No abstract available.
Heat Stroke

No abstract available.
Heat-Shock Proteins* ; Hot Temperature*

No abstract available.
Diagnosis* ; Heat Stroke* ; Hot Temperature*

No abstract available.
Atrophy* ; Heat Stroke* ; Hot Temperature*

No abstract available.
Heat-Shock Proteins* ; Hot Temperature*

No abstract available.
Heat-Shock Proteins* ; Hot Temperature*

Heat Stroke ; Humans ; Occupational Diseases

Heat disorders are not uncommon in the military society due to supposedly hard training to overcome the environmental conditions. Twenty-two soldiers with heat disorders were admitted to Chin Hae Naval Hospital June 1969 through July 1970. Hoping that our clinical studies on them contribute to a renewed understanding, the results are reported in summary as follows: 1) Heat disorders occurred with an overall incidence of 3.1 per cent during running in early summer. 2) Of the twenty-two patients, eight (37 per cent) had heat cramps, six (27 per cent) heat exhaustion, five(23 per cent) heat stroke, and three(13 per cent) had undetermined disorder. 3) Ten patients(45 per cent) were comatous, and this occurred most frequently(80 per cent) among those with heat stroke. 4) All patients were grouped into four according to their physical status on admission. Those with heat exhaustion mostly belonged to group I (good) or group II (fair). Those with heat stroke and heat cramps eomprised most of group III (poor) and group IV (grave). 5) Group I and II patients recovered within 12 hours; group III, within 12~24 hours; and group IV, required more than 24 hours of care. 6) One patient with heat stroke, graded V, expired with sudden hypothermia 15 hours following admission. Overall mortality of heat disorders was 4.5 per cent, and that of heat stroke 20 per cent. 7) The rest recovered uneventfully within 19 hours of average.
Chin ; Emergencies* ; Heat Exhaustion ; Heat Stress Disorders ; Heat Stroke ; Hope ; Hot Temperature* ; Humans ; Hypothermia ; Incidence ; Military Personnel ; Mortality ; Running

No abstract available.
Acute Kidney Injury* ; Heat Stroke* ; Hot Temperature*

PURPOSE: To investigate if the use of the infrared warm compression device often used in clinical settings induced heat shock proteins. METHODS: Subjects were heat-treated with an infrared warm compression device for 20 minutes. We examined the temperature of the upper eyelid and cornea before and after heat treatment and images were obtained by Digital Infrared Thermal Imaging System. After 6 hours of heat treatment, conjunctival epithelial cells were obtained by gently pressing nitrocellulose paper on the conjunctival surface for 3 to 5 seconds Immunocytochemical staining analysis was performed on the obtained samples. Tear samples were obtained prior to heat treatment and Western blot was performed to observe the expression patterns of heat shock proteins 27, 47, 70, and 90. RESULTS: By Western blot and immunocytochemical analysis, heat shock proteins 70 and 27 were significantly increased in the heat-treated samples. However, no difference was observed for heat shock proteins 47 and 90 before and after heat treatment, according to the immunocytochemical analysis. On Western blot, heat shock protein 47 was slightly increased by heat treatment but heat shock protein 90 did not show a significant difference after heat treatment. CONCLUSIONS: It was observed that the infrared warm compression device significantly increased the induction of heat shock proteins 27 and 70, and that 47 was also slightly induced. This result suggests that the device developed herein could be used as a new therapeutic modality for the reduction of inflammatory cell injury through the induction of heat shock proteins.
Blotting, Western ; Collodion ; Cornea ; Epithelial Cells ; Eyelids ; Heat-Shock Proteins* ; Hot Temperature* ; HSP27 Heat-Shock Proteins ; HSP47 Heat-Shock Proteins ; HSP70 Heat-Shock Proteins