Changes in osmolality and blood serum ion concentrations in pregnancy

Changes in osmolality and the concentration of cations (Na, K, Ca, Mg) were studied in blood serum of pregnant women from two weeks after conception, throughout the whole pregnancy, and within the first week after delivery. Altogether 239 women from 18 to 40 years of age were studied. Blood serum osmolality decreased from 287±0.8 to 278±1.6 mOsm/kg H₂O from the fifth week of pregnancy and remained virtually at this level until the end of pregnancy. Hyponatremia was found during the three trimesters of pregnancy, in trimesters II and III hypokalemia was not observed, whereas hypocalcemia and hypomagnemia were found. On the first day after delivery, the blood serum osmolality and concentrations of magnesium ions returned to their levels in nonpregnant women, whereas concentrations of sodium and calcium ions remained decreased. No correlation was found between hypoosmia and changes in blood serum concentrations of ions under study during the three trimesters of pregnancy. Thus, in normal pregnancy, hypoosmia develops from the fifth week after conception and persists until delivery. The concentrations of sodium, potassium, calcium, and magnesium ions are regulated by independent mechanisms to provide retention of these parameters within certain periods of pregnancy at the level of nonpregnant women on the background of hypoosmia.     

The role of specific cations in regulation of cyanobacterial glutamine synthetase

Purified glutamine synthetase from the cyanobacterium Anabaena cylindrica required a divalent cation for activity. Maximum biosynthetic activity required Mg2+ (25 mM when supplied alone). Co2+ and Mn2+ each supported up to 20% of this activity; 12 other cations tested were ineffective. At 2.5 - 10 mM Mg2+, 0.1 mM Co2+ or ethylene glycol-bis-(beta-aminoethyl ether) N,N'-tetraacetic acid (EGTA) stimulated GS activity to maximum rates; other divalent cations (particularly Mn2+) inhibited Mg2+-dependent activity. At 5 mM Mg2+ the Kappm for NH+4 (0.05 mM) was 20-fold lower than at 25 mM Mg2+; added Co2+ did not markedly alter this low Km for NH+4; this could be physiologically important.     

益生菌在血糖调控中的作用

随着经济及生活水平的提高，营养过剩导致营养代谢疾病中2型糖尿病（type 2 diabetes mellitus，T2DM）发生率骤增。患者血糖升高及并发症严重降低生活质量，增加经济负担。现行降糖药存在局限性和副作用，而益生菌具有安全、经济和有效等特点，并且能够降血糖和减轻并发症等。益生菌在糖尿病预防、治疗和重塑肠道微生态健康方面具有良好的应用前景，逐渐成为糖尿病防治的研究热点。虽然益生菌有望攻克糖尿病，但是调控血糖的机制需要更加深入的研究。本文综述了益生菌调控血糖的应用及机制研究、发展趋势与前景及挑战，为调控血糖微生态制剂的开发提供理论基础。     

The role of the leukocytes in the blood-vasal regulation of the blood circulation

The ability of N-formyl-methionyl-leucyl-phenylalanine-activated leukocytes to influence platelets and vessels was studied. It is shown, that of activation of leukocytes causes a vasoconstriction. The de-endothelialization of the vessels increased this effect. In addition, activated leukocytes increased the platelet aggregation. It was concluded, that activation of leukocytes can trigger thrombogenesis, angiospasm, microembolic syndrome and other disturbances of blood circulation.     

The role of prostaglandins in the regulation of gastric mucosal blood flow

It has been postulated that endogenous gastric prostaglandin activity contributes to the maintenance of non-stimulated gastric mucosal blood flow. Prostacyclin and PGE₂ increase mucosal blood flow in the non-stimulated canine stomach. Inhibition of prostaglandin synthesis by aspirin or indomethacin causes a reduction of 30% to 50% in non-stimulated gastric mucosal blood flow in dog and rat. These observations are consistent with the hypothesis that endogenous prostaglandin activity within the gastric mucosa contributes to the maintenance of its blood flow.Also it has been postulated that endogenous prostaglandins may, in part, mediate the vasodilation associated with stimulated gastric acid secretion. Exogenous prostacyclin and PGE₂ inhibit stimulated acid secretion while increasing mucosal blood flow. Indomethacin and aspirin-inhibited endogenous prostaglandin synthesis has been reported to increase stimulated acid secretion and reduce mucosal blood flow in anesthetized rat and dog. In gastric secretory fluid, prostaglandins have been detected during gastrin stimulation by some investigators and a dose response relationship between rate of secretion and fluid prostaglandin output has been observed. These observations are consistent with the hypothesis that endogenous prostaglandins may, in part, contribute to the regulation of mucosal blood flow during stimulated acid secretion. Further studies, directly measuring specific endogenous prostaglandins and their metabolic products within the gastric mucosa during stimulated and inhibited acid secretion will be necessary to prove or disprove this hypothesis.     

The role of glucagon in the regulation of blood glucose: Model studies

Mathematical models afford a procedure of unifying concepts and hypotheses by expressing quantitative relationships between observables. The model presented indicates the roles of both insulin and glucagon as regulators of blood glucose, albeit in different ranges of the blood glucose concentrations. Insulin secretion is induced during hyperglycemia, while glucagon secretion results during hypoglycemia. These are demonstrated by simulations of a mathematical model conformed to data from the oral glucose tolerance test and the insulin infusion test in normal control subjects and stable and unstable diabetic patients. The model studies suggest the parameters could prove of value in quantifying the diabetic condition by indicating the degree of instability. Presented at the Society for Mathematical Biology Meeting, University of Pennsylvania, Philadelphia, August 19–21, 1976.     

Effect of NSAIDS on serum electrolytes and osmolality

Rabbits and rats were injected two Nonsteroidal anti-inflammatory drugs (aspirin 300 mg/kg or indomethacin 3 mg/kg) intraperitoneally. One hour after injection blood was analyzed for serum electrolytes and osmolality. Administration of both aspirin and indomethacin in rabbits and rats caused increase in serum sodium, potassium, calcium, chloride, magnesium, phosphorus and osmolality. Results suggest the marked similarity in the action of aspirin and indomethacin on electrolytes and osmolality. It is concluded that the ingestion of aspirin and indomethacin can have a major effect on serum electrolytes and osmolality that may influence the interpretation of clinical data in patients taking these drugs.     

Effect of ethanol on serum electrolytes and osmolality

Rats and rabbits were injected ethanol 2 g/kg intraperitoneally. One hour after injection blood was analyzed for serum electrolytes and osmolality. Administration of ethanol caused decrease in serum sodium (p less than 0.0005), potassium (p less than 0.0005), calcium (p less than 0.0005), chloride (p less than 0.005), magnesium (p less than 0.0005) in rabbits. Further studies of intraperitoneal administration of ethanol in rats showed decrease in concentration of sodium (p less than 0.025), potassium (p less than 0.025), calcium (p less than 0.01) chloride (p less than 0.005) magnesium (p less than 0.005), phosphorus (p less than 0.025) and glucose (p less than 0.005). Administration of ethanol caused an increase in serum osmolality in both rabbits and rats (p less than 0.005, p less than 0.05). It is concluded that ethanol ingestion is probably the commonest cause of the hyperosmolar state. Although the osmotic and sedative effects of ethanol are pharmacologically unrelated, the presence of ethanol should be considered in comatose patients in whom the measured plasma osmolality appreciably exceeds that predicted on the basis of plasma glucose, urea and electrolytes concentration.     

The role of endogenous modulators of chemoreactivity in the regulation of coronary blood flow

32 circulatory bands of coronary arteries of 5 pigs were studied. It has been revealed that the bands develop long-term tonic contraction activity in Krebs's solution (30 mM of KCl). In this case adrenalin in concentration of 10(-7) g/ml causes mild relaxation. In concentration of 10(-6) g/ml, it causes obvious relaxation. Trimetazidin and mildronat do not affect tonic contraction of the bands. They can quickly and reversibly increase relaxation effects of adrenaline. The preparations can increase ten-fold beta-adrenoreactivity of smooth muscles. This shows an important role of endogenic sensibilizers of beta-adrenoreceptors in regulation of coronary blood flow in humans.     

The role of the lymphoid system in the regulation of the blood glucose level.

Recent findings have led to a new hypothesis in which it is proposed that the immune system plays a role in regulating the increase in blood glucose levels after a meal. The relevant findings are: (1) the primary lymphoid tissue, the lymph nodes are mostly present within adipose tissue depots throughout the body (there are at least 12 such depots and about 10 (12) lymphocytes, 99% of which are present in lymph nodes); (2) lymphocytes and other immune cells utilize glucose at a high rate but almost all of it is converted to lactate which accumulates in the cells prior to release; (3) glutamine, some of which is synthesized in muscle from glucose, is utilized at a high rate by immune cells, the end-product of which is mainly aspartate, which also accumulates in the cells prior to release; and (4) finally, there is a common blood supply to the lymph node and the adipose tissue depot and the blood flow through the depot and hence the node is increased after a meal. It is proposed that, after a meal, some of the absorbed glucose is taken up from the blood by the lymphocytes and converted to lactate and glutamine is converted to aspartate. These are released slowly into the blood from where they are removed and converted to glycogen by the liver. Hence the immune cells provide a temporary buffer for glucose in the form of lactate and aspartate and, in this way, restrict the rise in blood glucose during and after a meal.