Objective To investigate the effects of therapeutic hypothermia (TH) on myocardial Ca2+/calmodulin-dependent protein kinase Ⅱ (CaMK Ⅱ) and cell autophagy after cardiopulmonary resuscitation (CPR) in swine.Methods Twenty healthy male domestic swine weighing 33-40 kg were randomly (random number) divided into 3 groups:sham group (n=4),CPR group (n=8) and TH group (n=8).Sham animals only underwent general preparation without experiencing cardiac arrest and resuscitation.The animal model was established by 8 min of electrically induced ventricular fibrillation and then 5 min CPR in the CPR and TH groups.Successful resuscitation was regarded as an organized rhythm with a mean arterial pressure of greater than 50 mmHg for 5 min or more.After successful resuscitation,body temperature was decreased to 33 ℃ by a cooling blanket and then maintained until 24 h post-resuscitation,and followed by a rewarming at a rate of 1 ℃/h for 5 h in the TH group.A normal temperature was maintained by the blanket throughout the experiment in the sham and CPR groups.At 6,12,24 and 30 h after resuscitation,the values of stroke volume (SV) and global ejection fraction (GEF) were measured by PiCCO,and meanwhile the serum concentrations of cardiac troponin Ⅰ (cTnI) were measured by ELISA assay and the serum activities of creatine kinase-MB (CK-MB) were evaluated by an automatic biochemical analyzer.At 30 h after resuscitation,the animals were sacrificed and left ventricular myocardium was obtained for the determination ofCaMK Ⅱ,microtubule-associated protein light chain 3 Ⅱ (LC3 Ⅱ) and p62 expressions by Western blot.The variables were compared with One way analysis of variance and then the Bonferroni test among the three groups.Results Compared with the sham group,myocardial dysfunction and injury after resuscitation were observed in the CPR and TH groups,which were indicated by decreased SV and GEF and also increased cTnI concentration and CK-MB activity in serum (all P＜0.05).Compared with the CPR group,the values of SV and GEF were significantly increased at 6 h after resuscitation,and serum cTnI concentration and CK-MB activity were significantly decreased starting 12 h after resuscitation in the TH group [SV (mL):25.0±6.9 vs 31.9±3.3 at 6 h,26.7±5.1 vs 34.6±3.7 at 12 h,28.8±3.3 vs 35.7±3.2 at 24 h,29.2±5.2 vs 36.7±3.3 at 30 h;GEF (％):17.1±2.7 vs 19.9±1.8 at 6 h,18.7±1.9 vs 21.6±1.8 at 12 h,19.3±2.3 vs 23.0±2.4 at 24 h,21.0±1.7 vs 23.7±1.7 at 30 h;cTnI (pg/mL):564±51 vs 466±56 at 12 h,534±38 vs 427±60 at 24 h,476±55 vs 375±46 at 30 h;CK-MB (U/L):803±164 vs 652±76 at 12 h,693±96 vs 557±54 at 24 h,633±91 vs 480±77 at 30 h,all P＜0.05].Tissue detection indicated that the expression of CaMK Ⅱ and LC3 Ⅱ were increased while the expression of p62 was decreased in post-resuscitation myocardium in the CPR and TH groups compared with the sham group (all P＜0.05).However,the expression of CaMK Ⅱ and LC3 Ⅱ were decreased and the expression of p62 was increased in postresuscitation myocardium in the TH group compared to the CPR group (CaMK Ⅱ:0.73±0.06 vs 0.58±0.05;LC3 Ⅱ:0.69±0.09 vs 0.50±0.07;p62:0.40±0.07 vs 0.68±0.14,all P＜0.05).Conclusion The mechanism of TH alleviating post-resuscitation myocardial dysfunction and injury may be related to the inhibition of CaMK Ⅱ expression and cell autophagy.

Objective To evaluate the effects of hypothermia on Ca2+∕calmodulin-dependent pro-tein kinase Ⅱ ( CaMKⅡ) and cell autophagy in brain tissues after cardiac arrest and cardiopulmonary re-suscitation ( CA-CPR) in swine. Methods Twenty-one healthy male white swine, weighing 33-40 kg, were divided into 3 groups using a random number table method: sham operation group ( group S, n=5) , CA-CPR group ( n=8) and hypothermia group ( group H, n=8) . The experimental model of CA-CPR was established in CA-CPR and H groups. The Swan-Ganz catheters were placed in the right femoral artery and vein to monitor the pressure of thoracic aorta and right atrium and body temperature and to collect blood sam-ples. A pacing catheter was advanced from the right external jugular vein into the right ventricle. Ventricu-lar fibrillation was induced by using a 1 mA alternating current through the pacing catheter. Once ventricular fibrillation was successfully induced, mechanical ventilation was discontinued for 8 min, and then CPR was initiated. Epinephrine 20 μg∕kg was intravenously injected at 2. 5 min of CPR, followed by repetition once every 3 min. Defibrillation was delivered at 5 min of CPR, and then spontaneous circulation was evaluated. If the spontaneous circulation was not restored, CPR was immediately resumed for 2 min, and then defibril-lation was delivered again. Mechanical ventilation was continued for 30 h after successful CPR. At 5 min af-ter successful resuscitation, body temperature was decreased to 33 ℃ by using a cooling blanket, then maintained at 33 ℃ until 24 h after resuscitation, and finally increased at a rate of 1℃∕h for 5 h in group H. The temperature was maintained at a normal level of 37. 5-38. 5 ℃ with the aid of a cooling blanket in S and CA-CPR groups. At 1, 6, 12, 24 and 30 h after resuscitation (T1-5), blood samples were collected from the femoral vein for measurement of the concentration of neuron specific enolase ( NSE) and S100βprotein in serum by enzyme-linked immunosorbent assay. Five animals in each group were then sacrificed, and brains were removed to determine the expression of CaMKⅡ, microtubule-associated protein 1 light chain 3 Ⅱ( LC3Ⅱ) and p62 in cerebral cortex by Western blot. Neurological deficit score was evaluated in the remaining three swine at 48, 72 and 96 h after resuscitation (T6-8) in CA-CPR and H groups. Results Compared with group S, the concentrations of NSE and S100β protein in serum were significantly in-creased at T1-5 , the expression of CaMKⅡand LC3Ⅱin cerebral cortex was up-regulated, and the expres-sion of p62 in cerebral cortex was down-regulated in CA-CPR and H groups (P<0. 05). Compared with group CA-CPR, the concentrations of NSE and S100βprotein in serum were significantly decreased at T3-5, the neurological deficit score was decreased at T6-8 , the expression of CaMKⅡand LC3Ⅱin cerebral cortex was down-regulated, and the expression of p62 in cerebral cortex was up-regulated in group H ( P<0. 05) . Conclusion The mechanism by which hypothermia alleviates brain injury after CA-CPR may be related to inhibiting CaMKⅡ activation and reducing cell autophagy in brain tissues of swine.

Objective To study the effect of high-flow nasal cannula oxygen therapy (HFNC) in reduction in re-intubation rate, length of ICU stay and improvement of respiratory function in patients with high cervical spinal cord injury.Methods Single center retrospective study was carried out in our intensive care unit from September 2016 to March 2018. Post-operative patients ready for planned extubation with high cervical spinal cord injury were included. The length of ICU stay, re-intubation rate in case of respiratory failure, respiratory rate, pulse rate, MAP, SaO2, PaO2/FiO2, and PaCO2 of patients at 6, 24 and 72 h after extubation were compared between the HFNC and conventional oxygen therapy (COT) groups. Results During the study period, 38 patients were enrolled in the study. Of them, 16 patients were assigned in the HFNC group and 22patients in the COT group. Re-intubation rate was significantly different between the two groups (18.8％ vs 27.3％, P<0.05), but the length of ICU stay had no significant difference [(15.5±3.4) days vs (16.6±5.2) days]. The respiratory rate, pulse rate, SaO2 and PaO2/FiO2 at 6 h after extubation in the HFNC group were improved markedly than those in the COT group (P<0.05); and the PaCO2 and PaO2/FiO2 at 24 and 72 h after extubation in the HFNC group had much more improvement than those in the COT group (P<0.05). Conclusions Among individuals with post-operative high cervical spinal cord injury, high-flow oxygen therapy could reduce re-intubation rate, and PaCO2 level, and improve the respiratory function, but cannot reduce the length of ICU stay. High-flow oxygen therapy may offer advantages for patients with high cervical spinal cord injury.

Objective To study the effect of high-flow oxygen insuffiation (HFOI) via nasal cannula in reduction in re-intubation rate,length of ICU stay and improvement of respiratory function in patients at high risk of re-intubation after weaning from mechanical ventilation assessed by lung ultrasound score (LUS).Methods Single center randomized(random number) clinical trial was carried out in one intensive care units in China from May 2016 to May 2017 including critically ill patients ready for planned extubation with high-risk factors for re-intubation assessed by LUS when the LUS ≥ 14 was considered to be high risk.The comparisons of the length of ICU stay,re-intubation rate in case of respiratory failure,respiratory rate pulse rate SaO2 PaO2/FiO2 of patients at 6 h,24 h and 48 hours after extubation were made between HFOI and conventional oxygen therapy (COT) group.Results During the study period,32 patients were enrolled in the study.Of them,15 were assigned in HFOI group and 17 in COT group.The length of ICU stay (8.0±2.4)days vs.(10.9±3.5) days and re-intubation rate (6.7％ vs.23.5％) were significantly different between two groups (P＜0.05).The respiratory rate pulse rate SaO2 and PaO2/FiO2 of patients at 6 h after ex-tubation in HFOI group were improved than those in COT group (P＜0.05);and the SaO2 and PaO2/FiO2 of patients 24 h and 48 h after ex-tubation in HFOI group had much more improvement than those in COT group (P＜0.05).Conclusion Among high-risk adults who assessed by lung ultrasound score,high-flow oxygen therapy could reduce re-intubation rate length of ICU stay and improve the respiratory function.High-flow oxygen therapy may offer advantages for these patients.

Objective To evaluate the effect of mild hypothermia on inositol-requiring enzyme 1 (IRE1) signaling pathway during myocardial injury after cardiac arrest and resuscitation in swine.Methods Twenty-one healthy male white swine,weighing 33-41 kg,were divided into 3 groups using a random number table method:sham operation group (group S,n =5),cardiac arrest-cardiopulmonary resuscitation group (group CA-CPR,n=8),and mild hypothermia group (group MH,n=8).The model of cardiac arrest and resuscitation was established based on the previously reported method.The catheters placed in the left femoral artery and right internal jugular vein were connected to the PiCCO Monitor system,and another pacing catheter was advanced from the right external jugular vein into the right ventricle.Ventricular fibrillation was induced by using a 1 mA alternating current through the pacing catheter.Once ventricular fibrillation was successfully induced,mechanical ventilation was discontinued for 8 min,and then cardiopulmonary resuscitation was initiated.Epinephrine 20 μg/kg was administered at 2.5 min of resuscitation followed by repetition every 3 min.Defibrillation was delivered at 5 min of resuscitation,and then spontaneous circulation was evaluated.If return of spontaneous circulation was not achieved,cardiopulmonary resuscitation was immediately resumed for 2 min and then defibrillation was delivered again.Mechanical ventilation was continued for 30 h after successful resuscitation.Animals in group S only underwent surgical preparation without experiencing cardiac arrest and resuscitation.At 5 min after successful resuscitation,body temperature was cooled down to 33 ℃ by using a cooling blanket,and then maintained at this level until 24 h after resuscitation,followed by 5 h of re-warming at a rate of 1 ℃/h in group MH.The temperature was maintained at 37.5-38.5 ℃ with the aid of surface cooling blanket in the other two groups.At 1,6,12,24 and 30 h after resuscitation (T1-5),the values of stroke volume (SV) and global ejection fraction (GEF) were recorded,and meanwhile 2 ml of blood samples was obtained via the femoral vein to measure the concentration of serum cardiac troponin Ⅰ (cTnI) (by enzyme-linked immunosorbent assay) and activity of serum creatine kinase-MB (CK-MB) (by immunosuppression).The swine were sacrificed at 30 h after resuscitation,and then myocardial specimens from the left ventricle were obtained for determination of the expression of caspase-3 (by immunohistochemistry),cell apoptosis (by TUNEL),and expression of IRE1 and casepase-12 (by Western blot).Apoptosis index was calculated.Results Compared with group S,SV and GEF were significantly decreased and the serum CK-MB activity was increased at T1-5,the concentration of serum cTnI was increased at T2-5,the expression of IRE1,caspase-12 and caspase-3 in myocardium was up-regulated,and apoptosis index was increased in CA-CPR and MH groups (P＜0.05).Compared with group CA-CPR,the SV and GEF were significantly increased and the concentration of serum cTnI was decreased at T2-5,the activity of serum CK-MB was decreased at T3-5,the expression of IRE1,caspase-12 and caspase-3 in myocardium was down-regulated,and apoptosis index was decreased in group MH (P＜0.05).Conclusion The mechanism by which mild hypothermia mitigates myocardial injury after cardiac arrest and resuscitation may be related to inhibiting IRE1 signaling pathway in swine.

Objective To investigate the effects of rapid hypothermia induced via esophagus on intestinal mucous injury in early stage after cardiopulmonary resuscitation (CPR) in a swine model of cardiac arrest.Methods Twenty-seven male domestic pigs weighing (36±2)kg were utilized.The animals were randomly crandom number divided into 3 groups (n=9 in each):normothermia group (NT group),surface cooling group (SC group),and esophageal cooling group (EC group).The pig model was established by 8 mins of untreated ventricular fibrillation and then 5 mins of CPR.At 5 mins after restoration of spontaneous circulation (ROSC),therapeutic hypothermia was applied by either an esophageal cooling device in the EC group or a surface cooling blanket in the SC group to reach a targeted temperature of 33 ℃ maintained for 24 h after ROSC,and then followed by warming up in a rate of 1 ℃ / hr for 5 hrs.A normal temperature of (38.0±0.5)℃ was maintained throughout the experiment in the NT group.The core temperature was continuously monitored during a period of 30 h after ROSC.At 3 h,6 h,12 h,24 h and 30 h after ROSC,intestinal fatty acid binding protein (IFABP) content and diamine oxidase (DAO) activity in serum were measured by ELISA.At 30 h after ROSC,the pigs were sacrificed,and then intestinal tissue was rapidly obtained for the determination of tumor necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6) contents by ELISA,cell apoptosis by TUNEL,and caspase-3 expression by immunohistochemistry.Results The rate of temperature decrease was 2.8 ℃/h and the time required for target temperature was 102 min in the EC group,while the rate of temperature decrease was 1.5 /h and the time consumed for target temperature was 185 mins in the SC group,which suggested the efficacy of cooling was significantly better in the EC group than that in the SC group (both P＜0.05).Compared with the NT group,serum IFABP content and DAO activity were significantly decreased at 3 hrs after ROSC in the EC group and at 6 hrs after ROSC in the SC group.Compared with the SC group,serum IFABP content at 6 hrs after ROSC and DAO activity at 12 h after ROSC were significantly decreased in the EC group IFABP (pg/mL):(710±32) vs.(777±52) at 6 h,(870±49) vs.(960±64) at 12 h,(1 022±65)vs.(1 143±63) at 24 h,(882±71) vs.(1 006±45) at 30 h DAO (U/mL):(39.9±1.9) vs.(43.4±3.2) at 12 h,(30.6±2.4) vs.(34.0±3.1) at 24 h,(26.1±2.7) vs.(29.4±2.2) at 30 h,all P＜0.05.In the intestinal tissue,TNF-α and IL-6 contents were significantly reduced,and cell apoptosis index and caspase-3 expression were significantly decreased in the SC and EC groups compared with the NT group.Additionally,inflammatory response and cell apoptosis in intestinal tissue were further significantly lesser in the EC group compared with the SC group TNF-α (pg/mL):(721±94) vs.(922±125);IL-6(pg/mL):(454±69) vs.(697±132);Apoptotic index(％):(6.2±2.6)vs.(12.8±3.0);caspase-3 expression (IOD):(8.9±1.6) vs.(15.9±1.9),all P＜0.05.Conclusions In a swine model of cardiac arrest,rapid hypothermia could be successfully induced via esophagus and consequently produced a greater protective effect on post-resuscitation intestinal injury compared with the conventional surface cooling.The protective mechanisms are associated with the inhibition of inflammatory response and cell apoptosis.

Objective: To explore a new platform for pre-hospital and in-hospital emergency medical services based on a new generation of 5G communication technology, providing a basis for further improving the level of emergency medical services. Methods: This study was conducted at the Second Affiliated Hospital of Zhejiang University School of Medicine from October 2017 to April 2019. Based on the latest requirements of emergency medical services at home and abroad, the cross-enterprise and multi-disciplinary technical forces were organized to build platform. Firstly, to determine the process of pre-hospital and in-hospital emergency medical services, various modules and technical routes were constructed under 5G conditions and individual technologies were tested one by one. Then they were gradually integrated into two platforms of ambulance and hospital emergency. Finally, the simulation test is carried out under the support of the whole 5G network. Results: The pre-hospital and in-hospital emergency medical service platform based on 5G technology comprises of 5G ambulance, 5G panoramic VR real-time display system, 5G remote ultrasonic examination system, medical drone system, and 5G emergency command platform. 5G ambulance contains medical equipments such as multi-function monitor, ventilator, defibrillation monitor, portable B-ultrasound, high-definition remote video interactive system based on 5G network, VR immersive real-time panoramic experience system, and GPS positioning system. 5G panoramic VR real-time display system includes VR panoramic camera and VR glasses. The wearer with VR glasses can view the real-time situation on the ambulance, which makes a preliminary judgment on the patient's condition and provides rescue guidance. 5G remote ultrasonic examination system integrates robot technology, real-time remote control technology, and ultrasonic imaging technology. The specialist can control the movement of the ultrasonic probe set on the 5G ambulance by manipulating the mechanical arm. The patient's image and color super-picture can also be simultaneously returned to the specialist. The medical drone system enables the medical resources to be allocated in the shortest possible time through the 5G networked drones, so as to eliminate the delay caused by traffic congestion. 5G emergency command platform can integrate, transmit, and display data from multiple sources and forms through web pages in assistance of AI and internet of things. Conclusions The new platform for pre-hospital and in-hospital emergency medical services based on 5G technology can realize more fluent information exchange in pre-hospital and in-hospital, and realize the functions that are difficult to achieve under the previous network conditions.