Huihao Jiang1, Xiaocheng Zhou2, Guoan Zhang1. 1. Peking University Fourth School of Clinical Medicine, Department of Burns, Beijing Jishuitan Hospital Xinjiekoudongjie Street 31, Xicheng District, Beijing, PR China. 2. Department of Plastic Surgery, First Hospital of Tsinghua University Beijing, PR China.
Abstract
OBJECTIVE: Inhalation injuries, especially laryngeal injuries, threaten the lives of burn patients. Unlike studies on temperature distribution in the upper airway, studies on temperature development in different laryngeal layers, including the mucosa, lamina propria, cartilage, muscle, and subcutaneous layer, are lacking. METHOD: For the in-vivo study, 16 healthy adult male beagles were divided into four groups: control, low-, medium-, and high-heat groups, inhaling dry air at 26, 80, 160, and 320°C for 20 min, with temperature probes punctured through skin into layers as mentioned, and heat energy was calculated. For the in-vitro study, we heated human lung fibroblasts and bronchial epithelial cells using a similar heating profile with heat energy of 15-90 J/g to investigate cell survival and viability for clinical comparison. RESULTS: No statistical difference emerged between the temperatures of different laryngeal layers at each timepoint. The temperatures decreased significantly and shortly before increasing unevenly in the low- and medium-heat groups. The survival rates and viability of the two cell lines correlated negatively with heat energy. The heat energy absorbed in the low-, medium-, and high-heat groups of beagles were 12, 29, and 44 J/g, with calculated in-vitro human cell survival rates of 114%, 90%, and 69%, respectively, for the corresponding energy levels. CONCLUSIONS: The abnormal temperature processing and lack of a difference between layers indicate an effective self-protective mechanism of heat conduction in larynx. The in-vitro results demonstrate a high survival rate of lung cells at comparable heat energy levels to those measured in the larynx. AJTR
OBJECTIVE: Inhalation injuries, especially laryngeal injuries, threaten the lives of burn patients. Unlike studies on temperature distribution in the upper airway, studies on temperature development in different laryngeal layers, including the mucosa, lamina propria, cartilage, muscle, and subcutaneous layer, are lacking. METHOD: For the in-vivo study, 16 healthy adult male beagles were divided into four groups: control, low-, medium-, and high-heat groups, inhaling dry air at 26, 80, 160, and 320°C for 20 min, with temperature probes punctured through skin into layers as mentioned, and heat energy was calculated. For the in-vitro study, we heated human lung fibroblasts and bronchial epithelial cells using a similar heating profile with heat energy of 15-90 J/g to investigate cell survival and viability for clinical comparison. RESULTS: No statistical difference emerged between the temperatures of different laryngeal layers at each timepoint. The temperatures decreased significantly and shortly before increasing unevenly in the low- and medium-heat groups. The survival rates and viability of the two cell lines correlated negatively with heat energy. The heat energy absorbed in the low-, medium-, and high-heat groups of beagles were 12, 29, and 44 J/g, with calculated in-vitro human cell survival rates of 114%, 90%, and 69%, respectively, for the corresponding energy levels. CONCLUSIONS: The abnormal temperature processing and lack of a difference between layers indicate an effective self-protective mechanism of heat conduction in larynx. The in-vitro results demonstrate a high survival rate of lung cells at comparable heat energy levels to those measured in the larynx. AJTR
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