OBJECTIVE: To determine the cause and extent of hypocalcemia observed in children after severe burns. DESIGN: We studied 10 children with burns covering 57% +/- 17% (SD) body surface area, ages 9.6 +/- 4.7 years, who were admitted consecutively during a 6-month period. Diet supplied a minimum of 2.7 gm/m2 of calcium, 0.3 gm/m2 of magnesium, and 2.2 gm/m2 phosphate. Blood specimens were obtained daily for 10 +/- 5 days for the following tests: (1) simultaneous analysis for ionized calcium, magnesium, and intact parathyroid hormone (group A); (2) two of these children, randomly selected, had serial 2-hour determinations on a single day (group B); (3) a modified Ellsworth-Howard test, consisting of a 10-minute infusion of synthetic parathyroid hormone 18 +/- 10 days post-burn and associated changes in urinary cyclic adenosine monophosphate excretion and renal threshold phosphate concentration (group C). Three of these children, when normomagnesemic, also received a standard magnesium infusion to determine magnesium retention (group D). Data were analyzed with chi-square, regression analysis, and non-parametric testing as appropriate. RESULTS: All patients showed sustained hypocalcemia and hypomagnesemia; intact parathyroid hormone response was inappropriately low and response to synthetic parathyroid hormone infusion was blunted. Lowest ionized calcium levels were associated with hypomagnesemia. CONCLUSION: Hypoparathyroidism and blunted renal response to parathyroid hormone suggest that magnesium depletion may contribute to their pathogenesis. Magnesium repletion and monitoring are recommended.
OBJECTIVE: To determine the cause and extent of hypocalcemia observed in children after severe burns. DESIGN: We studied 10 children with burns covering 57% +/- 17% (SD) body surface area, ages 9.6 +/- 4.7 years, who were admitted consecutively during a 6-month period. Diet supplied a minimum of 2.7 gm/m2 of calcium, 0.3 gm/m2 of magnesium, and 2.2 gm/m2 phosphate. Blood specimens were obtained daily for 10 +/- 5 days for the following tests: (1) simultaneous analysis for ionizedcalcium, magnesium, and intact parathyroid hormone (group A); (2) two of these children, randomly selected, had serial 2-hour determinations on a single day (group B); (3) a modified Ellsworth-Howard test, consisting of a 10-minute infusion of synthetic parathyroid hormone 18 +/- 10 days post-burn and associated changes in urinary cyclic adenosine monophosphate excretion and renal threshold phosphate concentration (group C). Three of these children, when normomagnesemic, also received a standard magnesium infusion to determine magnesium retention (group D). Data were analyzed with chi-square, regression analysis, and non-parametric testing as appropriate. RESULTS: All patients showed sustained hypocalcemia and hypomagnesemia; intact parathyroid hormone response was inappropriately low and response to synthetic parathyroid hormone infusion was blunted. Lowest ionizedcalcium levels were associated with hypomagnesemia. CONCLUSION:Hypoparathyroidism and blunted renal response to parathyroid hormone suggest that magnesium depletion may contribute to their pathogenesis. Magnesium repletion and monitoring are recommended.
Authors: Gordon L Klein; David N Herndon; Phuong T Le; Clark R Andersen; Debra Benjamin; Clifford J Rosen Journal: Burns Date: 2015-04-25 Impact factor: 2.744
Authors: Gordon L Klein; David N Herndon; Tai C Chen; Gabriela Kulp; Michael F Holick Journal: J Bone Miner Metab Date: 2009-03-17 Impact factor: 2.626
Authors: Gordon L Klein; Sunil J Wimalawansa; Gayathri Kulkarni; Donald J Sherrard; Arthur P Sanford; David N Herndon Journal: Osteoporos Int Date: 2004-09-28 Impact factor: 4.507
Authors: Gordon L Klein; Lin Xiang Bi; Donald J Sherrard; Sian R Beavan; Deborah Ireland; Juliet E Compston; W Geoffrey Williams; David N Herndon Journal: Osteoporos Int Date: 2004-02-27 Impact factor: 4.507
Authors: Felicia N Williams; Marc G Jeschke; David L Chinkes; Oscar E Suman; Ludwik K Branski; David N Herndon Journal: J Am Coll Surg Date: 2009-04 Impact factor: 6.113