up [odds-ratio (OR) 1.58 (CI 1.20-2.08); P = 0.001], whereas cIMT at 17.7 yr was associated with elevated hsCRP risk [OR 2.30 (1.18-4.46); P = 0.014] at follow-up, only among females. In mixed model, 7-yr progression in cfPWV was directly associated with 7-yr increase in RHR [effect-estimate 6 beats/min (1-11); P = 0.017] and hsCRP. cIMT progression was associated with 7-yr increase in RHR and hsCRP. In cross-lagged model, higher cfPWV at 17.7 yr was associated with higher RHR (ß = 0.06, standard error = 3.85, P < 0.0001) at 24.5 yr but RHR at 17.7 yr was unassociated with cfPWV at 24.5 yr. Baseline cIMT or RHR was unassociated with either outcome at follow-up. Higher hsCRP at 17.7 yr was associated with higher cfPWV and cIMT at 24.5 yr. In conclusion, adolescent arterial stiffness but not cIMT appears to precede higher RHR in young adulthood, whereas elevated hsCRP in adolescence preceded higher cfPWV and cIMT.NEW & NOTEWORTHY Higher arterial stiffness but not carotid-intima media thickness in adolescence preceded higher resting heart rate in young adulthood, however, elevated high sensitivity C-reactive protein in adolescence preceded higher arterial stiffness and carotid intima-thickness in young adulthood in the temporal causal path. Low-grade inflammation during adolescence may be causally associated with the development of subclinical arteriosclerosis and atherosclerosis in young adulthood.

Longitudinal left ventricular mass indexing for DEXA-measured lean mass and fat mass: novel normative reference centiles in postpubertal adolescents and young adults.

Left ventricular (LV) hypertrophy derived from LV mass (LVM) cut point is a marker of cardiovascular events in adults and target organ damage in pediatric research. Inadequate LVM indexing for body size due to scarcity of dual-energy X-ray absorptiometry (DEXA)-measured lean mass may lead to misclassification in the pediatric population. The only LVM indexed for DEXA-measured lean mass reference in children, mean age 11.6 yr, is 3-decades old and accurate LVM indexing in postpubertal adolescents and young adults is nonexistent. We generate new sex-specific LVM indexed for lean mass percentiles in healthy adolescence and young adulthood and correlated them with surrogates for normalizing body size. From the Avon Longitudinal Study of Parents and Children UK birth cohort, 868 adolescents (531 females) aged 17 yr were followed up for 7 yr. Lean mass was measured by DEXA at both time points. Echocardiography M-mode, two-dimensional (2-D), and three-dimensional (3-D) echo data for estimating LVM were collected at baseline and follow-up. Over 7 years, LVM increased in males (177.1 g) and females (133.5 g) at 17 yr to 199.9 g (males) and 145 g (females) at 24 yr. LVM/height3 and LVM/height2.7 provided the most consistent cross-sectional and longitudinal intraclass correlation coefficients with LVM/lean mass in both sexes (0.90-0.93). Indexing LVM by lean mass eliminated the sex difference only at age 24 yr but not at 17 yr. LVM/height2.7 85th percentiles for males and females at age 17 yr were 45.1 g/m2.7 and 41.4 g/m2.7, respectively, and at age 24 yr the 75th percentiles were 45.5 g/m2.7 and 41.7 g/m2.7, respectively. The 95th percentiles for males and females at age 17 yr were 49.5 g/m2.7 and 46.8 g/m2.7, respectively, and at age 24 yr were 57.1 g/m2.7 and 50.2 g/m2.7, respectively. These new reference percentile cut points were higher than the currently used 95th percentile pediatric reference of 38.6 g/m2.7. Future studies are warranted in youth with clinical diseases to examine whether these new cut points provide a more accurate stratification of cardiovascular risk.NEW & NOTEWORTHY Current left ventricular mass cut points for pediatric left ventricular hypertrophy are inaccurate. The inaccuracies are due, in part, to the average age of participants (11.6 yr) evaluated and also due to the lack of Echo and DEXA-measured body composition in postpubertal youth. Novel sex-based cut points are proposed for postpubertal youths at 17 and 24 yr. The new 95th percentile cut points are 15-20 g/m2.7 higher than the current cut point.