Regulation of fluid intake in dogs following water deprivation

Whereas water loss in land living animals occurs continuously, water intake takes place discontinuously. At the normal operating set point of plasma osmolality, urine is more concentrated than plasma due to secretion of vasopressin. Thus animals operate around a state of mild dehydration. As water loss occurs, the severity of dehydration and thirst increase in intensity and at some point water intake occurs. Sufficient water is consumed to return plasma osmolality to the normal operating set point. Food intake and water balance are interdependent as food provides the osmoles which determine obligatory renal solute excretion. When dry food with the same osmotic content was substituted for canned food (water content 74%), dogs increased water intake from 24.2 +/- 4.3 to 62.2 +/- 8.8 ml/kg. Urine output and urine osmolality were unchanged, as under conditions of normal hydration, near maximal urine concentration is achieved. Changing water intake is the only available variable to maintain water balance. During water deprivation, the major renal mechanism appears to be natriuresis. In rehydration, satiety mechanisms ensure appropriate water intake and renal sodium conservation restores sodium balance.     

大鼠室旁核内催产素免疫阳性细胞树突棘样结构在脱水状态下的改变

树突棘，室旁核，催产素，脱水，免疫组化，大鼠下丘脑内催产素大细胞神经分泌细胞与水盐代谢的调节有关，并伴有细胞形态的改变如细胞体积的增大及细胞膜与细胞膜间接触的增加和多突触的形成等。本文用免疫组化法发现在脱水状态下室旁核的催产素免疫阳性神经元上树突棘样结构有所增加。光镜观察并计算室旁核前大细胞亚核、内侧大细胞亚核及后大细胞亚核中含树突棘样结构的催产素神经元百分数变化，显示正常大鼠室旁核神经元树突棘样结构多位于树突干上，少数在胞体上。前大细胞亚核含树突棘样结构的细胞百分数为２１．２７％，内侧大细胞亚核为３０．２２％，后大细胞亚核为２０．２２％。轻度脱水大鼠室旁核含树突棘样结构细胞百分数显著增加（前大细胞亚核：２８．６５％，Ｐ＜０．０５；内侧大细胞亚核：３５．５３％，Ｐ＞０．０５；后大细胞亚核：３４．７８％，Ｐ＜０．０１）。细胞上树突棘样结构数也增加，其体积略为增大。重度脱水大鼠室旁核中树突棘样结构细胞百分数增加较小，仅后大细胞亚核内有显著变化（２７．１３％，Ｐ＜０．０５）。不同程度脱水组之间无显著变化。结果说明脱水可引起神经元膜结构的改变。树突棘样结构数变化是否与新突触的形成有直接关系？尚待进一步证实。     

Physiological and metabolic responses to work in heat with graded hypohydration in tropical subjects

Summary Studies were conducted on 25 healthy male volunteers aged 20–25 years drawn randomly from the tropical regions of India. The subjects initially underwent an 8 day heat acclimatization schedule with 2 hours moderate work in a climatic chamber at 45° C DB and 30% RH. These heat acclimatized subjects were then hypohydrated to varying levels of body weight deficits, i.e. 1.3±0.03, 2.3±0.04 and 3.3±0.04%, by a combination of water restriction and moderate exercise inside the hot chamber. After 2 hours rest in a thermoneutral room (25±1° C) the hypohydrated subjects were tested on a bicycle ergometer at a fixed submaximal work rate (40 W, 40 min) in a hot dry condition (45°C DB, 30% RH, 34° C WBGT). Significant increases in exercise heart rate and oral temperature were observed in hypohydrated subjects as compared to euhydration. Sweat rate increased with 1% and 2% hypohydration as compared to euhydration, but a significant decrease was observed with 3% hypohydration. Na⁺ & K⁺ concentrations in arm sweat increased with increase in the level of hypohydration. Oxygen consumption increased significantly only when hypohydration was about 2% or more. It appears that the increased physiological strain observed in tropical subjects working in heat with graded hypohydration is not solely due to reduced sweat rates.     

Mathematical Modeling of the Human Body During Water Replacement and Dehydration: Body Water Changes

A model of the human body that integrates the variables involved in temperature regulation and blood gas transport within the cardiovascular and respiratory systems is presented here. It expands upon previous work to describe the competition between skin and muscles when both require increased blood flows during exercise and/or heat stress. First, a detailed study of the control relations used to predict skin blood flow was undertaken. Four other control relations employed in the model were also examined and modified as indicated by empirical results found in literature. Internal responses to exercise and/or heat stress can affect both thermoregulation and the cardiorespiratory system. Dehydration was studied in addition to complete water replacement during similar environmental and exercise situations. Control relations for skin blood flow and evaporative heat loss were modified and a water balance was added to study how the loss of water through sweat can be limiting. Runoff from sweating as a function of relative humidity was introduced along with evaporation, and these results were compared to data to validate the model. © 2000 Biomedical Engineering Society. PAC00: 8719Pp, 8719Uv, 8719Ff, 8710+e     

Changes of plasma volume and plasma composition in water-deprived rats

Summary Plasma volume, hematocrit, protein and electrolyte concentrations in plasma were measured in control and water-deprived rats every three days after starting the experiment until the 15th day. Plasma volume variations, as related to body weight, suggest that water loss from plasma was proportional to total body water at three days and after 9 days of water deprivation. Greater plasma water than body water loss was found during the period between 3 and 9 days. Plasma protein and electrolyte variations suggest that during water deprivation there is a loss of protein, sodium and potassium from plasma, which is proportionally less than that of plasma water. Potassium, calcium and inorganic phosphorus were lost proportionally to plasma water. The variations in plasma volume changes were partially explained as due to variations in plasma protein and electrolyte concentrations.     

Adaptive modification of ingestive behavior in beach mice (Peromyscus polionotus).

The ability of an inland and beach race of the old-field mouse to use increasing concentrations of NaCl solutions was compared. Inland mice drank significantly more fluid at all concentrations than did beach mice. These differences became more pronounced as the salt concentration was increased. Food consumption was similar in both races while drinking water or a dilute salt solution, but beach mice ate significantly greater amounts when the concentration of salt was increased above 0.2 M. Weight losses on salt solutions were approximately equal in both races, although beach mice survived longer and tolerated the higher concentrations better. There was no difference in the ability of the races to concentrate urine or excrete Na⁺. When given a choice of distilled water or two salt solutions, beach mice consumed significantly more water (77%) than salt solutions (23%) whereas inland mice drank approximately equal amounts of water (54%) and salt solutions (46%). When deprived of anything to drink, beach mice almost stopped eating for the first two days while inland mice did not reduce their food consumption as quickly and died sooner. Thus, it appears that adaptive modifications of ingestive behavior are important for survival in habitats where salt accumlates and summer droughts may be a problem.     

Quantitative displacement of blood acid base equilibrium in acutely water depleted dogs

Summary Dogs were water depleted 2% of their body weight by the intraperitoneal injection of a hyperosmotic solution of saline and glucose (550 mOsm/l). During a 3-h experiment these water-depleted (WD) animals showed a significant decrease in blood pH, base excess (BE) and plasma bicarbonate (Bic_p) and an increase in both hematocrit (Ht) and blood buffer capacity (BBC). These changes were quantitatively time-dependent. The rate change of pH, BE, and Bic_p were –0.072 units h^–1, –4.7 mEq/l h^–1, and 2.9 mEq/l h^–1, respectively. As control dogs showed no significant time-dependent changes in their blood acid-base status, the observed modifications in the experimental dogs were ascribed to water depletion. Increased endogenous acid production related to tissue hypoxia is suggested to be the mechanism that could explain the increased fixed acid accumulation observed in the water-depleted animals.     

丹红注射液联合西药及早期心理干预与康复训练治疗脑卒中后抑郁随机平行对照研究

[目的]观察丹红注射液联合西药及早期心理干预与康复训练治疗脑卒中后抑郁疗效。[方法]使用随机平行对照方法,将80例门诊及住院患者按随机数字表法分为两组。对照组40例脱水、脑保护及对症治疗,生命体征稳定48h后,心理干预,康复训练(运动治疗及作业治疗)。治疗组40例丹红注射液30mL+5%葡萄糖250mL,1次/d,静滴;糖尿病:生理盐水250mL。西医治疗同对照组。连续治疗14d为1疗程。观测HAMD评分、ADL评分、不良反应。连续治疗2疗程,判定疗效。[结果]HAMD及ADL评分两组均有改善(P0.05),治疗组改善优于对照组(P0.05)。[结论]丹红注射液联合西药及早期心理干预与康复训练治疗脑卒中后抑郁效果显著,值得推广。