A micro direct methanol fuel cell (μDMFC) using MEMS technology is reported. The prototype features a unique 3D air-breathing cathode structure fabricated using KOH etching and double-side lithography. The optimiza...A micro direct methanol fuel cell (μDMFC) using MEMS technology is reported. The prototype features a unique 3D air-breathing cathode structure fabricated using KOH etching and double-side lithography. The optimization of the MEMS fabrication process is analyzed. The experimental results show the prototype generates a maximum power density of 2.52mW/cm^2 at room temperature. This performance is better than the published resuits of other silicon-based passive μDMFCs. Moreover,it is comparable with that of our previous active μDMFCs which require an external pump, certificating the feasibility of this new configuration.展开更多
Continuous and dynamic measurements of human respiratory parameters are very important for vital diseases of respiratory system during mechanical ventilation. This paper analyzed the structure and mechanical propertie...Continuous and dynamic measurements of human respiratory parameters are very important for vital diseases of respiratory system during mechanical ventilation. This paper analyzed the structure and mechanical properties of the human respiratory system, and designed an active intervening monitoring micro system for it. The mobile mechanism of the micro system is soft and earthworm-like movement actuated by pneumatic rubber actuator, the measurement and therapy unit of the system is an extensible mechanism with sensors in the front. The micro monitoring system can move in respiratory tract and measure the respiratory parameters in bronchium continuously. Experiments had been done in swine's respiratory tract, the results proved that the micro robot system could measure the respiratory parameters in real-time successfully and its movement was smith in swine's respiratory tract.展开更多
AIM:To investigate the possible reasons and suggest therapeutic plan of stress-induced intestinal necrosis resulting from the severe trauma.METHODS:Three patients in our study were trapped inside collapsed structures ...AIM:To investigate the possible reasons and suggest therapeutic plan of stress-induced intestinal necrosis resulting from the severe trauma.METHODS:Three patients in our study were trapped inside collapsed structures for 22,21 and 37 h,respectively,The patients underwent 3-4 operations after sustaining their injuries,Mechanical ventilation,intermittent hemodialysis and other treatments were also provided.The patients showed signs of peritoneal irritation on postoperative days 10-38.Small intestinal necrosis was confirmed by emergency laparotomy,and for each patient,part of the small bowel was removed.RESULTS:Two patients who all performed 3 operations died of respiratory complications on the first and second postoperative days respectively.The third patient who performed 4 operations was discharged and made a full recovery.Three patients had the following common characteristics:(1) Multiple severe trauma events with no direct penetrating gastrointestinal injury;(2) Multiple surgeries with impaired renal function and intermittent hemodialysis treatment;(3) Progressive abdominal pain and tenderness,and peritoneal irritation was present on post-traumatic days 10-38;(4) Abdominal operations confirmed segment ulcer,necrosis of the small intestine,hyperplasia and stiffness of the intestinal wall;and(5) Pathological examinations suggested submucosal hemorrhage,necrosis,fibrosis and hyalinization of the vascular wall.Pathological examinations of all 3 patients suggested intestinal necrosis with fistulas.CONCLUSION:Intestinal necrosis is strongly associated with stress from trauma and post-traumatic complications;timely exploratory laparotomy maybe an effective method for preventing and treating stressinduced intestinal necrosis.展开更多
文摘A micro direct methanol fuel cell (μDMFC) using MEMS technology is reported. The prototype features a unique 3D air-breathing cathode structure fabricated using KOH etching and double-side lithography. The optimization of the MEMS fabrication process is analyzed. The experimental results show the prototype generates a maximum power density of 2.52mW/cm^2 at room temperature. This performance is better than the published resuits of other silicon-based passive μDMFCs. Moreover,it is comparable with that of our previous active μDMFCs which require an external pump, certificating the feasibility of this new configuration.
文摘Continuous and dynamic measurements of human respiratory parameters are very important for vital diseases of respiratory system during mechanical ventilation. This paper analyzed the structure and mechanical properties of the human respiratory system, and designed an active intervening monitoring micro system for it. The mobile mechanism of the micro system is soft and earthworm-like movement actuated by pneumatic rubber actuator, the measurement and therapy unit of the system is an extensible mechanism with sensors in the front. The micro monitoring system can move in respiratory tract and measure the respiratory parameters in bronchium continuously. Experiments had been done in swine's respiratory tract, the results proved that the micro robot system could measure the respiratory parameters in real-time successfully and its movement was smith in swine's respiratory tract.
基金Supported by The Fund of the People's Liberation Army Gen-eral Hospital of Chengdu Command,No.2011YG-B24
文摘AIM:To investigate the possible reasons and suggest therapeutic plan of stress-induced intestinal necrosis resulting from the severe trauma.METHODS:Three patients in our study were trapped inside collapsed structures for 22,21 and 37 h,respectively,The patients underwent 3-4 operations after sustaining their injuries,Mechanical ventilation,intermittent hemodialysis and other treatments were also provided.The patients showed signs of peritoneal irritation on postoperative days 10-38.Small intestinal necrosis was confirmed by emergency laparotomy,and for each patient,part of the small bowel was removed.RESULTS:Two patients who all performed 3 operations died of respiratory complications on the first and second postoperative days respectively.The third patient who performed 4 operations was discharged and made a full recovery.Three patients had the following common characteristics:(1) Multiple severe trauma events with no direct penetrating gastrointestinal injury;(2) Multiple surgeries with impaired renal function and intermittent hemodialysis treatment;(3) Progressive abdominal pain and tenderness,and peritoneal irritation was present on post-traumatic days 10-38;(4) Abdominal operations confirmed segment ulcer,necrosis of the small intestine,hyperplasia and stiffness of the intestinal wall;and(5) Pathological examinations suggested submucosal hemorrhage,necrosis,fibrosis and hyalinization of the vascular wall.Pathological examinations of all 3 patients suggested intestinal necrosis with fistulas.CONCLUSION:Intestinal necrosis is strongly associated with stress from trauma and post-traumatic complications;timely exploratory laparotomy maybe an effective method for preventing and treating stressinduced intestinal necrosis.