用于检测呼吸道复温的低体温犬模型的建立

目的：为开展低体温复温方法和装备研究,建立了抑制寒颤的低体温犬模型。方法：使用热电偶测温仪测定受试犬体心温度和皮肤温度,将麻醉受试犬浸泡在16．7℃水中直至食道温度降至34．0℃,受试犬出水后待体心温度基本稳定时静脉注射骨骼肌松弛剂卡肌宁,建立抑制寒颤的低体温犬模型。结果：低体温犬的体心温度可用直肠温度或食道温度表示,但二者不可混用。卡肌宁可排除寒颤对单纯呼吸道复温的影响,抑制寒颤的低体温犬模型可用于呼吸道复温方法或装备的检测。结论：建立的低体温犬模型可排除寒颤干扰、重复性好,实验条件简单,便于使用。     

苹果树蒸腾规律及其与冠层微气象要素的关系

采用由热扩散植物液流技术测算得到的、周期为2 0 0 3年1～12月、时间步长10 min的苹果树蒸腾数据,结合同步观测得到果树冠层微气象要素值,分析太行山低山丘陵区10年生苹果树蒸腾耗水规律及其与微气象要素关系,旨在为该地区苹果生产提供必要的水分生态理论依据,并力图进一步完善苹果树蒸腾耗水理论。结果表明:(1)苹果树蒸腾(Tr)具有明显时间变化特征。Tr在晴天-多云日的主要和非主要生长季节日变化都表现为单峰曲线趋势。在阴天日,主要生长季节表现为多峰曲线趋势,非主要生长季节单峰除10月和3月份表现为双峰曲线趋势外,其余各月均为单峰曲线趋势。Tr日际变化或季节变化特征是3～4月份逐渐升高、5～6月份达到高峰值、7月份逐渐降低、10月末及11月初Tr迅速降低。全年Tr值为6 0 0 .9mm ,其中,主要生长期间(4～9月份)、非主要生长期间(1～3月份、10～12月份) TR值分别为5 0 2 .6、98.3mm ,分别占全年的83.6 %、16 .4 %。(2 )主要生长期内,Tr与冠层净辐射(Rn) ,空气温度(Ta)、湿度(RH) ,风速(V)等气象要素有很好的复相关性,统计回归方程为Tr =0 .2 74 0 .0 4 2 V 0 .0 0 6 7Ta - 0 .0 14 RH (n=2 6 35 2 ,Tr为单株蒸腾量,Tr、V、Ta、Rn的单位分别为L/ h、m/ s、℃、w/ m2 ,RH为无量纲值,以%表示) ,R2 =0 .     

北小麝鼩的代谢产热和体温调节特征

为探讨食虫目小型哺乳动物的代谢产热和体温调节特征,本文采用封闭式流体压力呼吸仪测定了北小麝鼩在环境温度5 ～ 30℃下的静止代谢率(RMR),结果显示:在环境温度(Ta)为17 5 ～25℃ 的范围内,北小麝鼩的体温基本维持恒定,平均体温为36.55 ± 0.38℃ ;热中性区(TNZ) 为20 ～ 25℃ ;基础代谢率BMR 为5.46 ±0.23 (mLO₂ /g· h),其中环境温度在25℃ 时静止代谢率最低,为4.84 ± 0.39 (mLO₂ /g· h)。在5 ～ 25℃环境温度范围内,热传导值保持稳定;在此温度范围内,北小麝鼩的热传导率(C) 最低,平均为0.42 ± 0.01mLO₂ / (g·h·℃ )。总之,北小麝鼩的产热和体温调节特征为较高的BMR,中等的热传导率,较低的体温和较宽的热中性区。这些特征可能与该物种体型小、夜行性、主要以无脊椎动物为食等生活习性密切相关。     

东北地区黑线仓鼠的代谢产热特征及其体温调节

为探讨寒冷地区黑线仓鼠 (Cricetulusbarabensis)的代谢产热特征及体温调节 ,本文采用封闭式流体压力呼吸仪对其代谢率、热传导和体温等热生物学指标进行了测定。结果显示 :在环境温度为 5～ 35℃的范围内 ,黑线仓鼠的体温基本维持恒定 ,平均体温为 36 33± 0 2 3℃ ;热中性区为 2 5～ 32 5℃ ;基础代谢率为 3 4 9±0 36mlO2 / (g·h) ;环境温度 (Ta)在 5～ 2 5℃范围内 ,代谢率 (MR)与Ta 呈负相关 ,回归方程为 :MR [mlO2 / (g·h) ]=9 6 0 - 0 2 2Ta (℃ ) ,在此范围内 ,黑线仓鼠的热传导率 (C)最低 ,平均为 0 2 8± 0 0 1mlO2 /(g·h·℃ ) ;代谢预期比和热传导预期比 (F值 )为 1 6 8。黑线仓鼠的基本热生物学特征为 :较高的BMR和热传导率 ,相对较低的体温和较宽的热中性区。这些特征可能限制了其在极端寒冷和干旱环境中的分布和生存.     

内蒙古浑善达克沙地小毛足鼠的能量代谢和体温调节

为了解小毛足鼠对沙漠生境的适应特征,对其能量代谢和体温调节特征进行了测定。代谢率采用封闭式流体压力呼吸计测定,非颤抖性产热用皮下注射去甲肾上腺素诱导,能量摄入采用食物平衡法测定。结果显示:小毛足鼠的热中性区为25～33℃,平均体温为35 7±0 1℃,最小热传导率为0 21±0 01mlO2/g·h·℃,基础代谢率为2 61±0 04mlO2/g·h,最大非颤抖性产热为8 53±0 28mlO2/g·h,非颤抖性产热范围(最大非颤抖性产热与基础代谢率的比率)为3 3。基础代谢率和非颤抖性产热都高于以体重为基础的期望值,最小热传导接近期望值。小毛足鼠的摄入能为2 26±0 12kJ/g·d;消化能为2 18±0 13kJ/g·d;消化率为97±0 2%;可代谢能为2 13±0 12kJ/g·d;可代谢能效率为94±1 2%。这些结果表明小毛足鼠对沙地生境的适应特征是:基础代谢率较高,体温相对较低,最小热传导率与期望值相当,热中性区较宽,下临界温度较低;较高的最大非颤抖性产热和非颤抖性产热范围以及较高的食物消化效率。     

高温对二化螟实验种群生长、存活和繁殖的影响

以2 7℃和30℃恒温为对照,研究了平均温度在2 7～2 9.2℃内的5种变温条件下(每天2 0 h的适温2 7℃和12 :0 0～16 :0 0的高温处理,分别为日最高气温2 7℃、30℃、33℃、36℃、4 0℃)二化螟实验种群的发育历期、存活率和繁殖力的影响,组建了特定年龄生命表和繁殖力生命表。结果表明高温可导致二化螟种群的发育速率延缓、存活率和生殖力下降,主要表现在幼虫历期随日最高温度的升高而延长,36℃时延至12 d以上;在日最高气温高于33℃时,其存活率从2 7℃时的30 .3%降至36℃时的13.1%和4 0℃时的5 .5 % ,繁殖力也从30℃时每雌产卵量14 8.7粒减至36℃时的70 .5粒。因此,夏季异常高温可能是二化螟田间种群数量增长的一个重要抑制因子     

棕眉山岩鹨的代谢产热特征的初步研究

实验采用封闭式流体压力呼吸计和数字式温度计 ,分别测定了环境温度 (Ta)在 5～ 35℃范围内棕眉山岩鹨 (Prunellamontanella)的耗氧量和体温 (Tb) ,由此计算出代谢率 (MR)、热传导率 (C)和代谢预期比与热传导预期比 (F)等值 ,以探讨该种的代谢产热特征。结果表明 :棕眉山岩鹨在Ta 为 5～ 35℃时 ,Tb 基本维持恒定 (为 4 1 2 5± 0 12℃ ) ,MR的最低值为 4 2 7± 0 0 7mLO2 /(g·h) ;Ta 在 5～ 2 4℃时 ,MR与之负相关 :MR [mLO2 /(g·h) ]=10 39- 0 2 4Ta℃ ;Ta 在 5～ 2 6 5℃时 ,C最低且基本保持恒定 ,平均为 0 2 6±0 0 0mLO2 /(g·h·℃ ) ;Ta 在 2 4～ 30℃时 ,F值为 1 0 5 ,表明该种具有较好的体温调节能力。与热带地区鸟类比较 ,棕眉山岩鹨具较高的MR和Tb,稍高的C ,符合北方小型鸟类的代谢特点 ,能较好的适应冬寒冷、夏炎热的环境。     

珠颈斑鸠的代谢产热特征

采用封闭式氧气流体压力呼吸仪和数字式温度计,测定在环境温度(Ta)为0℃、6.5℃、10.5℃、16.5℃、20℃、22.5℃、25℃、27.5℃和30℃时珠颈斑鸠(Streptopelia chinesis)的代谢率(MR)和体温(Tb),由此计算出每个温度点的热传导(C)以及MR和C的体质量预期值等指标,探讨其代谢产热特征。结果表明:在Ta为0℃～30℃时,珠颈斑鸠的体温基本维持恒定,平均体温为(40.7±0.1)℃,热中性区(TNZ)为22.5～27.5℃,基础代谢率为(160.48±6.05)mlO2.h-1,是体质量预期值的65%;Ta在0℃～25℃范围内,热传导值最低且基本保持恒定,平均为(0.07±0.01)mlO2.g-1.h-1.℃-1,是体质量预期值的122%。珠颈斑鸠具有较低的MR,较高的C和Tb,能较好地适应南方较热的气候环境。     

春小麦水分利用效率日变化及其生理生态基础的研究

采用光合速率和蒸腾速率之比 (Pn/Tr)表示植物水分利用效率 (WUE) ,发现在两种不同水分处理下春小麦拔节期 .WUE日变化中都有上午高于下午值 ,且 8∶0 0～ 1 0∶0 0为明显峰值的特征 ,这种特征与Pn、Tr日变化存在的上、下午值不对称性和反向性 (Pn为上午高于下午 ,Tr相反 )紧密相关 ,水分胁迫处理中 ,Pn、Tr值均有降低 ,但不同品种的WUE反应不一 .研究表明 ,叶水势 ( ψw)、气孔阻力 (Rs)等生理因素和空气相对湿度 (RH)、光照 (Q)及冠层温度 (Tc)等生态因子 ,通过对Tr和Pn的不同影响而同WUE显著相关 ,40 %RH是WUE变化的一个重要阈值 .     

热空气处理对杧果果实若干生理特性和贮藏效果的影响

采用紫花杧果为试材,以果实成熟季节的平均气温(30±2℃)为对照,研究35℃、38℃热空气分别处理24 h和48 h对果实生理生化特性和贮藏效果的影响。结果表明,与对照相比,温度升高或处理时间延长显著提高果皮MDA含量,抑制果实可溶性固形物含量的上升、可滴定酸的下降和果皮转黄,延缓果实的后熟过程。经38℃热空气24h和48h处理,病斑面积>50%的果实在第14天分别为45.8%和54.2%,果实发病率显著高于对照。而35℃热空气24h处理对上述指标的影响不明显。     

Tracheobronchial and upper airway blood flow in dogs during thermally induced panting

Tracheobronchial blood flow increases two- to fivefold in response to isocapnic hyperventilation with warm dry or cold dry air in anesthetized, tracheostomized dogs. To determine whether this response is governed by central nervous system thermoregulatory control or is a local response to the drying and/or cooling of the airway mucosa, we studied eight anesthetized spontaneously breathing dogs in a thermally controlled chamber designed so that inspired air temperature, humidity, and body temperature could be separately regulated. Four dogs breathed through the nose and mouth (group 1), and four breathed through a short tracheostomy tube (group 2). Dogs were studied under the following conditions: 1) a normothermic control period and 2) two periods of hyperthermia in which the dogs panted with either warm 100% humidified air or warm dry (approximately 10% humidified) air. Radiolabeled microspheres (15 +/- 3 micron diam) were injected into the left ventricle as a marker of nasal, lingual, and tracheobronchial blood flow. After the final measurements, the dogs were killed and tissues of interest excised. Results showed that lingual and nasal blood flow (ml.min-1.g-1) increased during panting (P less than 0.01) in both groups and were not affected by the inspired air conditions. In group 1, tracheal mucosal blood flow barely doubled (P less than 0.01) and bronchial blood flow did not change during humid and dry air panting. In group 2, there was a sevenfold increase in tracheal mucosal and about a threefold increase in bronchial blood flow (P less than 0.01), which was only observed during dry air panting.(ABSTRACT TRUNCATED AT 250 WORDS)     

Mechanism of afterdrop after cold water immersion

It was hypothesized that if afterdrop is a purely conductive phenomenon, the afterdrop during rewarming should proceed initially at a rate equal to the rate of cooling. Eight male subjects were cooled on three occasions in 22 degrees C water and rewarmed once by each of three procedures: spontaneous shivering, inhalation of heated (45 degrees C) and humidified air, and immersion up to the neck in 40 degrees C water. Deep body temperature was recorded at three sites: esophagus, auditory canal, and rectum. During spontaneous and inhalation rewarming, there were no significant differences between the cooling (final 30 min) and afterdrop (initial 10 min) rates as calculated for each deep body temperature site, thus supporting the hypothesis. During rapid rewarming, the afterdrop rate was significantly greater than during the preceding cooling, suggesting a convective component contributing to the increased rate of fall. The rapid reversal of the afterdrop also indicates that a convective component contributes to the rewarming process as well.     

A second postcooling afterdrop: more evidence for a convective mechanism.

An attempt was made to demonstrate the importance of increased perfusion of cold tissue in core temperature afterdrop. Five male subjects were cooled twice in water (8 degrees C) for 53-80 min. They were then rewarmed by one of two methods (shivering thermogenesis or treadmill exercise) for another 40-65 min, after which they entered a warm bath (40 degrees C). Esophageal temperature (Tes) as well as thigh and calf muscle temperatures at three depths (1.5, 3.0, and 4.5 cm) were measured. Cold water immersion was terminated at Tes varying between 33.0 and 34.5 degrees C. For each subject this temperature was similar in both trials. The initial core temperature afterdrop was 58% greater during exercise (mean +/- SE, 0.65 +/- 0.10 degrees C) than shivering (0.41 +/- 0.06 degrees C) (P < 0.005). Within the first 5 min after subjects entered the warm bath the initial rate of rewarming (previously established during shivering or exercise, approximately 0.07 degrees C/min) decreased. The attenuation was 0.088 +/- 0.03 degrees C/min (P < 0.025) after shivering and 0.062 +/- 0.022 degrees C/min (P < 0.025) after exercise. In 4 of 10 trials (2 after shivering and 2 after exercise) a second afterdrop occurred during this period. We suggest that increased perfusion of cold tissue is one probable mechanism responsible for attenuation or reversal of the initial rewarming rate. These results have important implications for treatment of hypothermia victims, even when treatment commences long after removal from cold water.     

Peripheral blood flow during rewarming from mild hypothermia in humans

During the initial stages of rewarming from hypothermia, there is a continued cooling of the core, or after-drop in temperature, that has been attributed to the return of cold blood due to peripheral vasodilatation, thus causing a further decrease of deep body temperature. To examine this possibility more carefully, subjects were immersed in cold water (17 degrees C), and then rewarmed from a mildly hypothermic state in a warm bath (40 degrees C). Measurements of hand blood flow were made by calorimetry and of forearm, calf, and foot blood flows by straingauge venous occlusion plethysmography at rest (Ta = 22 degrees C) and during rewarming. There was a small increase in skin blood flow during the falling phase of core temperature upon rewarming in the warm bath, but none in foot blood flow upon rewarming at room air, suggesting that skin blood flow seems to contribute to the after-drop, but only minimally. Limb blood flow changes during this phase suggest that a small muscle blood flow could also have contributed to the after-drop. It was concluded that the after-drop of core temperature during rewarming from mild hypothermia does not result from a large vasodilatation in the superficial parts of the periphery, as postulated. The possible contribution of mechanisms of heat conduction, heat convection, and cessation of shivering thermogenesis were discussed.     

肥胖犬白细胞中相关基因及血浆生化指标的变化

目的观察不同肥胖时期的犬血浆中相关生化指标和外周血液白细胞(peripheral blood leukocytes,PBL)中胰岛素和脂联素通路、能量和脂类代谢相关基因的变化,为开发肥胖犬代谢紊乱的早期诊断法提供依据。方法选用到动物医院进行常规体检的不同品种的犬59只,按照5分制的身体评分指数分为正常犬(26只)、超重犬(28只)和肥胖症犬(5只),分别检测血浆中生化代谢指标(葡萄糖、血尿素氮、肌氨酸酐、总胆固醇、总蛋白质、三酸甘油酯、乳酸脱氢酶、碱性磷酸酶、天冬氨酸转氨酶、丙氨酸转氨酶、非酯化脂肪酸、脂联素和免疫反应胰岛素)和PBL中相关基因[胰岛素受体底物(IRS-1,-2)、磷脂酰肌醇-3-激酶(PI3-K p85α),苹果酸脱氢酶(malate de-hydrogenase,MDH)、葡萄糖-6-磷酸脱氢酶(G6DPH)、脂肪酸合酶(FAS)、脂联素受体(ADIPOR1,2)]mRNA表达量。结果与对照犬相比,超重犬和肥胖犬血浆中的胰岛素含量显著升高,肥胖犬非酯化脂肪酸、总胆固醇和三酸甘油酯显著升高。肥胖犬PBL中胰岛素下游相关基因IRS-2、脂类代谢基因FAS和能量代谢基因MDH的mRNA表达量显著下降。结论肥胖犬患有高胰岛素血症和严重的脂类代谢紊乱,胰岛素下游基因和其他代谢相关基因的显著下降可能提示肥胖犬患有胰岛素抵抗和能量代谢紊乱。     

Role of tracheal and bronchial circulation in respiratory heat exchange

Due to their anatomic configuration, the vessels supplying the central airways may be ideally suited for regulation of respiratory heat loss. We have measured blood flow to the trachea, bronchi, and lung parenchyma in 10 anesthetized supine open-chest dogs. They were hyperventilated (frequency, 40; tidal volume 30-35 ml/kg) for 30 min or 1) warm humidified air, 2) cold (-20 degrees C dry air, and 3) warm humidified air. End-tidal CO2 was kept constant by adding CO2 to the inspired ventilator line. Five minutes before the end of each period of hyperventilation, measurements of vascular pressures (pulmonary arterial, left atrial, and systemic), cardiac output (CO), arterial blood gases, and inspired, expired, and tracheal gas temperatures were made. Then, using a modification of the reference flow technique, 113Sn-, 153Gd-, and 103Ru-labeled microspheres were injected into the left atrium to make separate measurements of airway blood flow at each intervention. After the last measurements had been made, the dogs were killed and the lungs, including the trachea, were excised. Blood flow to the trachea, bronchi, and lung parenchyma was calculated. Results showed that there was no change in parenchymal blood flow, but there was an increase in tracheal and bronchial blood flow in all dogs (P less than 0.01) from 4.48 +/- 0.69 ml/min (0.22 +/- 0.01% CO) during warm air hyperventilation to 7.06 +/- 0.97 ml/min (0.37 +/- 0.05% CO) during cold air hyperventilation.     

Time course of bronchoconstriction induced by dry gas hyperpnea in guinea pigs

We examined the effects of hyperpnea duration and abrupt changes in inspired gas heat and water content on the magnitude and time course of hyperpnea-induced bronchoconstriction (HIB) in anesthetized mechanically ventilated male Hartley guinea pigs. In 12 animals subjected to 5, 10, and 15 min (random order) of dry gas isocapnic hyperpnea [tidal volume (VT) 4-6 ml, 150 breaths/min) followed by quiet breathing of humidified air (VT 2-3 ml, 60 breaths/min), severe bronchoconstriction developed only after the cessation of hyperpnea; the magnitude of respiratory system resistance (Rrs) increased with the duration of dry gas hyperpnea [peak Rrs 1.0 +/- 0.2, 1.8 +/- 0.3, and 2.3 +/- 0.3 (SE) cmH2O.ml-1.s, respectively]. Seven other guinea pigs received, in random order, 10 min of warm humidified gas hyperpnea, 10 min of room temperature dry gas hyperpnea, and 5 min of dry gas hyperpnea immediately followed by 5 min of warm humidified gas hyperpnea. After each hyperpnea period, the animal was returned to quiet breathing of humidified gas. Rrs rose appreciably after the 10 min of dry and 5 min of dry-5 min of humidified hyperpnea challenges (peak Rrs 1.3 +/- 0.2 and 0.7 +/- 0.2 cmH2O.ml-1.s, respectively) but not after 10 min of humidified hyperpnea (0.2 +/- 0.04 cmH2O.ml-1.s). An additional five animals received 10 min of room temperature dry gas hyperpnea followed by quiet breathing of warm humidified air and 10 min of room temperature dry gas hyperpnea followed by 30 min of warm humidified gas hyperpnea in random order.(ABSTRACT TRUNCATED AT 250 WORDS)     

外源激素与温度对花楸树种子萌发的影响

三种外源激素和萌发温度对花楸树种子萌发影响的研究结果表明,25℃（16h光／8h暗,10d）-5℃（暗110d）变温可极显著提高种子发芽率和种子发芽势,但极显著延迟发芽初始时间。200mg·L^-16-BA溶液中吸胀2d后经历25℃·5℃变温可使种子发芽初始时间最短（33d）,发芽率（62．25％）和发芽势（57．88％）最高。GA3或ABA与温度的结合处理对种子萌发的促进作用小于6-BA与温度的综合处理。     

高温和低湿对干热河谷7个植被恢复树种光合参数的影响

采用人工气候室控制环境条件,研究了高温（30℃和40℃）对印楝（Azadirachta indica A．Juss．）、木豆[Cajanus cajan（Linn．）Huth]、赤桉（Eucalyptus camaldulensis Dehn．）、蓝桉（E．globulus Labillardiere）、柠檬桉（E．citriodoraHook．）、大叶相思（Acacia auriculiformis A．Cunn．）和麻风树（Jatropha curcas Linn．）7个干热河谷植被恢复树种幼苗叶片光合参数的影响,以及低湿条件对麻风树幼苗叶片光合参数的影响,并对高温及低湿条件下各树种叶片光合参数与叶片含水量的关系进行了探讨。结果表明：在高温条件下,供试树种叶片的净光合速率（Pn）和Fv／Fm值均随叶片含水量的提高逐渐增加,但在40℃条件下各树种的Pn以及刚nn值均明显降低,表明叶片含水量高有利于各树种叶片Pn和n／Fm的提高,而40℃高温则对其Pn和Fv／Frn有明显抑制作用。在非干旱条件下,高温对各树种幼苗的Pn、气孔导度（Gs）、胞间c0：浓度（ci）和蒸腾速率（Tr）均有不同程度影响。在40℃条件下,供试树种中印楝和赤桉幼苗的Pn降幅最小;大叶相思、蓝桉和木豆幼苗的Gs明显增加;各树种幼苗的ci均明显提高;除印楝外,其他6个树种幼苗的Tr明显加剧且叶片水分利用效率降低。在叶片含水量较高的状况下,供试7个树种中印楝和赤桉幼苗的FV／Fm值受高温的影响较小。在空气相对湿度20％的条件下,麻风树幼苗的Pn、Cs、ci及Tr均明显降低,且均随叶片含水量的提高而增加,表明叶片含水量下降是麻风树幼苗光合作用减弱的重要影响因素。研究结果表明：干热河谷地区的高温引起的植物光合限制以非气孔因素为主导;在供试的7个树种中,印楝和赤桉对干热河谷高温干旱生境的适应或忍耐能力较强。     

犬体外循环模型建立及麻醉处理

目的建立CPB实验动物模型,加强围手术期麻醉管理,探索肺功能保护方法 ,以减少术后并发症的产生。方法 20只实验犬全部用于建立实验动物模型。丙泊酚复合麻醉后,开胸;全血肝素化后,连接体外循环管道开始体外循环,微量泵入丙泊酚50～150μg/（kg·min）维持麻醉;监测麻醉诱导前（T0）、气管插管即刻（T1）、CPB前即刻（T2）、降温至32.0℃（T3）、阻断主动脉前即刻（T4）、阻断主动脉后2min（T5）、开始复温即刻（T6）、停CPB即刻（T7）及停CPB后15min（T8）9个时间结点的鼻咽温度、平均动脉压（mean arterial pressure,MAP）及心率（heart rate,HR）。结果体外循环期间各时点鼻咽温度均低于T0及T2（P〈0.05）;T1、T2及体外循环期间各时点的MAP明显低于T0（P〈0.05）,体外循环期间各时点的MAP低于T2（P〈0.05）;T4的HR明显低于T0及T2（P〈0.05）。体外循环期间各时点MAP比较无统计学意义（P〉0.05）。结论犬体外循环模型建立的成败与手术技术和麻醉管理密切相关。