Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Intravenous injection of CT 1341 (a mixture of alphaxalone and alphadolone dissolved in cremophor el) induced a decrease in cerebral blood flow (CBF) measured by 133Xe clearance in cats with artificial respiration (the mean reduction in CBF was 2 ml/100 g/mn for 1,2 mg/kg or CT 1341. So, CBF was decreased by 22% when CT 1341 (7,2 mg/kg) was intravenously injected, (mean Pa CO2 equals 30 mm Hg). Changes in CBF following CT 1341 intravenous injection seems to be caused by cerebral vascular constriction evidenced by the direct observation of pial vessels. Following intravenous injection of CT 1341 (from 7, 2 mg/kg to 19,2 mg/kg), the cerebrovascular reactivity to hypercapnia or hypocapnia was not affected, but autoregulation of cerebral blood flow was transiently abolished. In animals with free respiration, CBF was increased in relation with the elevation in Pa CO2 caused by the depression of respiration.
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PMID:[Effects of combination alfaxalone and alfadolone, anesthetic derivatives of pregnanedione, on cerebral hemodynamics in cats]. 12 19

Dextropropoxyphene (DP) is a commonly used medicament for suicide attempts in Denmark. Death may occur from respiratory depression or cardiac arrest. Mechanical hyperventilation which induces hypocapnia seems to reduce the occurrence of cardiac complications. In an attempt to relate the clinical events to the plasma concentrations of DP and the major metabolite norpropoxyphene (NP) we studied patients with acute poisoning treated either for 48 h with induced hypocapnia by hyperventilation or under a conservative regime. Hypocapnia was found to lead to a significant increase in the plasma half-life of DP. Under conservative treatment the plasma half-life was 17.9 +/- 6.7 (S.D.) h (n = 6), while under induced hypocapnia the mean of values from 5 patients was 30.5 +/- 6.9 (S.D.) h. Maximum serum levels of DP and NP were, however, significantly higher in the intensively treated patients (n = 7) than in those treated conservatively (n = 9), though less marked for NP compared to DP (DP: 4.9 +/- 2.1/2.4 +/- 1.0 mumol/l, NP: 6.3 +/- 2.4/4.1 +/- 1.7 mumol/l). A concentration dependent renal clearance of NP was not demonstrable. Possible explanations are the following: 1) A change in disposition pattern blood/tissue of DP during hypocapnia. 2) A reduced metabolism DP to NP during hypocapnia. 3) A reduction in other routes of elimination.
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PMID:Pharmacokinetics of dextropropoxyphene in acute poisoning. 27 28

1. In cats under pentobarbitone anaesthesia the effects of focal temperature changes of the ;chemoceptive' areas on the ventral surface of medulla, described by Loeschcke and his associates, were studied with respect to tidal volume, V(T), tidal variation in efferent phrenic activity, Phr(T), and respiratory rate. The cats were either paralysed and ventilated at various constant P(A,CO2) and P(a,O2) levels, or breathing spontaneously.2. It was confirmed that focal bilateral cooling of the intermediate, ;I((S))', areas caused rapid depression of respiration even at constant artificial ventilation. In normocapnic and normoxic conditions apnoea usually ensued at brain surface temperatures of 20-22 degrees C.3. The effects were graded along continuous temperature-response curves with enhancements of ventilation above and depression below normal body temperature.4. The strongest effects on V(T) and Phr(T) were obtained from the I((S)) areas with no or only small effects on inspiratory or expiratory timing in the vagotomized animal. The Hering-Breuer inflation reflex and its effects on timing and amplitudes were not affected by cooling this area.5. Focal cooling of the caudal or the rostral ;chemoceptive' areas, ;C((L))' and ;R((M))' areas, caused smaller effects on V(T) and Phr(T) but produced significant effects on respiratory rate even after vagotomy.6. The effects of focal cooling of these areas could be mimicked by topical application of procaine solution which has been shown not to penetrate deeper than 100 mum from the surface.7. Moderate focal cooling of area I((S)) to temperatures above 28-30 degrees C caused a parallel shift in the CO(2)-response (V(T), Phr(T)) curves to the right with little change in slope. The P(CO2) thresholds for apnoea were correspondingly raised. These focal temperature effects could be compensated by changes in P(CO2) with, on the average, 2.7 torr/ degrees C. Focal temperatures below 28 degrees C usually caused some decrease in slope of the CO(2)-response curves in addition to further shifts.8. Added hypoxic stimulus or electrical stimulation of the carotid sinus nerves caused an almost parallel increase of Phr(T) at all P(CO2) levels and all focal temperatures suggesting an additive type of interaction between the input from the peripheral chemoreceptors and that from the central (CO(2), H(+)) sensing structures whether the latter was altered by changing P(CO2) or by focal temperature changes on the I((S)) areas.9. In contrast to these effects of hypoxia and stimulation of the carotid sinus nerves the reflex increase of inspiratory activity caused by lung deflation or by electrical stimulation of the glossopharyngeal nerve distal to the carotid sinus nerves was CO(2) dependent. These reflex effects decreased with focal cooling of the I((S)) areas as with hypocapnia, suggesting a mainly multiplicative or ;gain-changing' type of interaction with the central chemoceptive drive.10. The close similarities in effect of focal cooling and of hypocapnia on the different respiratory parameters even during constant artificial ventilation indicate that focal temperature changes of the I((S)) areas intervene effectively with the normal ventilatory response to CO(2) without changing the chemical or physical environment of those neural structures in the brain stem which set respiratory pattern.
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PMID:Graded changes in central chemoceptor input by local temperature changes on the ventral surface of medulla. 43 Mar 96

The respiratory frequency, tidal volume and ventilization responses of 20 conscious cats to hypoxia, at controlled levels of alveolar CO2, revealed a characteristic steady state response in the majority of animals which indicated a negative interaction of stimuli on tidal volume and minute volume of ventilation, but a positive interaction on frequency. Another series of studies, conducted on seven conscious cats, sought to identify hypoxic response thresholds and depression thresholds, by determining responses over a wide range of hypoxic stimulus intensities, and at different controlled alveolar PCO2. Response threshold was at about 65 torr PAO2. Under eucapnic conditions, ventilation began to fail at PAO2 about 30 torr due to failure of tidal volume. The frequency continued to increase even in the lowest range of PAO2. With hypocapnia no failure of ventilation, frequency, or tidal volume was seen even at the lowest PAO2, but with hypercapnia, the tidal volume began to fail at PAO2 about 50 torr. The minute volume however, continued to increase into the lowest range of PAO2, because the frequency continued to respond at a rate greater than the tidal volume was failing. The results are discussed in terms of interactive depression manifest through the coupled responses of peripheral and central mechanisms.
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PMID:Hypoxia and carbon dioxide as separate and interactive depressants of ventilation. 101 31

It is well known that hypoxia, acting mainly through peripheral chemoreceptors, is an important ventilatory stimulus. It is also known that under certain circumstances hypoxia can lead to ventilatory depression, perhaps through its effect on the central nervous system. This study, utilizing dogs, was carried out to determine the degree of hypoxia required to produce ventilatory depression and to study the effects of chloralose anesthesia, variations in blood carbon dioxide tension, and peripheral chemoreceptor denervation on hypoxic ventilatory depression. In the awake, intact dog, ventilatory depression did not occur until the Pao2 = 18.6 plus or minus 0.8 mmHg (SEM). This value was not significantly different from that observed in chloralose anesthetized dogs, Pao2 = 18.7 plus or minus 0.43 mmHg. Hyper- and hypocapnia had no significant effect on the Pao2 at which ventilatory depression occurred. Denervation of either aortic or carotid chemoreceptors produced a very small change in the Pao2 of ventilatory depression, increasing it from 18.6 plus or minus 0.58 to 20.8 plus or minus 0.93 mmHg. Denervation of both aortic and carotid chemoreceptors produced a further small increase (Pao2 = 21.8 plus or minus 0.76 mm Hg). In peripheral chemoreceptor-denervated animals, hypoxia produced no significant change in ventilation until the ventilatory depression point was reached. These studies indicate that in the dog hypoxic ventilatory depression occurs only during severe hypoxia and ventilatory depression occurs only during severe hypoxia and is uninfluenced by chloralose anesthesia, hyper- or hypocapnia, and only slightly affected by chemoreceptor denervation.
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PMID:Hypoxic ventilatory depression in dogs. 111 Feb 30

Forty-seven patients undergoing elective/emergency surgery were investigated for the recovery pattern by numerically scoring the state of consciousness, skeletomuscular tone, respiration and blood pressure after the neuromuscular transmission at the level of thenar muscles returned to normalcy. Anaesthesia in them consisted of thiopentone induction and passive ventilation with nitrous oxide and oxygen mixtures (4 1/2:2 1/2 1) with consequent changes in PaCO-2 (22.0 to 90 mm Hg) after using 0.43 to 0.68 mg/kg d-tubocurarine or 2.3 to 3.8 mg/kg gallamine. In this series twelve patients were selected at random and biological assay of cerebrospinal fluid in them for curare/gallamine after 15 min anaesthesia and in the recovery phase was carried out on frog rectus muscle. All the patients recovered satisfactorily and did not present clinical signs of depression of central nervous system, even though all of them showed the presence of curare (ranging from 0.05 to 0.33 mug/ml) and gallamine (from 0.1 to 0.75 mug/ml) in the cerebrospinal fluid. This study therefore indicates that thiopentone, nitrous oxide and relaxant type of anaesthesia does not cause clinical syndrome of post-operative paralysis even when mild to moderate degree of hypocapnia is present and even when such a technique of anaesthesia is administered in poor-risk patients with associated changes in acid-base balance, electrolytes etc. Significant quantities of skeleto-muscular relaxant drug (used during the technique) when found in cerebrospinal fluid after the technique of anaesthesia need not induce post-operative paralysis in man.
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PMID:Role of thiopentone, nitrous oxide and relaxant anaesthesia in causing the syndrome of post-operative paralysis in man. 112 16

Rings of canine bronchi were studied in vitro to determine the effects of halothane on the responses of airway smooth muscle to hypercapnia and hypocapnia. Bronchi were first contracted to 50% of maximal active force with acetylcholine (ACh), 5-hydroxytryptamine (5HT), potassium chloride (KCl), or the muscarinic agonist McN-A-343 (McN). The CO2 concentration of the bathing solution was then changed from 6% to either 1% (hypocapnia) or 10% (hypercapnia). In the absence of halothane, changes in CO2 concentration had no significant effect on muscles contracted with ACh. With all other contractile agonists, increasing the CO2 concentration caused bronchial relaxation, while decreasing the CO2 concentration caused contraction. In the presence of 2 MAC halothane, hypocapnia relaxed bronchi contracted with the muscarinic agonists ACh or McN; the responses to hypocapnia of bronchi contracted with KCl and 5HT were not significantly changed by halothane. Halothane had no effect on the responses of the bronchi to hypercapnia. We conclude that airway smooth muscle contracted with cholinergic agonist relaxes in response to hypocapnia when exposed to 2 MAC halothane; this mechanism may contribute to the depression of hypocapnic bronchoconstriction caused by halothane in vivo.
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PMID:Halothane alters the response of isolated airway smooth muscle to carbon dioxide. 156 97

Manual ventilation is frequently performed by nurses to control increases in intracranial pressure (ICP) or during physiotherapy in head injured comatose patients. The effects of manual ventilation (n = 251) on ICP, cerebral perfusion pressure (CPP) and EEG have been studied in 18 mechanically ventilated patients. A fall in ICP was easily obtained but a fall in arterial blood pressure was often present at the same time. Thus a reduction in CPP resulted in 36% of occasions. Prophylactic boluses of thiopental (n = 67) before noxious stimuli obtained a fall in ICP in 99% of occasions but resulted in a decrease in CPP in 46%. The fall in ICP, due to the decrease in cerebral blood flow (CBF) by hypocapnia or metabolic depression and/or arterial hypotension, may be beneficial in hyperaemic brains but may precipitate cerebral hypoxia in ischaemic lesions. Relevant information about cortical metabolism (CMR) may be obtained from EEG monitoring by Cerebral Function Monitor but, unfortunately, no data about CBF are clinically available. The Authors suggest that the continuous monitoring of jugular bulb oxygen saturation (SjO2) may offer a clinically useful index of CBF adequacy to CMR. Findings from a preliminary study in 5 patients demonstrate that a severe decrease in SjO2 has been frequently caused by manual ventilation, hypothetically related to severe cerebral ischemia. High levels of SjO2 have been induced by endotracheal suction and physiotherapy, probably related to severe hyperemia. As prevention of ischaemic and hyperaemic insults is a major goal of treatment, the A. suggest that these undesirable effects of nursing might be avoided if nurses could take advantage of continuous monitoring of SjO2.
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PMID:[Continuous monitoring of O2 saturation in cerebral blood. A guide for the nursing of brain trauma patients in coma]. 162 Apr 53

The purpose of this study was to compare psychologic and physiologic variables during intense dyspnea to those at times of no or low dyspnea in people with asthma. Thirty-six adults ranging from 19 to 76 years old were tested when they first came to the emergency department in acute dyspnea and again when they had no or low dyspnea just prior to discharge. Clinical signs found to be higher during high dyspnea than low dyspnea were respiratory rate, pulse, wheezing, and accessory muscle use. Peak expiratory flow rates and oxygen saturation were significantly lower, while anxiety, depression, somatization, and hostility were higher during times of high dyspnea. The panic/fear, fatigue, dyspnea, hyperventilation/hypocapnia, congestion, and rapid breathing subscales of the Asthma Symptom Checklist were also higher during high dyspnea compared to low dyspnea.
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PMID:Psychologic and physiologic aspects of acute dyspnea in asthmatics. 185 43

Prolonged exposure to hypoxia is accompanied by decreased hypoxic ventilatory response (HVR), but the relative importance of peripheral and central mechanisms of this hypoxic desensitization remain unclear. To determine whether the hypoxic sensitivity of peripheral chemoreceptors decreases during chronic hypoxia, we measured ventilatory and carotid sinus nerve (CSN) responses to isocapnic hypoxia in five cats exposed to simulated altitude of 5,500 m (barometric pressure 375 Torr) for 3-4 wk. Exposure to 3-4 wk of hypobaric hypoxia produced a decrease in HVR, measured as the shape parameter A in cats both awake (from 53.9 +/- 10.1 to 14.8 +/- 1.8; P less than 0.05) and anesthetized (from 50.2 +/- 8.2 to 8.5 +/- 1.8; P less than 0.05). Sustained hypoxic exposure decreased end-tidal CO2 tension (PETCO2, 33.3 +/- 1.2 to 28.1 +/- 1.3 Torr) during room-air breathing in awake cats. To determine whether hypocapnia contributed to the observed depression in HVR, we also measured eucapnic HVR (PETCO2 33.3 +/- 0.9 Torr) and found that HVR after hypoxic exposure remained lower than preexposed value (A = 17.4 +/- 4.2 vs. 53.9 +/- 10.1 in awake cats; P less than 0.05). A control group (n = 5) was selected for hypoxic ventilatory response matched to the baseline measurements of the experimental group. The decreased HVR after hypoxic exposure was associated with a parallel decrease in the carotid body response to hypoxia (A = 20.6 +/- 4.8) compared with that of control cats (A = 46.9 +/- 6.3; P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Attenuated carotid body hypoxic sensitivity after prolonged hypoxic exposure. 202 66


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