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Objective: To explore influence of continuous thoracic paravertebral block(CTPVB)under ultrasound-guidance combined with general anesthesia on inflammatory reaction and homodynamic of patients who underwent thoracotomy.Methods: 138 patients who underwent thoracotomy were prospectively selected and were divided into observation group(69 cases)and control group(69 cases)as random number table.Patients of observation group received CTPVB under ultrasound-guidance combined with general anesthesia and that of control group received general anesthesia.The changes of IL-6,IL-10 and TNF-α postoperative 48h and postoperative VAS score between the two groups were compared.And the VAS scores postoperative 2h,12h,24h and 48h also were observed.Besides,the mean arterial pressure and heart rate between the two groups at various time point included tranquillization time(T0),the 15 min(T1)after CTPVB combined with general anesthesia,the time post induced intubation(T2),5 min post skin incision(T3)and the time pre extubation(T4)were compared and analyzed so as to research its influence on hemodynamic.Results: The IL-6 and TNF-α postoperative 48h of observation group were significantly lower than that of control group(t=15.95,t=46.99,P<0.05).And postoperative IL-10 of observation group was significantly higher than that of control group(t=134.3,P<0.05).And the VAS scores of observation group at postoperative 2h,12h,24h and 48h were significantly lower than that of control group(t=13.91,t=17.1,t=2.321,t=9.231,P<0.05),respectively.Conclusion: CTPVB under ultrasound-guidance combined with general anesthesia can improve postoperatively analgesic effect for patients,and it don't affect patients' blood pressure and heart rate,and it can reduce inflammatory reaction of patients who underwent thoracotomy and promote rehabilitation of patients.
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Objective To investigate the effects of delayed fluid resuscitation on hemodynamics and visceral perfusion in dogs with hemorrhagic shock. Methods Fourteen Beagle dogs were prepared for cannulation of carotid artery and jugular vein, and 24 hours later they were subjected to hemorrhagic shock with about 42% of total blood volume exsanguinated. Animals were divided into delayed resuscitation group ( DR group, n = 8) and immediate resuscitation group ( IR group, n = 6) . In the first 24 hours after hemorrhage, dogs in Dr group were given no fluid resuscitation, while those in IR group were immediately given resuscitation with intra-venous glucose-electrolyte solution, of which the volume was three times that of blood loss. In the second 24 hours, all animals had intra-venous fluid resuscitation. The variables of hemodynamics and visceral perfusion were determined before hemorrhage and 2, 4, 8, 24, 48 and 72 hours after hemorrhage under conscious state of dogs. Results After hemorrhage, the mean arterial pressure,cardiac output index, max of left ventricular contractility, blood flow of intestinal mucosa and urinary output greatly decreased and systemic vascular resistance obviously increased in each group compared with those before hemorrhage ( P < 0.05 ) . From 4 hours after hemorrhage, the above measurements of dogs in IR group gradually resumed and reach Oh levels in 72 hours after hemorrhage except systemic vascular resistance index and intestinal blood flow. Whereas those measurements in dogs of DR group kept on worsening, and the levels of mean arterial pressure, cardiac output index, intestinal blood flow and urinary output were significantly lower than those in dogs of IR group ( P < 0. 05 ) . Over 72 hours, five of eight dogs died with anuria in DR, and no animals died in IR group. Conclusion The findings indicate that delayed fluid resuscitation deteriorates hemodynamics, handicapping the restoration of visceral perfusion and increasing mortality in dogs with hemorrhagic shock.
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Objective To investigate the changes of region cerebral homodynamic and cerebral vascular autoregulation in traumatic brain injury(TBI) by dynamic CT perfusion(CTP) imaging in rat.Methods Forty-five SD rats underwent CTP,including 10 control rats and 35 TBI rats,on 1,6,24 h,and day 3,7,14,21 after TBI.The region of interest(ROI) was located near traumatic area within 2 mm and mirror area of relative brain hemisphere.False color pictures and dynamic rCBF,rCBV,MTT and PS were obtained in different time.Pathological examination was also done.Results The rCBF,rCBV on 1 h after TBI was lower than that of control group,and significantly higher on 6-24 h after TBI.They reached the peak on day 3.PS had a similar change compared with rCBF,rCBV,but a longer duration.MTT showed to moderate changes except an isolated tide on 3 days after TBI.The rCBF on mirror area of relative brain hemisphere was almost stable except 3 days after TBI,which was lower than that of control group.Meanwhile,the rCBV on mirror area of relative brain hemisphere was normal.Conclusion CTP is an advanced technique to investigate the changes of region cerebral homodynamic and cerebral vascular autoregulation in TBI.The early hypoperfusion and next hyperperfusion around traumatic areas after TBI suggest that the dysfunction of cerebral vascular autoregulation should be committed to the change of homodynamic in TBI.