Modified total arch replacement for surgical repair of Stanford type A aortic dissection / 中国胸心血管外科临床杂志

@#Objective To evaluate the safety and effectiveness of modified total arch replacement by retrospectively analyzing the clinical outcome of surgical patients with Stanford type A aortic dissection (AAD). Methods From June 2015 to December 2016, 39 consecutive patients with AAD were recruited to this study. This modified technique was preformed under general anesthesia and a 30℃ hypothermia circulatory arrest (HCA) with continual bilateral antegrade cerebral perfusion. Different surgical approaches were applied according to the aortic root condition: Bentall procedure (4 patients), David procedure (2 patients), aortic valve plasty and ascending aortic replacement (25 patients) and Cabrol procedure (8 patients). Concomitant procedures included mitral valve plasty (1 patient) and tricuspid valve plasty (1 patient). Results The average cardiopulmonary bypass (CPB), aortic occlusion time (ACC), HCA and operation time was 218.5±42.2 min, 134.2±32.4 min, 4.9±2.3 min and 415.5±80.5 min respectively. Four patients required dialysis and 2 patients developed temporary neurological deficit. No permanent neurological deficit, postoperative paraplegia or in-hospital death occurred. Computed tomography examination was performed on all patients before discharge and 3 months after discharge. The follow-up result showed that 37 patients developed complete thrombosis in the false lumen and 2 patients developed partial thrombosis. Conclusion Modified total arch replacement is a safe and effective approach for AAD. It can greatly avoid postoperative complications and provide satisfactory short-term outcomes.

Neuoprotective effect of gradient perfusion-rewarming after deep hypothermia crculatory arrest / 中华胸心血管外科杂志

ObjectiveTo evaluate the neuroprotective effect of gradient perfusion-rewarming after deep hypothermia circulatory arrest (DHCA) in piglets.Methods12 Shanghai piglets (3-4 weeks old) were randomly divided into two groups of A (experiment group) and B (control group),average weight (9.78 ±0.93)kg.Animal CPB model is completed with microinvasive technique.DHCA duration is 90 min in two groups.During the rewarming period,group A was rewarmed with gradient perfusion strategy,maintain the temperature for 15 min every 5 ℃ elevation of the core temperature.Group B was rewarmed according normal consistent rewarming strategy.PH-stat management is adopt in both groups.Blood gas analysis,rectal temperature,heart rate,ECG,blood flow rate of carotid artery,glumatic acid/aspartate level of jugular vein and protein NFB of brain tissue are monitored during and/or after the cardiopulmonary bypass (CPB).ResultsDuration of rewarming in group A is (67.3 ± 7.8) min,and (41.8 ± 3.6)min in group B (P ＜ 0.05).Sample collected at the beginning of CPB,15 min of rewarming,30 min of rewarming and 45 min of rewarming show that there is no difference between the blood flow rate at 15 min of rewarming; difference are shown at the 30 min and 45 min of rewarming (P ＜ 0.5 ).High performance liquid chromatography ( HPLC ) analysis show the obvious difference of glumatic acid level of jugular vein at 30 min of rewarming and 45 min of rewarming ( P ＜ 0.5),this kind of difference of aspartate can only be seen at the 45 min of rewarming.Histologic evaluation shows gradient rewarming has a better effect on preservation of CA1 area neuron in hippocampus,however,Immunohistochemistry doesn't find the same effect.ConclusionControlled gradient perfusion-rewarming strategy can improve the neuroprotective effect during DHCA,keeping the balance of the blood flow,cerebral local temperature and brain metabolism might be the mechanism.

Temperature Difference Between the Brain and Axilla in Patients Under Hypothermia

OBJECTIVE: The brain temperature is about 0.4-1 degrees C higher than that of the other peripheral body area. But most of these results have been obtained in normothermic condition. The objective of this study is to evaluate the temperature difference between the brain and axilla, in patients under hypothermia. METHODS: Sixty-three patients(37 women and 26 men) who underwent craniotomy with implantation of the thermal diffusion flowmetry sensor were included in this study. The temperature of the cerebral cortex and axilla was measured every 2 hours, simultaneously. The patient group was divided according to axillary temperature hyperthermia(over 38 degrees C), normothermia(36-38 degrees C) and hypothermia(under 36 degrees C). Total 1671 paired sample data were collected and analyzed. RESULTS: The temperature difference between the cerebral cortex and the axilla was 0.45+/-1.04 degrees C in hyperthermic patients, 0.97+/-1.1 degrees C in normothermic patients and 1.04+/-0.81 degrees C in hypothermic patients. The temperature difference has statistical significance in each group(unpaired t-test, p<0.05). CONCLUSION: From our study the temperature difference between the brain and the axilla in hypothermic condition increased more than that of normothermic state. And in hyperthermic condition, the temperature difference decreased.

Temperature Difference between the Brain and the Axilla according to the Patients Body Temperature / 대한마취과학회지

BACKGROUND: It is believed that the brain temperature is about 1oC higher than the peripheral temperature. However the result has been mostly obtained in normothermia patients. The objective of this study was to evaluate whether the brain and axillary temperature difference would be increased or decreased in hypothermic patients. METHODS: Sixty-six patients who underwent a craniotomy with implantation of the thermal diffusion flowmetry sensor (SABER 2000; Flowtornics, Phonics, USA) were included in this study. The temperature of the cerebral cortex and axilla were measured simultaneously every 2 hours. The patient groups were divided according to their axillary temperature, hyperthermia (over 38oC: 127 paired data), normothermia (36 38oC: 1626 paired data) and hypothermia (under 36oC: 285 paired data). A total 2048 paired sample data were collected and analyzed. RESULTS: The temperature difference between the cerebral cortex and the axilla was 0.46 +/- 1.04 oC in hyperthermic patients, 0.89 +/- 1.65 C in normothermia patients and 1.04 +/- 0.82 C in hypothermic patients. The temperature difference has statistical significance in each group (unpaired t-test, P > 0.05). CONCLSIONS: Our results demonstrate that the temperature difference in the brain shows a difference according to the patients, body temperature. In normothermia the temperature difference between the brain and the axilla was about 1oC. However in a hyperthermic state, the temperature difference decreased and in a hypothermic state, the temperature difference increased.

Anesthesia for Cardiac Surgery in a Patient with Unsuspected Cold Agglutinin Disease / 대한마취과학회지

Cold agglutinins are autoantibodies activated at low temperature to produce red blood cell agglutination and hemolysis. Systemic hypothermia and cold cardioplegia which are employed commonly in modern cardiac operations are a potential danger to patients with the cold agglutinin disease. We report a successful use of a continuous warm retrograde delivery of cardioplegia with systemic hypothemia in a patient with cold agglutinin disease detected incidentally. Hemagglutination was found in the cold (4oC) blood cardioplegic circuit before the delivery of the cardioplegic solution. Hemagglutination was not detected in the mixture of blood and the warm cardioplegic solution (36.5oC). Therefore, cold agglutinin disease was suspected. The patient was only mildly cooled systemically. The coronary system was perfused with a normothemic cardioplegic solution. With this technique, the patient underwent an uneventful mitral valve replacement operation.

Neuroprotection of Hypothermia in Full Term Neonates After Asphyxia: a Safety Study / 中华围产医学杂志

Objective To study the safety of hypothermia in neonates with hypoxic-ischemic brain damage after asphyxia. Methods Twenty four full term newborns with Apgar score 0.05). Conclusions The results suggest that the selective head cooling in full term newborn has no significant adverse effect on cardiac function, kidney function and coagulation function.

The changes in cerebral metabolism and depth of anesthesia during hypothermic cardiopulmonary bypass / 中华麻醉学杂志

Objective To evaluate the effects of hypothermic cardiopulmouary bypass(CPB) on depth of anesthesia measured by BIS and auditory evoked potential index(AEPI) monitoring and cerebral O_2 and glucose metabolism. Methods Twenty-eight ASA Ⅱ-Ⅲ patients of both sexes(15 males, 13 females) aged 29-55 yrs undergoing elective cardiac valve replacement under hypothemic CPB were studied. Patients were excluded from the study if they had hearing disturbance, hepato-renal dysfunction, diabetes melhtus, hypertension, cerehro-vascular or mental diseases. The patients were premedicated with intramuscular morphine 0.15 mg?kg~(-1) and scopolamine 0.3mg. Anesthesia was induced with midazulam 0.05-0.1 mg?kg~(-1), fentanyl 10 ug?kg~(-1) and pancuronium 0.1 mg?kg~(-1) and maintained with intermittent ⅰ.ⅴ. boluses of fentanyl, diazepam and pancuronium. Radial artery was cannulated for BP monitoring and blood sampling. A CVP catheter was inserted into right internal jugular vein and advanced in a cephalad direction until jugular bulb for blood sampling. BP, HR, T℃(naso-pharyngeal), BIS and AEPI were continuously monitored during operation. Arterial and jugular bulb blood samples were obtained before CPB(T_1), T℃ was lowered to 33℃(T_2)during stable hypothermia(T_3) during rewarming at 33℃(T_4) and 30 min after termination of CPB(T_5) for blood gas analysis and determination of glucose and lactate concentrations. Cerebral oxygen extraction rate(O_2 ER) cerebral glucose extraction rate(GER), arterial-jugular bulb venous lactate difference(DLa-jv) and arterial-jugular bulb venous O_2 content difference (Ca-jvO_2) were calculated. Results Blood glucose and lactate concentrations were significantly increased, while arterial blood pH and DLa-jv did not change significantly during CPB. Cerebral oxygen extraction rate(O_2ER), cerebral glucose extraction rate(GER) and arterial-jugular bulb venous O_2 content difference (Ca-jvO_2) decreased while jugular bulb venous oxygen saturation (SjvO_2) increased with decreasing body temperature. BIS and AEPI values decreased with decreasing T℃ and both were well correlated with T℃. AEPI was positively correlated with O_2 ER and negatively correlated with Ca-jvO_2 whereas BIS was positively correlated with PaO_2. Conclusion Cerebral metabolism is decreased during hypothermic CPB which also deepens anesthetic depth measured by BIS and AEPI monitoring.