Vitamin D status and muscle function in post-menarchal adolescent girls.

CONTEXT There has been a resurgence of vitamin D deficiency among infants, toddlers, and adolescents in the United Kingdom. Myopathy is an important clinical symptom of vitamin D deficiency, yet it has not been widely studied. OBJECTIVE Our objective was to investigate the relationship of baseline serum 25 hydroxyvitamin D [25(OH)D] concentration and PTH with muscle power and force. DESIGN This was a cross-sectional study. SETTING The study was community based in a secondary school. PARTICIPANTS A total of 99 post-menarchal 12- to 14-yr-old females was included in the study. MAIN OUTCOME MEASURES Jumping mechanography to measure muscle power, velocity, jump height, and Esslinger Fitness Index from a two-legged counter movement jump and force from multiple one-legged hops was performed. Body height, weight, and serum concentrations of 25(OH)D, PTH, and calcium were measured. RESULTS Median serum 25(OH)D concentration was 21.3 nmol/liter (range 2.5-88.5) and PTH 3.7 pmol/liter (range 0.47-26.2). After correction for weight using a quadratic function, there was a positive relationship between 25(OH)D and jump velocity (P = 0.002), jump height (P = 0.005), power (P = 0.003), Esslinger Fitness Index (P = 0.003), and force (P = 0.05). There was a negative effect of PTH upon jump velocity (P = 0.04). CONCLUSION From these data we conclude that vitamin D was significantly associated with muscle power and force in adolescent girls.

[1]  M. Misra,et al.  Vitamin D Deficiency in Children and Its Management: Review of Current Knowledge and Recommendations , 2008, Pediatrics.

[2]  P. Vestergaard,et al.  Parathyroid response to vitamin D insufficiency: relations to bone, body composition and to lifestyle characteristics , 2008, Clinical endocrinology.

[3]  J. Kichler,et al.  Hypovitaminosis D in obese children and adolescents: relationship with adiposity, insulin sensitivity, ethnicity, and season. , 2008, Metabolism: clinical and experimental.

[4]  A. Silman,et al.  Forearm bone geometry and mineral content in UK women of European and South-Asian origin. , 2007, Bone.

[5]  R. Vieth,et al.  Effect of vitamin D replacement on musculoskeletal parameters in school children: a randomized controlled trial. , 2006, The Journal of clinical endocrinology and metabolism.

[6]  E. Schoenau,et al.  Mechanography—A New Device for the Assessment of Muscle Function in Pediatrics , 2006, Pediatric Research.

[7]  J. Berry,et al.  Hypovitaminosis D among healthy adolescent girls attending an inner city school , 2005, Archives of Disease in Childhood.

[8]  Manuel Montero-Odasso,et al.  Vitamin D in the aging musculoskeletal system: an authentic strength preserving hormone. , 2005, Molecular aspects of medicine.

[9]  A Heinonen,et al.  Ground reaction forces associated with an effective elementary school based jumping intervention , 2004, British Journal of Sports Medicine.

[10]  Dieter Felsenberg,et al.  Is muscle power output a key factor in the age‐related decline in physical performance? A comparison of muscle cross section, chair‐rising test and jumping power , 2004, Clinical physiology and functional imaging.

[11]  S. Ladhani,et al.  Presentation of vitamin D deficiency , 2004, Archives of Disease in Childhood.

[12]  J. Berry,et al.  Symptomatic vitamin D deficiency among non-Caucasian adolescents living in the United Kingdom , 2004, Archives of Disease in Childhood.

[13]  Dieter Felsenberg,et al.  Reproducibility of the Jumping Mechanography As a Test of Mechanical Power Output in Physically Competent Adult and Elderly Subjects , 2004, Journal of the American Geriatrics Society.

[14]  Marjolein Visser,et al.  Low vitamin D and high parathyroid hormone levels as determinants of loss of muscle strength and muscle mass (sarcopenia): the Longitudinal Aging Study Amsterdam. , 2003, The Journal of clinical endocrinology and metabolism.

[15]  K. White,et al.  Hypophosphatemia, osteomalacia and proximal muscle weakness treated by surgery. , 2003, Clinical endocrinology.

[16]  N. Bishop,et al.  Rickets , 1906, The Lancet.

[17]  M. Mughal,et al.  The prevalence of rickets among non-Caucasian children , 2002, Archives of disease in childhood.

[18]  F. Rauch,et al.  Bone Mineral Content per Muscle Cross‐Sectional Area as an Index of the Functional Muscle‐Bone Unit , 2002, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[19]  N. Shaw,et al.  Vitamin D deficiency in UK Asian families: activating a new concern , 2002, Archives of disease in childhood.

[20]  F. Rauch,et al.  Analysis of cancellous bone turnover by multiple slice analysis at distal radius: a study using peripheral quantitative computed tomography. , 2001, Journal of clinical densitometry : the official journal of the International Society for Clinical Densitometry.

[21]  H. Glerup,et al.  Hypovitaminosis D Myopathy Without Biochemical Signs of Osteomalacic Bone Involvement , 2000, Calcified Tissue International.

[22]  I. Laing,et al.  Florid rickets associated with prolonged breast feeding without vitamin D supplementation , 1999, BMJ.

[23]  T J Cole,et al.  British 1990 growth reference centiles for weight, height, body mass index and head circumference fitted by maximum penalized likelihood. , 1998, Statistics in medicine.

[24]  R. Maughan,et al.  Biochemistry Of Exercise And Training , 1997 .

[25]  T J Cole,et al.  Cross sectional stature and weight reference curves for the UK, 1990. , 1995, Archives of disease in childhood.

[26]  S. Sheen-Chen,et al.  Neuromuscular recovery after parathyroidectomy in primary hyperparathyroidism. , 1995, Surgery.

[27]  A. Kristoffersson,et al.  Muscle strength is improved after parathyroidectomy in patients with primary hyperparathyroidism , 1992, The British journal of surgery.

[28]  W. V. Tilburg,et al.  Longitudinal Aging Study Amsterdam , 1990 .

[29]  H. Frost Bone “mass” and the “mechanostat”: A proposal , 1987, The Anatomical record.

[30]  T. Imamura,et al.  Osteomalacic myopathy. , 1979, Endocrinologia japonica.

[31]  G. Cavagna Force platforms as ergometers. , 1975, Journal of applied physiology.

[32]  C. T. M. DAVIES,et al.  Human Power Output , 1968, Nature.

[33]  W. Gowers,et al.  A Manual of Diseases of the Nervous System , 1887, Edinburgh Medical Journal.