Growth hormone deficiency and hyperthermia during exercise: a controlled study of sixteen GH-deficient patients

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Standard

Growth hormone deficiency and hyperthermia during exercise : a controlled study of sixteen GH-deficient patients. / Juul, A; Hjortskov, N; Jepsen, Leif; Nielsen, B; Halkjaer-Kristensen, J; Vahl, N; Jørgensen, J O; Christiansen, J S; Skakkebaek, N E.

In: Journal of Clinical Endocrinology and Metabolism, Vol. 80, No. 11, 1995, p. 3335-40.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Juul, A, Hjortskov, N, Jepsen, L, Nielsen, B, Halkjaer-Kristensen, J, Vahl, N, Jørgensen, JO, Christiansen, JS & Skakkebaek, NE 1995, 'Growth hormone deficiency and hyperthermia during exercise: a controlled study of sixteen GH-deficient patients', Journal of Clinical Endocrinology and Metabolism, vol. 80, no. 11, pp. 3335-40.

APA

Juul, A., Hjortskov, N., Jepsen, L., Nielsen, B., Halkjaer-Kristensen, J., Vahl, N., Jørgensen, J. O., Christiansen, J. S., & Skakkebaek, N. E. (1995). Growth hormone deficiency and hyperthermia during exercise: a controlled study of sixteen GH-deficient patients. Journal of Clinical Endocrinology and Metabolism, 80(11), 3335-40.

Vancouver

Juul A, Hjortskov N, Jepsen L, Nielsen B, Halkjaer-Kristensen J, Vahl N et al. Growth hormone deficiency and hyperthermia during exercise: a controlled study of sixteen GH-deficient patients. Journal of Clinical Endocrinology and Metabolism. 1995;80(11):3335-40.

Author

Juul, A ; Hjortskov, N ; Jepsen, Leif ; Nielsen, B ; Halkjaer-Kristensen, J ; Vahl, N ; Jørgensen, J O ; Christiansen, J S ; Skakkebaek, N E. / Growth hormone deficiency and hyperthermia during exercise : a controlled study of sixteen GH-deficient patients. In: Journal of Clinical Endocrinology and Metabolism. 1995 ; Vol. 80, No. 11. pp. 3335-40.

Bibtex

@article{8c4bd17f512f47babda6aeea55969f61,
title = "Growth hormone deficiency and hyperthermia during exercise: a controlled study of sixteen GH-deficient patients",
abstract = "Sweat secretion is often disturbed in patients with GH secretory disorders. Hyperhidrosis is a classic feature of acromegaly, and it has recently been shown that GH-deficient patients exhibit decreased sweating capacity after pilocarpine stimulation of the skin. Thus, patients with GH-deficiency may be at risk for developing hyperthermia. To pursue this, we performed a controlled study on sweating and body temperature regulation during exercise in the heat in 16 GH-treated GH-deficient patients with normalized insulin-like growth factor-I and insulin-like growth factor/binding protein-3 serum levels [11 with multiple pituitary deficiency (MPD) and 5 with isolated GH deficiency] and in 10 healthy subjects as controls (CTs). Each subject exercised on a bicycle ergometer for 60 min at a workload corresponding to 45% of their individual maximal oxygen consumption (VO2max), in a room maintained at 35 C. GH serum concentrations increased significantly after approximately 10 min of exercise in the CTs (P <0.001) but remained low in the patients. Body heat storage was significantly higher in the patients compared with the CTs [89 (SE +/- 10) watts (MPD) vs. 37 (SE +/- 8) watts (CTs), P <0.001]. Consequently, the core temperatures of the patients increased significantly after exercise compared with those of the CTs [38.3 C (0.10 C) (MPD) and 38.1 C (0.06 C) (isolated GH deficiency) vs. 37.5 C (0.2 C) (CTs) (P <0.004)]. Skin temperature increased significantly during exercise in the patients but remained unaltered in the CTs. Sweat secretion rates, as determined by the pilocarpine method, were significantly lower in the MPD patients [77 (SE +/- 10) mg/30 min] than in the CTs [115 (SE +/- 7) mg/30 min] (P <0.005). Total body sweating was lower in the patients than in the CTs, although the difference did not reach statistical significance. Significantly reduced estimated evaporative heat loss was demonstrated in the patients compared with the CTs (P <0.001). In conclusion, 1) decreased sweating, decreased sensitivity of the sweat gland, and impaired thermoregulation are part of the adult GH-deficiency syndrome, and 2) GH-deficient patients are at risk for developing hyperthermia during physical activity in hot environments.",
author = "A Juul and N Hjortskov and Leif Jepsen and B Nielsen and J Halkjaer-Kristensen and N Vahl and J{\o}rgensen, {J O} and Christiansen, {J S} and Skakkebaek, {N E}",
year = "1995",
language = "English",
volume = "80",
pages = "3335--40",
journal = "Journal of Clinical Endocrinology and Metabolism",
issn = "0021-972X",
publisher = "Oxford University Press",
number = "11",

}

RIS

TY - JOUR

T1 - Growth hormone deficiency and hyperthermia during exercise

T2 - a controlled study of sixteen GH-deficient patients

AU - Juul, A

AU - Hjortskov, N

AU - Jepsen, Leif

AU - Nielsen, B

AU - Halkjaer-Kristensen, J

AU - Vahl, N

AU - Jørgensen, J O

AU - Christiansen, J S

AU - Skakkebaek, N E

PY - 1995

Y1 - 1995

N2 - Sweat secretion is often disturbed in patients with GH secretory disorders. Hyperhidrosis is a classic feature of acromegaly, and it has recently been shown that GH-deficient patients exhibit decreased sweating capacity after pilocarpine stimulation of the skin. Thus, patients with GH-deficiency may be at risk for developing hyperthermia. To pursue this, we performed a controlled study on sweating and body temperature regulation during exercise in the heat in 16 GH-treated GH-deficient patients with normalized insulin-like growth factor-I and insulin-like growth factor/binding protein-3 serum levels [11 with multiple pituitary deficiency (MPD) and 5 with isolated GH deficiency] and in 10 healthy subjects as controls (CTs). Each subject exercised on a bicycle ergometer for 60 min at a workload corresponding to 45% of their individual maximal oxygen consumption (VO2max), in a room maintained at 35 C. GH serum concentrations increased significantly after approximately 10 min of exercise in the CTs (P <0.001) but remained low in the patients. Body heat storage was significantly higher in the patients compared with the CTs [89 (SE +/- 10) watts (MPD) vs. 37 (SE +/- 8) watts (CTs), P <0.001]. Consequently, the core temperatures of the patients increased significantly after exercise compared with those of the CTs [38.3 C (0.10 C) (MPD) and 38.1 C (0.06 C) (isolated GH deficiency) vs. 37.5 C (0.2 C) (CTs) (P <0.004)]. Skin temperature increased significantly during exercise in the patients but remained unaltered in the CTs. Sweat secretion rates, as determined by the pilocarpine method, were significantly lower in the MPD patients [77 (SE +/- 10) mg/30 min] than in the CTs [115 (SE +/- 7) mg/30 min] (P <0.005). Total body sweating was lower in the patients than in the CTs, although the difference did not reach statistical significance. Significantly reduced estimated evaporative heat loss was demonstrated in the patients compared with the CTs (P <0.001). In conclusion, 1) decreased sweating, decreased sensitivity of the sweat gland, and impaired thermoregulation are part of the adult GH-deficiency syndrome, and 2) GH-deficient patients are at risk for developing hyperthermia during physical activity in hot environments.

AB - Sweat secretion is often disturbed in patients with GH secretory disorders. Hyperhidrosis is a classic feature of acromegaly, and it has recently been shown that GH-deficient patients exhibit decreased sweating capacity after pilocarpine stimulation of the skin. Thus, patients with GH-deficiency may be at risk for developing hyperthermia. To pursue this, we performed a controlled study on sweating and body temperature regulation during exercise in the heat in 16 GH-treated GH-deficient patients with normalized insulin-like growth factor-I and insulin-like growth factor/binding protein-3 serum levels [11 with multiple pituitary deficiency (MPD) and 5 with isolated GH deficiency] and in 10 healthy subjects as controls (CTs). Each subject exercised on a bicycle ergometer for 60 min at a workload corresponding to 45% of their individual maximal oxygen consumption (VO2max), in a room maintained at 35 C. GH serum concentrations increased significantly after approximately 10 min of exercise in the CTs (P <0.001) but remained low in the patients. Body heat storage was significantly higher in the patients compared with the CTs [89 (SE +/- 10) watts (MPD) vs. 37 (SE +/- 8) watts (CTs), P <0.001]. Consequently, the core temperatures of the patients increased significantly after exercise compared with those of the CTs [38.3 C (0.10 C) (MPD) and 38.1 C (0.06 C) (isolated GH deficiency) vs. 37.5 C (0.2 C) (CTs) (P <0.004)]. Skin temperature increased significantly during exercise in the patients but remained unaltered in the CTs. Sweat secretion rates, as determined by the pilocarpine method, were significantly lower in the MPD patients [77 (SE +/- 10) mg/30 min] than in the CTs [115 (SE +/- 7) mg/30 min] (P <0.005). Total body sweating was lower in the patients than in the CTs, although the difference did not reach statistical significance. Significantly reduced estimated evaporative heat loss was demonstrated in the patients compared with the CTs (P <0.001). In conclusion, 1) decreased sweating, decreased sensitivity of the sweat gland, and impaired thermoregulation are part of the adult GH-deficiency syndrome, and 2) GH-deficient patients are at risk for developing hyperthermia during physical activity in hot environments.

M3 - Journal article

VL - 80

SP - 3335

EP - 3340

JO - Journal of Clinical Endocrinology and Metabolism

JF - Journal of Clinical Endocrinology and Metabolism

SN - 0021-972X

IS - 11

ER -

ID: 48486586