深低温对全脑缺血性损伤的保护作用

国际上把低温划分为轻度低温(33～35℃),中度低温 (28～32℃),深度低温(17～27℃)和超深度低温(2～16℃)。低温已经被大量动物试验和临床实践证实具有脑保护作用,但同时也存在心律失常,凝血功能障碍,免疫抑制等全身多系统副作用,产且温度越低,副作用越明显。日前国内外已经有大量的试验证实深低温对全脑缺血的脑保护作用,它能明显增加脑组织对缺血的耐受性,本文将就深低温对全脑缺血性损     

亚低温治疗重型颅脑损伤中脑组织氧分压的临床意义

目的观察亚低温治疗重型颅脑损伤过程中患者颅内压及脑组织氧分压的变化及临床意义。方法将80例急性重型颅脑损伤患者,随机分为亚低温治疗组(40例)和对照组(40例)。亚低温组入院后或术后立即给予亚低温治疗,保持肛温在32~34℃,持续24h~5d;对照组给予常规治疗。两组均观察颅内压(ICP)和脑组织氧分压(PbtO2)变化。结果亚低温组治疗后,ICP明显下降,PbtO2逐渐升高,与对照组相比有显著性差异。结论亚低温治疗能降低脑外伤后增高的ICP,提高PbtO2;伤后24h内持续PbtO2<5mmHg预示患者预后不良。     

高温、亚低温对大鼠脑缺血再灌注损伤的作用及其机制研究

目的：研究轻度高温、亚低温对大鼠脑缺血再灌注损伤组织兴奋性氨基酸（EAA）与氧自由基的相互关系及病理损伤程度的影响。方法：60只Wistar大鼠按不同脑温条件随机分为生化组（n=28）和病理组（n=32)，采用改良Nagasawa局灶脑缺血再灌注模型，观察脑缺血再灌注损伤组织谷氨酸（Glu），超氧化物歧化酶（SOD）、丙二醛（MDA）的变化及光镜，电镜下的病理变化。结果：轻度高温明显加重常温脑缺血再灌注损伤组织Glu、MDA的升高（P＜0．01）及SOD的下降（P＜0．05），加重常温脑缺血再灌注组织病理损伤程度，亚低温的作用则相反，结论：轻度高温可能通过同时促进EAA合成，释放和氧自由基生成系统活化，造成大鼠脑缺血再灌注损组织损伤加重；亚低温可能通过同时抑制EAA合成，释放和氧自由基生成系统活化，减轻大鼠脑缺血再灌注组织损伤程度，对大鼠脑缺血再灌注损伤组织起保护作用。     

Influence of moderate hypothermia on cerebral oxygenation in pigs with intracranial hypertension

BACKGROUND: Moderate hypothermia is one of the effective therapeutic methods for head injury in recent years, there are many mechanisms of moderate hypothermia for brain protection, and its influence on cerebral oxygenation is also one of them. OBJECTIVE: To observe the influence of moderate hypothermia on cerebral oxygenation of animals with acute intracranial hypertension, and further investigate the protective mechanism of moderate hypothermia. DESIGN: A randomized controlled trial. SETTING: Department of Neurosurgery, Renji Hospital affiliated to the Medical College of Shanghai Jiao Tong University. MATERIALS: Twenty healthy little pigs, either male or female, weighing 4.5–5.5 kg, were used. Neurotrend-typed multiparameter monitoring system (Diametrics Company, British); CMA/100 micro-injection pump (Carnegie Company, Sweden). METHODS: The experiment was conducted in the Changzheng Hospital affiliated to the Second Military Medical University of Chinese PLA in November, 2001. The pigs were randomized into two groups: the normothermia group (control group, n =10) and moderate hypothermia group (n =10). ① Bilateral femoral arteries were separated, one was connected to pressometer for monitoring mean arterial pressure (MEP), and the other for analysis of blood gases [including peripheral blood pH value, arterial partial pressure of carbon dioxide (PaCO2), arterial partial pressure of carbon dioxide (PaCO2), HCO3–]. ② Rectal temperature was monitored with mercurial thermometer. ③ Intracranial pressure was monitored using Camino optic ICP probe placed in the subdural space. ④ Neurotrend multiparameter monitoring sensor was inserted into the white matter for about 4 cm to determine cerebral perfusion pressure (CPP, CPP=MAP(ICP), brain tissue partial oxygen pressure (PO2), partial pressure of carbon dioxide (PCO2), HCO3– and brain temperature. The rectal temperature of animals in the moderate hypothermia group was lowered to 34 ℃ using ice bags, and the body temperature was maintained at 33–35 ℃ for 2 hours. The changes of the parameters were observed continuously, and the pigs in the normothermia group were not treated with cooling. MAIN OUTCOME MEASURES: ① MAP, ICP, rectal temperature, CCP; Indexes of cerebral oxygenation detected with Neurotrend-typed multiparameter monitoring system; ② Results of blood gases analysis in the moderate hypothermia group. RESULTS: All the 20 pigs were involved in the analysis of results. ① MAP, ICP, rectal temperature, CCP and indexes of cerebral oxygenation: In the moderate hypothermia group, the ICP after cooling was obviously lower than that before cooling [(3.31±1.19), (5.33±0.95) kPa, P < 0.05], CCP was higher, brain tissue PCO2 [(12.03±1.73), (10.59±2.01) kPa, P < 0.05], and brain tissue pH value was higher [(7.03±1.63), (9.40±1.30) kPa, P < 0.05], whereas the brain temperature was decreased as compared with that before cooling [(34.9±0.3), (37.2±0.2) ℃, P < 0.05]. ② Results of blood gases analysis in the moderate hypothermia group: There were no significant differences in the parameters of peripheral arterial blood gases analysis before and after cooling in the moderate hypothermia group (P > 0.05) CONCLUSION: Moderate hypothermia will not impair the cerebral oxygenation, and it can reduce brain tissue CO2 and decrease brain tissue acidosis.     

Control of post anaesthetic shivering with nefopam hydrochloride in mildly hypothermic patients after neurosurgery

Postoperative shivering may be prevented by maintaining normothermia intraoperatively or it may be treated using specific drugs. The aim of this study was to compare the efficacy of nefopam hydrochloride (nefopam) to that of clonidine and meperidine in patients undergoing elective neurosurgical procedures. Three groups of patients were included in the study. Patients in group A (60) received i.v., at random, 20 mg of nefopam, 50 mg of meperidine or 150 μg of clonidine in the immediate postoperative period. The incidence of shivering and the time at which shivering ceased were noted, along with central temperature and main haemodynamic changes. Group B (20) received i.v., at random, either 10 mg of nefopam or saline before awakening from anaesthesia. The effects of nefopam on central temperature, oxygen consumption (Vo₂), carbon dioxide production (VcO₂), basal metabolic rate (BMR) and energy expenditure (EE) were investigated. Group C (10) received i.v. 20 mg of nefopam during surgery: cerebrospinal fluid pressure (CSFP), cerebral perfusion pressure (CPP) and electroencephalogram (EEG) were monitored. In group A nefopam stopped shivering in 95% of patients when compared to meperidine and clonidine, which were effective in 32% and 40% of patients respectively. In group B, only 10% of patients receiving nefopam had postoperative shivering, Vo2, VcO2 and EE were significantly lower in patients treated with nefopam than those in the control group. No changes in CSFP, CPP or EEG were observed in group C. In conclusion, nefopam seems to be more effective than clonidine or meperidine in quickly suppressing shivering, without producing significant adverse reactions.     

亚低温对戊四氮诱导癫痫发作的影响

目的观察戊四氮诱导癫痫发作的形式变化及不同温度下癫痫大鼠海马组织病理学的变化和计数CA3区残存的神经元数量.方法雄性SD大鼠分为上述不同温度的四组,用冰袋降温、白炽灯泡升温的方法来控制温度.将控制好温度的大鼠用戊四氮诱导癫痫发作,在相同的时间内观察大鼠发作形式的变化.HE染色后观察海马区组织病理学的改变,并选择组织学损害最明显的区域在高倍镜(40×10)下计数神经元的丢失.结果高温状态下癫痫发作程度最重,神经元丢失最严重,低温下癫痫发作程度较轻,神经元丢失也较少,亚低温下癫痫发作程度最轻,持续时间也最短,神经元丢失最少.结论亚低温对癫痫大鼠有脑保护作用.     

低温可调钠透析对血液透析中低血压的影响

目的探讨低温可调钠透析对血液透析中低血压的影响。方法选择行维持性血液透析中经常出现低血压反应的患者14例,随机分为观察组和对照组各7例,观察组接受低温可调钠透析,对照组接受常规标准透析。观察4周,分别测量患者超滤量、血肌酐、尿素氮、血清钠以及血压等指标。结果2组透析后超滤量、血肌酐、尿素氮、血清钠比较均无显著性差异(P均>0.05);但观察组透析中最低收缩压、舒张压和平均动脉压均明显高于对照组(P均<0.01),低血压发生率明显降低(P<0.05)。结论低温可调钠血液透析可有效地预防血液透析低血压的发生,不增加钠负荷,不影响透析效果。     

Effect of temperature in focal ischemia of rat brain studied by 31P and 1H spectroscopic imaging

³¹P, ¹H and lactate spectroscopic imaging was used to evaluate the effects of hypothermia on focal cerebral ischemia produced by middle cerebral artery occlusion. The effects on high energy phosphate metabolism, pH, lactate and NAA were investigated in 24 spontaneously hypertensive rats subjected to either permanent or transient ischemia. Under either normothermic (37.5°C) or hypothermic (32°C) conditions, with permanent 6-h occlusion, there was little difference between groups in either the NMR measurements or the volume of infarction. In animals that underwent 3 h of ischemia followed by 12 h of reperfusion, the ischemic changes in lactate, pH, NAA, and high-energy phosphate returned toward control values, and there was a protective effect of hypothermia (infarct volume of 211 ± 26 and 40 ± 14 mm³ in normothermic and hypothermic groups, respectively). Thus, hypothermia did not ameliorate the changes in lactate, pH, NAA, or high energy phosphate levels occurring during ischemia, however, during reperfusion there was an improvement in both the recovery of these metabolites and pathological outcome in hypothermic compared with normothermic animals.     

Abdominal Pumping

This article reviews the author's experience with a form of interposed abdominal compression cardiopulmonary resuscitation (IAC-CPR) in the United Kingdom. The development of the technique based upon animal resuscitation, including the use of phasic compression (abdominal pumping) for the resuscitation of rats from 30 minutes of cardiac arrest due to hypothermia, is reviewed. A simple technique for clinical use is described. The technique uses a hard-covered book or bean-shaped board applied to the abdomen below the umbilicus and compressed alternately with cardiac massage while respiration is assisted. Anecdotal clinical results suggest that further controlled clinical investigation is warranted.