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1.
J Hum Genet ; 65(5): 437-444, 2020 May.
Article in English | MEDLINE | ID: mdl-31983733

ABSTRACT

Increasing enthusiasm for clinical pharmacogenetic testing and the availability of pharmacogenetic-based guidelines indicate that pediatricians will increasingly be expected to interpret and apply pharmacogenetic test results into medical care. Previous studies have identified a lack of knowledge on pharmacogenetics across many physician specialties; however, this has not been systematically assessed among pediatricians. To evaluate pediatrician knowledge, attitude, and educational interest in pharmacogenetics, we surveyed physician cohorts from both the United States (U.S.) and Japan. A total of 282 pediatricians (210 from the U.S. and 72 from Japan) participated in an anonymous survey (online or hardcopy) on pharmacogenetics knowledge, perception, and education. Over 50% of all respondents had >10 years of clinical experience and >75% had some prior education in genetics. However, <10% felt they were familiar with pharmacogenetics, which was very consistent with <20% of the U.S. pediatricians correctly responding to a codeine/CYP2D6 pharmacogenetics knowledge question and <10% of U.S. pediatricians being aware of the Clinical Pharmacogenetics Implementation Consortium (CPIC). Despite being generally unfamiliar with pharmacogenetics, >80% of all respondents indicated that implementation of clinical pharmacogenetic testing will improve efficacy and safety, and that pediatricians should be capable of applying this testing to their practice. Moreover, the majority (83.1%) were interested in educational opportunities on pharmacogenetics, particularly on result interpretation and therapeutic recommendations. Taken together, these data indicate that although practical knowledge of pharmacogenetics among pediatricians in the U.S. and Japan is currently very low, their interest in clinical pharmacogenetics and related education is high, which will likely facilitate future implementation.


Subject(s)
Health Knowledge, Attitudes, Practice , Pediatricians , Pharmacogenetics , Adult , Female , Humans , Japan , Male , Middle Aged , United States
2.
Am J Med Genet A ; 167A(10): 2286-93, 2015 Oct.
Article in English | MEDLINE | ID: mdl-26249260

ABSTRACT

Transient receptor potential cation channel, subfamily V, member 4 (TRPV4) is a polymodal modulated non-selective cation channel required for normal development and maintenance of bone and cartilage. Heterozygous mutations of this channel cause a variety of channelopathies, including metatropic dysplasia (MD). We analyzed the effect of a novel TRPV4 mutation c.2398G>A, p.Gly800Asp on intracellular calcium ([Ca(2+) ]i ) regulation in chondrocytes and compared this response to chondrocytes with a frequently observed mutation, c.2396C>T, p.Pro799Leu. We observed temperature-dependent [Ca(2+) ]i oscillations in both intact and MD chondrocytes however, MD mutations exhibited increased peak magnitudes of [Ca(2+) ]i during oscillations. We also found increased baseline [Ca(2+) ]i in MD primary cells, as well as increased [Ca(2+) ]i response to either hypotonic swelling or the TRVP4-specific agonist, GSK1016790A. Oscillations and stimulation responses were blocked with the TRPV4-specific antagonist, GSK205. Analysis of [Ca(2+) ]i response kinetics showed that MD chondrocytes had increased frequency of temperature-sensitive oscillations, and the magnitude and duration of [Ca(2+) ]i responses to given stimuli. Duration of the response of the p.Gly800Asp mutation to stimulation was greater than for the p.Pro799Leu mutation. These experiments show that this region of the channel is essential for proper [Ca(2+) ]i regulation. These studies of primary cells from patients show how both mutant and WT TRPV4 channels regulate cartilage and bone development. © 2015 Wiley Periodicals, Inc.


Subject(s)
Calcium Signaling , Chondrocytes/metabolism , Dwarfism/genetics , Mutation , Osteochondrodysplasias/genetics , TRPV Cation Channels/genetics , Bone and Bones/metabolism , Bone and Bones/pathology , Calcium Channel Agonists/pharmacology , Calcium Channel Blockers/pharmacology , Cartilage/metabolism , Cartilage/pathology , Child, Preschool , Chondrocytes/drug effects , Chondrocytes/pathology , Dwarfism/metabolism , Dwarfism/pathology , Female , Gene Expression , Humans , Leucine/analogs & derivatives , Leucine/pharmacology , Osmotic Pressure , Osteochondrodysplasias/metabolism , Osteochondrodysplasias/pathology , Phenotype , Primary Cell Culture , Severity of Illness Index , Sulfonamides/pharmacology , TRPV Cation Channels/agonists , TRPV Cation Channels/antagonists & inhibitors , TRPV Cation Channels/metabolism
3.
Dela J Public Health ; 7(5): 10-11, 2021 Dec.
Article in English | MEDLINE | ID: mdl-35619978

ABSTRACT

Advances in the field of human genetics over the past three decades have led to improvements in human health through development and availability of novel genetic testing approaches for diagnosis, prognosis, treatment therapy, safety, preventive screening and population-based risk assessment. In this commentary, I highlight the current landscape of genetic testing in Delaware with a focus on the genetic etiology and molecular diagnosis of pediatric disease, tailored treatment efficacy and safety through novel clinical trials and pharmacogenomics, and training in the application of genomic approaches to rare and common diseases. Future opportunities include integrating application of genetic information into clinical practice, improving genetics education, focusing on disparities and access, and advancing genomics and digital health technologies.

4.
Dela J Public Health ; 7(5): 24-27, 2021 Dec.
Article in English | MEDLINE | ID: mdl-35619972

ABSTRACT

Chronic kidney disease (CKD) has major morbidity and mortality for children and adults. While in adults CKD often is associated with diabetic complications, genetic variants can be the underlying cause in both populations. Beginning in 2016 with the emergence of more affordable next-generation sequencing (NGS) technologies, the Molecular Diagnostics Lab at Nemours Children's Hospital-Delaware developed the first clinically actionable pediatric NGS kidney panel comprised of 46 genes including APOL1. Apolipoprotein L1 (APOL1) associated nephropathy is reported along a spectrum of non-diabetic kidney disease. It is significantly associated with two "risk alleles" defined as G1 and G2 and typically found in individuals of African descent. In early 2020, as COVID-19 spread across the globe, reports of patients with kidney failure began to emerge. A collapsing glomerulopathy in Black patients with COVID-19 was found to be associated with the APOL1 predisposition of the known G1 and/or G2 risk variants. We identified genetic variants in 11 genes (NPHS1; NPHS2; LAMB2; WT1; COL4A4; COL4A5; COQ8B; CUBN; MEFV; PMM2; SMARCAL1) known to be associated with pediatric onset nephrotic syndrome, or detection of the high-risk haplotype of APOL1, in the majority (78%) of patients tested. These clinically actionable results guided medical care and improved patient outcomes.

5.
Dela J Public Health ; 6(2): 18-19, 2020 Jul.
Article in English | MEDLINE | ID: mdl-34467102

ABSTRACT

The Coronavirus disease 2019 (COVID-19) pandemic caused by SARS-CoV-2 has resulted in a global health emergency with major social and economic disruption. With no effective treatment or vaccine available, and given the ease of transmission, it becomes critical to develop rapid diagnostic and tracer methodologies, while working to understand how the virus causes critically severe disease in about 5% of those affected. Clinical and translational research of patients impacted by COVID-19 is essential, and in this commentary, the focus is on the use of serology testing as a proxy for infection to better understand risk for health complications, and tailor treatment and vaccine immunization to high-risk groups. The rationale for studying pediatric patients is that there is a paucity of research in this vulnerable population and children have fewer co-morbidities, but similar health disparities and disease complications as compared to adults. Asymptomatic children could also transmit the virus to others within their households and communities; thus, knowledge of their rate of infection is important to help mitigate spread and a possible second wave of infection.

6.
BMC Cell Biol ; 10: 40, 2009 May 16.
Article in English | MEDLINE | ID: mdl-19445707

ABSTRACT

BACKGROUND: Deletion or mutation(s) of the survival motor neuron 1 (SMN1) gene causes spinal muscular atrophy (SMA). The SMN protein is known to play a role in RNA metabolism, neurite outgrowth, and cell survival. Yet, it remains unclear how SMN deficiency causes selective motor neuron death and muscle atrophy seen in SMA. Previously, we have shown that skin fibroblasts from SMA patients are more sensitive to the DNA topoisomerase I inhibitor camptothecin, supporting a role for SMN in cell survival. Here, we examine the potential mechanism of camptothecin sensitivity in SMA fibroblasts. RESULTS: Camptothecin treatment reduced the DNA relaxation activity of DNA topoisomerase I in human fibroblasts. In contrast, kinase activity of DNA topoisomerase I was not affected by camptothecin, because levels of phosphorylated SR proteins were not decreased. Upon camptothecin treatment, levels of p53 were markedly increased. To determine if p53 plays a role in the increased sensitivity of SMA fibroblasts to camptothecin, we analyzed the sensitivity of SMA fibroblasts to another DNA topoisomerase I inhibitor, beta-lapachone. This compound is known to induce death via a p53-independent pathway in several cancer cell lines. We found that beta-lapachone did not induce p53 activation in human fibroblasts. In addition, SMA and control fibroblasts showed essentially identical sensitivity to this compound. By immunofluorescence staining, SMN and p53 co-localized in gems within the nucleus, and this co-localization was overall reduced in SMA fibroblasts. However, depletion of p53 by siRNA did not lessen the camptothecin sensitivity in SMA fibroblasts. CONCLUSION: Even though p53 and SMN are associated, the increased sensitivity of SMA fibroblasts to camptothecin does not occur through a p53-dependent mechanism.


Subject(s)
Camptothecin/pharmacology , Fibroblasts/metabolism , Muscular Atrophy, Spinal/metabolism , Tumor Suppressor Protein p53/metabolism , Apoptosis , Cells, Cultured , DNA Topoisomerases, Type I/metabolism , Humans , Naphthoquinones/pharmacology , RNA, Small Interfering/metabolism , Survival of Motor Neuron 1 Protein/metabolism , Topoisomerase I Inhibitors
7.
Am J Perinatol ; 25(10): 637-45, 2008 Nov.
Article in English | MEDLINE | ID: mdl-18841530

ABSTRACT

Infant respiratory distress syndrome (IRDS) can lead to impaired alveolarization and dysmorphic vascularization of bronchopulmonary dysplasia. Clara cell secretory protein (CC10) has anti-inflammatory properties but is deficient in the premature infant. Because surfactant and vascular endothelial growth factor (VEGF) profiles are impaired by inflammation and CC10 inhibits lung inflammation, we hypothesized that CC10 may up-regulate surfactant protein (SP) and VEGF expression. Preterm lambs ( N = 24; 126 +/- 3 days [standard error] gestation) with IRDS were randomized to receive 100 mg/kg surfactant, 100 mg/kg surfactant followed by intratracheal 0.5, 1.5, or 5 mg/kg rhCC10 and studied for 4 hours. Gas exchange and lung mechanics were monitored; surfactant protein and VEGF mRNA profiles in lung were assessed. There was a significant rhCC10 dose-dependent increase in respiratory compliance and ventilation efficiency index; both parameters were significantly greater in animals treated with 5 mg/kg rhCC10 than those treated with surfactant alone. Similarly, there was a significant rhCC10 dose and protein-dependent increase in surfactant protein (SP-B > SP-C > SP-A) and dose- and isoform-dependent increase in VEGF (VEGF189 > VEGF165 > VEGF121). These data demonstrate that early intervention with rhCC10 up-regulates surfactant protein and VEGF expression, supporting the role of CC10 to protect against hyperoxia and mechanical ventilation in the immature lung.


Subject(s)
Pulmonary Surfactant-Associated Proteins/metabolism , RNA, Messenger/metabolism , Recombinant Proteins/pharmacology , Respiratory Distress Syndrome, Newborn/drug therapy , Uteroglobin/pharmacology , Vascular Endothelial Growth Factor A/metabolism , Animals , Animals, Newborn , Biological Products/pharmacology , Disease Models, Animal , Dose-Response Relationship, Drug , Humans , Infant, Newborn , Lung/metabolism , Pulmonary Surfactant-Associated Proteins/pharmacology , Pulmonary Surfactants/pharmacology , Random Allocation , Respiration, Artificial , Respiratory Distress Syndrome, Newborn/metabolism , Respiratory Function Tests , Sheep , Up-Regulation
9.
Mol Genet Genomic Med ; 3(4): 248-57, 2015 Jul.
Article in English | MEDLINE | ID: mdl-26247043

ABSTRACT

Proximal spinal muscular atrophy (SMA) is an early-onset motor neuron disease characterized by loss of α-motor neurons and associated muscle atrophy. SMA is caused by deletion or other disabling mutation of survival motor neuron 1 (SMN1). In the human genome, a large duplication of the SMN-containing region gives rise to a second copy of this gene (SMN2) that is distinguishable by a single nucleotide change in exon 7. Within the SMA population, there is substantial variation in SMN2 copy number; in general, those individuals with SMA who have a high SMN2 copy number have a milder disease. Because SMN2 functions as a disease modifier, its accurate copy number determination may have clinical relevance. In this study, we describe the development of an assay to assess SMN1 and SMN2 copy numbers in DNA samples using an array-based digital PCR (dPCR) system. This dPCR assay can accurately and reliably measure the number of SMN1 and SMN2 copies in DNA samples. In a cohort of SMA patient-derived cell lines, the assay confirmed a strong inverse correlation between SMN2 copy number and disease severity. Array dPCR is a practical technique to determine, accurately and reliably, SMN1 and SMN2 copy numbers from SMA samples.

10.
Mol Genet Genomic Med ; 1(2): 113-7, 2013 Jul.
Article in English | MEDLINE | ID: mdl-24498607

ABSTRACT

Spinal muscular atrophy (SMA), the most common autosomal recessive cause of infant death, is typically diagnosed by determination of SMN1 copy number. Approximately 3-5% of patients with SMA retain at least one copy of the SMN1 gene carrying pathogenic insertions, deletions, or point mutations. We report a patient with SMA who is homozygous for two mutations carried in cis: an 8 bp duplication (c.48_55dupGGATTCCG; p.Val19fs*24) and a point mutation (c.662C>T; p.Pro221Leu). The consanguineous parents carry the same two mutations within one SMN1 gene copy. We demonstrate that a more accurate diagnosis of the disease is obtained through a novel diagnostic assay and development of a capillary electrophoresis method to determine the copy number of their mutant alleles. This illustrates the complexity of SMN mutations and suggests additional testing (gene sequencing) may be appropriate when based on family lines.

11.
Obesity (Silver Spring) ; 18(9): 1747-53, 2010 Sep.
Article in English | MEDLINE | ID: mdl-20094040

ABSTRACT

The aims of this study are to examine in children: (i) obesity-related alterations in satiety factors such as leptin, ghrelin, and obestatin; (ii) the link between satiety factors and cardiometabolic risk factors; and (iii) the impact of a physical activity-based lifestyle intervention on the levels of these satiety factors in the obese. We studied a total of 21 adolescents (BMI percentile, 99.0 +/- 0.6 for 15 obese and 56.2 +/- 1.1 for 6 lean). The obese subjects underwent a 3-month randomized controlled physical activity-based lifestyle intervention. Leptin, soluble leptin receptor (sOB-R), ghrelin, and obestatin levels were determined as the primary outcome measures. Other markers of cardiometabolic disease such as inflammation and insulin resistance were also determined. Body composition was measured by dual-energy X-ray absorptiometry. The concentrations of ghrelin, obestatin, and sOB-R were significantly lower in the obese children compared to the lean controls, whereas that of leptin was higher (all P < 0.05). Although intervention led to a net increase in obestatin (P < 0.01) and no change in ghrelin levels, the balance between ghrelin and obestatin (ratio of ghrelin to obestatin, G/O) decreased (P < 0.02). Intervention reduced leptin and increased sOB-R (P < 0.01 for both). Significant associations between satiety factors and other cardiometabolic risk factors were also observed. Taken together, alterations in the levels of satiety factors are evident early in the clinical course of obesity, but physical activity-based lifestyle intervention either prevented their continued increase or normalized their levels. These beneficial effects appear to aid in the maintenance of body weight and reduction in cardiovascular risk.


Subject(s)
Exercise/physiology , Ghrelin/blood , Leptin/blood , Obesity/blood , Receptors, Leptin/blood , Satiation , Adolescent , Biomarkers/blood , Body Weight , Cardiovascular Diseases/prevention & control , Female , Humans , Inflammation , Insulin Resistance , Life Style , Male , Motor Activity , Obesity/therapy
12.
Fertil Steril ; 87(4): 976.e5-7, 2007 Apr.
Article in English | MEDLINE | ID: mdl-17241629

ABSTRACT

OBJECTIVE: To report recurrent transmissions of Barth syndrome through a single oocyte donor carrying a de novo TAZ mutation. DESIGN: Case report. SETTING: Clinical molecular diagnostics laboratory. PATIENT(S): Oocyte donor and individuals conceived with her oocytes. INTERVENTION(S): Molecular testing. MAIN OUTCOME MEASURE(S): Detection of TAZ mutation. RESULT(S): Multiple individuals affected with Barth syndrome conceived from a single oocyte donor who is a carrier of a de novo TAZ mutation. CONCLUSION(S): We report multiple transmissions of Barth syndrome through a single oocyte donor with a de novo TAZ mutation.


Subject(s)
Cardiomyopathy, Dilated/genetics , Genetic Diseases, X-Linked/genetics , Mutation , Oocyte Donation/adverse effects , Proteins/genetics , Transcription Factors/genetics , Acyltransferases , Cardiomyopathy, Dilated/etiology , Child, Preschool , Female , Genetic Diseases, X-Linked/etiology , Humans , Male , Syndrome
13.
Neurogenetics ; 8(4): 271-8, 2007 Nov.
Article in English | MEDLINE | ID: mdl-17647030

ABSTRACT

Spinal muscular atrophy (SMA) is an autosomal recessive disease caused by mutation or deletion of the survival motor neuron gene 1 (SMN1). The highly homologous gene, SMN2, is present in all patients, but it cannot compensate for loss of SMN1. SMN2 differs from SMN1 by a few nucleotide changes, but a C --> T transition in exon 7 leads to exon skipping. As a result, most transcripts from the SMN2 gene lack exon 7. Although SMN1 is the disease-determining gene, the number of SMN2 copies appears to modulate SMA clinical phenotypes. Thus, determining the SMN copy number is important for clinical diagnosis and prognosis. We have developed a quantitative real-time TaqMan polymerase chain reaction assay for both the SMN1 and SMN2 genes, in which reliable copy number determination was possible on deoxyribonucleic acid samples obtained by two different isolation methods and from two different sources (human blood and skin fibroblasts). For SMN1, allele specificity was attained solely by addition of an allele-specific forward primer and, for SMN2, by addition of a specific forward primer and a nonextending oligonucleotide (SMN1 blocker) that reduced nonspecific amplification from SMN1 to a negligible level. We validated the reliability of this real-time polymerase chain reaction approach and found that the coefficient of variation for all the gene copy number measurements was below 10%. Quantitative analysis of the SMN copy number in SMA fibroblasts by this approach showed deletion of SMN1 and an inverse correlation between the SMN2 copy number and severity of the disease.


Subject(s)
Cyclic AMP Response Element-Binding Protein/genetics , Gene Dosage , Muscular Atrophy, Spinal/genetics , Nerve Tissue Proteins/genetics , Polymerase Chain Reaction/methods , RNA-Binding Proteins/genetics , Alleles , Base Sequence , Case-Control Studies , Cell Line , DNA Primers/genetics , Fibroblasts/metabolism , Gene Deletion , Humans , SMN Complex Proteins , Survival of Motor Neuron 1 Protein , Survival of Motor Neuron 2 Protein
14.
Pediatr Res ; 60(2): 200-4, 2006 Aug.
Article in English | MEDLINE | ID: mdl-16864704

ABSTRACT

Pulmonary alveolar type II cells synthesize and secrete phospholipids and surfactant proteins. In most mammalian species, the synthesis of phospholipids and proteins of lung surfactant increases with fetal lung maturation, which occurs late in gestation. Factors that may promote lung maturation and surfactant production include the placental hormone, leptin, whose expression increases with advancing gestational age. We demonstrate that physiologic concentrations of leptin (1 and 10 ng/mL) increase the levels of surfactant proteins (SP) A, B, and C mRNA as well as SP-A and SP-B protein in d-17 fetal rat lung explants in vitro. To determine whether leptin exerts similar effects in vivo, we administered leptin antenatally to pregnant rats and compared its effects to that of dexamethasone, a known mediator of fetal lung development. Antenatal treatment with leptin for 2 d significantly increased the average weight of the fetal lungs in relation to their body weight. Histologic analysis revealed that the increase in fetal lung weight was accompanied by an increase in the number and maturation of type II alveolar cells and the expression of surfactant proteins B and C in these cells. Collectively, these results suggest that leptin is a cytokine regulator of rat fetal lung maturity.


Subject(s)
Fetal Development/drug effects , Fetus/drug effects , Leptin/pharmacology , Lung/growth & development , Pulmonary Surfactant-Associated Proteins/metabolism , Animals , Female , Fetal Development/physiology , Fetus/chemistry , Fetus/physiology , Leptin/physiology , Pregnancy , Pulmonary Surfactant-Associated Proteins/analysis , Pulmonary Surfactant-Associated Proteins/genetics , RNA, Messenger/analysis , RNA, Messenger/metabolism , Rats , Rats, Sprague-Dawley
15.
Mol Genet Metab ; 85(1): 38-45, 2005 May.
Article in English | MEDLINE | ID: mdl-15862279

ABSTRACT

Spinal muscular atrophy (SMA) is a neuromuscular disease caused by deletions or mutations in the telomeric copy of the survival motor neuron (SMN1) gene. Although the SMN protein has been implicated in the biogenesis of ribonucleoprotein complexes and RNA processing, it is not clear how these functions contribute to the pathogenesis of SMA. To gain a further understanding of SMN function, we have investigated its role in cell survival in skin fibroblasts derived from SMA patients and age-matched controls. SMA fibroblasts exposed to camptothecin, a specific inhibitor of DNA topoisomerase I, consistently showed cell death at a lower concentration than normal controls. Treatment with other cell death-inducing agents did not cause differences in survival of SMA fibroblasts as compared with control fibroblasts. Camptothecin treatment resulted in activation of caspase-3 with generation of the caspase-3 cleavage product, poly ADP-ribose polymerase (PARP). Depletion of SMN protein by RNA interference in control fibroblasts increased caspase-3 activity, whereas transfection of SMA fibroblasts with wild-type SMN decreased caspase-3 activity. Our data demonstrate that SMA fibroblasts are more prone to some, but not all, death-stimuli. Vulnerability to death-stimuli is associated with decreased levels of SMN protein and is mediated by activation of caspase-3.


Subject(s)
Camptothecin/toxicity , Fibroblasts/pathology , Muscular Atrophy, Spinal/pathology , Atrophy , Base Sequence , Biopsy , Cell Death/drug effects , Cell Survival , Fibroblasts/drug effects , Humans , Molecular Sequence Data , Motor Neurons/pathology , Muscular Atrophy, Spinal/genetics , Nucleic Acid Conformation , RNA/chemistry , RNA/genetics , Sequence Deletion , Skin/pathology , Telomere/genetics , Vitamin K 3/toxicity
16.
Med Sci Monit ; 8(3): CR206-10, 2002 Mar.
Article in English | MEDLINE | ID: mdl-11889458

ABSTRACT

BACKGROUND: Previous studies have examined the relationship between leptin, body mass, and pubertal status. The present study directly compares the relationship of leptin and estradiol in 5 groups of girls with different combinations of pubertal status and weight. MATERIAL/METHODS: We studied girls with idiopathic precocious puberty, age-matched non-obese prepubertal girls, age-matched obese prepubertal girls, normal pubertal girls, and obese pubertal girls (n=12/group). RESULTS: Leptin levels were significantly higher in obese pubertal girls (26.6+/-8.4 ng/mL) than in all others. Leptin levels were significantly higher in obese prepubertal girls (20.7+/-10.9 ng/mL) (mean+/-SD) compared to girls with precocious puberty (7.7+/-5.4 ng/mL, p<0.004), non-obese prepubertal girls (5.55+/-3.6 ng/mL, p<0.001), and normal pubertal girls (4.8+/-2.9 ng/mL, p<0.001). Leptin level did not correlate significantly with estradiol level. Leptin-SDS (standard deviation score), which corrects leptin level for gender, pubertal stage, and BMI, was significantly lower in the obese pubertal group than in the 3 non-obese groups. CONCLUSIONS: These findings confirm previous studies that body mass, chronological age and pubertal stage are determinants of leptin level. However, these are not the only factors determining leptin level as evidenced by persistent differences in leptin level between obese and non-obese pubertal girls even when correcting for pubertal stage and BMI. While the present study provides no new answers to the question of pubertal regulation, it provides a direct comparison of combinations of weight, pubertal stage, and leptin level, as background for future studies.


Subject(s)
Body Weight , Estradiol/blood , Leptin/blood , Puberty , Body Mass Index , Case-Control Studies , Child , Female , Humans , Obesity/blood , Puberty, Precocious/blood
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