UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To assess the role of peripheral sympathetic nerves in the regulation of calcitonin release, rats subjected to superior cervical ganglionectomy (SCGx) 16-28 h earlier were used. The time periods selected allowed us to examine C cell response during the supraliminal release of sympathetic transmitter that accompanies anterograde degeneration of nerve varicosities as well as during the neural paralysis that ensues thereafter. At the time intervals examined, SCGx did not result in significant changes of basal serum calcitonin or Ca levels. The intraperitoneal administration of CaCl2 brought about an impending increase of serum Ca to the same extent in SCGx and sham-operated rats. A significant depression of calcitonin release was observed in rats killed around the time of nerve terminal degeneration (16-21 h post SCGx) but not about 10 h later. Additionally a delay to achieve a maximal calcitonin response was apparent during nerve degeneration. Injection of the alpha-adrenoceptor blocker phenoxybenzamine significantly increased basal calcitonin levels and restored the depressed calcitonin response to hypercalcemia seen in SCGx rats. Treatment with the beta-adrenoceptor-blocker propranolol counteracted phenoxybenzamine activity but was unable to modify per se calcitonin release in SCGx or sham-operated rats. Basal Ca levels and their increase after intraperitoneal CaCl2 were similar in all examined groups regardless of the drug injected. In an additional experiment phenoxybenzamine injected into SCGx rats in doses one-fifth those employed earlier still reversed both the depression in maximal calcitonin response as well as the delay to attain maximal release after CaCl2, but was unable to affect basal calcitonin levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in calcitonin release during sympathetic nerve degeneration after superior cervical ganglionectomy of rats. 374 8

The effect of phosphate infusion on renal tubular handling of calcium and phosphate was examined in dogs which had been thyroparathyroidectomized (TPTX) immediately prior to the studies. Phosphate infusions in TPTX animals caused a small decrease in total and ultrafilterable plasma calcium, and decreased phosphate reabsorptive capacity in the proximal tubule and loop segment. Infusion of CaCl2 during phosphate loading to offset the fall in plasma calcium prevented the reduction in proximal phosphate reabsorptive capacity. However, between the proximal and distal sampling site, the reduction in phosphate reabsorptive capacity could not be prevented by CaCl2 administration. These data are consistent with the presence of two phosphate transport systems; one in the early proximal tubule, modulated by changes in plasma calcium level, and a second in the loop segment, which is independent of calcium. While the data suggest that the depression of proximal phosphate reabsorption during phosphate infusion may be secondary to the fall in plasma calcium concentration, they do not exclude a direct effect of infused phosphate on proximal phosphate reabsorption that may be antagonized by an opposing direct effect of the calcium infusion.
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PMID:Effects of phosphate and calcium infusion on renal phosphate transport in the dog. 396 6

The mechanism of inhibitory action of disodium cromoglycate (DSCG) and Ketotifen (Ke) on smooth muscle against various spasmogens remains uncertain. In an attempt to elucidate it, we have studied the effects of both drugs on cumulative dose response curves (CDRC) to CaCl2 in guinea pig ileum. We found that they induce a shift to the right and a non surmountable depression of the maximal response of these CDRC which suggests non competitive antagonism. Furthermore, DSCG inhibits 45Ca++ uptake by guinea pig ileum after acetylcholine stimulation which constitutes strong evidence that inhibition of calcium ion utilization by smooth muscle cells plays a major role in the mode of action of DSCG.
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PMID:Involvement of calcium ions in the mode of action of disodium cromoglycate and ketotifen on smooth muscle. 640 89

Rats anesthetized with pentobarbital and ventilated artificially were intoxicated with 1 mg/kg X min propranolol i.v. After 30 min heart rate, mean arterial blood pressure and peripheral resistance had dropped by about 50% and cardiac output by about 25% and were stable for up to 120 min. Isoprenaline proved to be the best antidote for the treatment of propranolol intoxication antagonizing the bradycardia by 76% and the hypotension completely. The antagonistic activities of orciprenaline and prenalterol were lower than those of isoprenaline. Dopamine, adrenaline and noradrenaline antagonized propranolol-induced hypotension but did not considerably influence the bradycardia whereas dobutamine was nearly ineffective in both respects. Glucagon and aminophylline displayed some chronotropic activity without influencing propranolol-induced hypotension. Calcium chloride, on the other hand, produced a moderate elevation of blood pressure but only a small chronotropic activity, and atropine was inactive in both respects. Isoprenaline also restored the cardiac function of propranolol-poisoned rats if administered by infusion and, furthermore, increased the lethal dose of propranolol from 77 to 165 mg/kg. The strong antagonistic activity of isoprenaline against propranolol-induced cardiovascular depression was also confirmed by experiments in pigs. In conclusion, isoprenaline is the most active antidote for the treatment of propranolol intoxication in the rat though the administration of massive doses are required. The vasodilatory effect of isoprenaline can be overcome by the additional administration of a vasoconstricting agent like dopamine.
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PMID:Evaluation of antidotes against the acute cardiovascular toxicity of propranolol. 674 Jul 1

Ten normocalcemic critically ill patients who had experienced a decrease in cardiac index greater than or equal to 0.5 liter/min/m2 after incremental changes of PEEP received 7 mg/kg of CaCl2 as a slow iv bolus, followed by an infusion of 20 mg/kg CaCl2 over 60 min. Hemodynamic pressures and flow, oxygen uptake and transport, and blood chemistry variables were determined over a 120-min period. The results indicated that: (1) hemodynamic variables were not affected except for left ventricular stroke work index and mean blood pressure, which increased slightly; (2) both serum calcium and ionized calcium concentrations increased significantly, sometimes to dangerous levels; (3) colloid osmotic pressure and hemoglobin levels decreased slightly but consistently. In conclusion, CaCl2 administration failed to improve hemodynamic function depressed by PEEP. If CaCl2 can play a relevant role in the management of cardiovascular depression, further identification of appropriate doses and patients is necessary.
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PMID:Calcium chloride administration in normocalcemic critically ill patients. 698 39

I microinjected calcium ions into echinoderm eggs during mitosis to determine the calcium sensitivity of microtubules (Mts) in vivo. Spindle birefringence (BR), a measure of the number of aligned Mts in the spindle, is locally, rapidly, and reversibly abolished by small volumes of microinjected CaCl2 (1 mM). Rapid return of BR is followed by anaphase, and subsequent divisions are normal. Similar doses of MgCl2, BaCl2, KCl, NaCl, pH buffers, distilled water, or vegetable oil have no effect on spindle BR, whereas large doses of such agents sometimes cause slow, uniform loss in BR over the course of a minute or more. Of the ions tested, only Sr++ causes effects comparable to Ca++. Ca-EGTA buffers, containing greater than micromolar free Ca++, abolishes BR in a manner similar to millimolar concentrations of injected CaCl2. Caffeine, a potent uncoupler of the Ca++-pump/ATPase of sarcoplasmic reticulum, causes a local, transient depression in spindle BR in the injected region. Finally, injection of potassium oxalate results in the formation of small, highly BR crystals, presumably CA-oxalate, in Triton-sensitive compartments in the cytoplasm. Taken together, these findings demonstrate that spindle Mts are sensitive to levels of free Ca++ in the physiological range, provide evidence for the existence of a strong cytoplasmic Ca++-sequestering system, and support the notion that Mt assembly and disassembly in local regions of the spindle may be orchestrated by local changes in the cytoplasmic free Ca++ concentration during mitosis. An appendix offers the design of a new chamber for immobilizing echinoderm eggs for injection, a new method for determining the volume of the injected solution, and a description of the microinjection technique, which was designed, but never fully described, by Hiramoto (Y. Hiramoto, Exp. Cell. Res., 1962, 27:416-426.).
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PMID:Studies on the in vivo sensitivity of spindle microtubules to calcium ions and evidence for a vesicular calcium-sequestering system. 719 45

Inotropic responsiveness to norepinephrine (NE) or Ca2+ was studied in 15 rabbits with catecholamine cardiomyopathy (CM) and the results were compared with 11 controls. The former group was prepared by infusing NE (2 micrograms/min/kg) for 90 minutes, 2 to 3 days prior to study, and injury was confirmed and quantified histologically. Comparison of NE dose-response curves relating percent increase of left ventricular (LV) dP/dt max to NE dose in six controls and 10 CM hearts revealed significant depression of CM contractility. Responses to graded infusions of Ca2+ were also determined in five controls and in five CM animals. With the increases in serum Ca2+ identical in the two groups, the percent increases in dP/dt max were less in CM hearts. Further, NE dose-response curves obtained during continuous CaCl2 infusion were sharply attenuated in CM hearts and initial LV end-diastolic pressure (LVEDP) in the CM hearts was considerably higher than in the controls. It is concluded that inotropic sensitivity to NE is reduced in CM hearts. This cannot be ascribed to altered beta-receptors alone, because responsiveness to Ca2+ was also reduced. Myocardial damage was indicated by histology and elevated LVEDP. Moreover, the normalized percent data suggest tht the remaining viable fibers in the CM hearts were functioning subnormally and thus reduced performance was not due solely to the decreased number of contracting units.
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PMID:Inotropic responsiveness of the heart in catecholamine cardiomyopathy. 745 36

Dantrolene sodium, a muscle relaxant, does not have a clinically useful antagonist. The present study was undertaken to test the efficacies of germine monoacetate, 4-aminopyridine, neostigmine, and calcium chloride as possible agents for the reversal of the direct skeletal muscle depression produced by dantrolene sodium in the cat anesthetized with alpha-chloralose. Depression of the indirectly elicited twitch responses (0.1 Hz) of the tibialis anterior muscle by 25, 50, 75 and 84 per cent was produced by dantrolene, 0.16, 0.36, 0.88 and 1.13 mg/kg respectively; spontaneous recovery of twitch tension during the subsequent 30 min was negligible. After the 30-min observation period had elapsed, one of the reversal agents under study was given (iv) in divided doses at intervals of 10 min (five cats for each agent). Germine monoacetate (2 X 0.5 mg/kg) immediately reversed the dantrolene-induced twitch depression, with an over-shoot that persisted for an hour. 4-Aminopyridine (4 X 0.5 mg/kg) caused a steady but incomplete reversal to 17 per cent depression, 30 min after the last dose. Neostigmine (4 X 0.04 mg/kg) caused an immediate, but transient, reversal of the twitch depression, with overshoot. Calcium chloride (4 X 10 mg/kg) was without effect. It is concluded that germine monoacetate is the drug of choice for reversal of the muscle depression produced by dantrolene sodium in the cat.
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PMID:Reversal of dantrolene sodium-induced depression of skeletal muscle in the cat. 745 84

Glutathione (GSH) regeneration was studied in rabbit erythrocytes which were loaded with calcium using ionophore A23187. Calcium-loading induced by A23187 and various concentrations of CaCl2 caused a dose-dependent depression in red cell GSH regeneration. The lowered GSH regeneration was mainly due to reduction of ATP level. In an experiment using haemolysate, the effect of calcium per se was negligible, while magnesium strongly affected GSH regeneration by controlling the rate of hexokinase reaction. These results indicate a possibility that cation perturbation, metabolic decay and oxidative damage are all interrelated in the erythrocyte aging process.
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PMID:Glutathione regeneration in calcium-loaded erythrocytes: a possible relationship among calcium accumulation, ATP decrement and oxidative damage. 755 47

1. NiCl2 (cumulative concentrations of 0.56-1.91 mmol 1(-1)) produced concentration-dependent depression of tension developed (Td) and the maximum rate of rise of tension (dT/dt max) of isometric contraction of the isolated rat hemidiaphragm, during direct subtetanic (DST) electrical stimulation, only. EC50 values for NiCl2-induced depression of Td and Dt/dt max were 0.88 +/- 0.06 and 0.83 +/- 0.13 mmol 1(-1), respectively. NiCl2 did not significantly change either parameter of the isometric contraction during direct single-pulse (DSP) electrical stimulation. 2. Maximal depression of Td and dT/dt max, produced by a single concentration of NiCl2 (1 mmol 1(-1)) during DST electrical stimulation was obtained 20 min after addition of the drug in the bathing medium. 3. In the normal Tyrode solution, addition of CaCl2 (final concentration of 5.86 mmol 1(-1)) almost completely antagonized the depressant effect of NiCl2 (1 mmol 1(-1)) on Td and dT/dt max during DST electrical stimulation. In the calcium-free solution, the depression both of Td and dT/dt max produced by NiCl2 (1 mmol 1(-1)) was significantly more pronounced in comparison with the effect of NiCl2 in the normal Tyrode solution. 4. L-calcium channel activator, Bay K 8644 (25 mumol 1(-1)), significantly potentiated both Td and dT/dt max during DST electrical stimulation, but NiCl2 (1 mmol 1(-1)) decreased both parameters of the isometric contraction even in the presence of this concentration of Bay K 8644. On the other hand Bay K 8644 (25 mumol 1(-1)) did not antagonize NiCl2-induced depression of Td and dT/dt max. 5. Verapamil (2.5 mumol 1(-1); 45 min of incubation) and lidocaine (0.10 mmol 1(-1); 30 min of incubation) significantly potentiated the depression of Td and dT/dt max, produced by NiCl2 (1 mmol 1(-1), during DST electrical stimulation. The addition of CaCl2 (final concentration of 7.20 mmol 1(-1)) in the bathing medium only partially antagonized the depressant synergistic action of both verapamil or lidocaine and NiCl2 on Td and dT/dt max. 6. Forskolin (cumulative concentrations of 2.60-44.20 mumol 1(-1)) fully antagonized NiCl2-induced depression of both Td and dT/dt max; propranolol (1 mumol 1(-1)) did not abolish this antagonizing action of forskolin. Also, NiCl2 (cumulative concentrations of 0.56 -1.54 mmol 1(-1)) did not change potentiating effect of forskolin (23.4 mumol 1(-1)).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The effect of nickel chloride on the isolated hemidiaphragm of the rat. 755 56

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