UNIPROT:Q86TM3 - FACTA Search

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Query: UNIPROT:Q86TM3 (cage)
29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In a previous study of newborn infants we observed overall rib cage collapse during active sleep and postulated that the lungs also could be deflated, leading to reduced oxygen stores and circumstances favoring the rapid development of hypoxemia during apnea. In this study, thoracic gas volume (TGV) has been measured directly by occlusion plethysmography in six normal babies during behavioral quiet and active sleep and related to the different movements of the rib cage and abdomen-diaphragm that occur during each sleep state. TGV was significantly reduced in each baby during active sleep and was associated with rib cage deflation and increased abdomen-diaphragm excursions. The average reduction of TGV was 31% when compared with the volume in quiet sleep and did not depend on the order in which the sleep states were tested. The reduced lung volume in active sleep could have implications for the regulation of breathing in that state. A reduction of lung oxygen stores in active sleep suggests an age-related vulnerability of the young infant to hypoxemia.
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PMID:Reduced lung volume during behavioral active sleep in the newborn. 22 15

Investigations were performed with the aim of establishing the influence of various environmental conditions (such as steady field conditions, climatized laboratories, Faraday's cage) on a number of enzymic activities in the rat (including glutamic oxaloacetic tic transaminase, glutamic pyruvic transaminase, lactic dehydrogenase, gamma-glutamyl transpeptidase, acid phosphatase), as well as the serum concentrations of triglycerides, the oxygen consumption of hepatic parenchyma cells, and the influence on the incorporation of 3H-thymidine (following partial hepatectomy). In the steady field, the activities of the cytoplasmic enzymes (GOT, GPT, LDH) were higher then under Faraday conditions. The same applies both to the hepatic oxygen consumption and to the neutral fat serum levels. The control values always remained within the range of the results obtained under steady field or Faraday conditions. In the structure-linked enzymes (gamma-glutamyl transpeptidase, acid phosphatase) the results were not uniform. Following partial hepatectomy, and under steady field conditions, the serum triglyceride concentrations showed a less pronounced drop than they did in the controls. Under selected environmental conditions, the results obtained lie within the physiological range. The present findings, therefore, do not permit definite conclusions to be drawn on favourable or unfavourable effects exerted by the different types of electroclimates.
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PMID:[Metabolism of rat liver in the electrostatic field and in the faraday cage before and after hepatectomy (author's transl)]. 24 66

In 1960 direct laryngoscopy in combination with general anaesthesia with relaxation and intermittent positive negative pressure ventilation via a smallbore blocker tube was introduced. When, in 1965, microlaryngoscopy was developed it was exclusively performed with this technique. Since 1960, 44, 464 ear, nose or throat operations were carried out. 3,305 (7.4%) were endolaryngeal operations. 943 of them were performed in surface analgesia. 2,363 microlaryngoscopic operations were done under general anaesthesia. 22.5 per cent of the patients were women and 77.5 per cent were men. Their age varied between 6 weeks and 86 years. 2.4 per cent were children under 6 years of age and 33 per cent were aged over 60 years. The main advantages of this method over "open laryngeal surgery" are: 1. it provides a large measure of safety for the patient since even old and obese persons with a rigid rib cage can be adequately ventilated; the cuff prevents aspiration; there is no danger of the patient waking up during relaxation since he is being kept ventilated with a mixture of nitrous oxide-oxygen and halothane. Ventilation via the blocker tube begins immediately after intubation and not, as in open jet ventilation, after insertion of the laryngoscope. 2. The surgeon and his team are not exposed to the risk of infection since, in contrast to the "open larynx" methods, the closed system effectively prevents the escape of pathogenic micro-organisms.
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PMID:[Development of anaesthetic technique for endolaryngeal surgery 1960--1976 (author's transl)]. 37 44

A new method for perfusion of rat lungs in situ was developed for metabolic studies. The pulmonary circulation was cannulated without contacting the lungs, which remained in the thoracic cage. Perfusion was continued for up to 4 h with Krebs-Henseleit bicarbonate buffer, equilibrated with 95% O2- 5% CO2 and containing 4.5% bovine serum albumin, 5.6 mM glucose, and levels of amino acids normally found in rat plasma. At an arterial pressure of 20 cmH2O flow remained constant (10.9 ml/min.100 g body wt) and appeared evenly distributed among the lobes. Tidal volume was 1 ml/100 g body wt (72/min); positive end-expiratory pressure was 2 cmH2O. The preparation remained stable and metabolically active for 4 h, as evidenced by a minimal decline in dry-to-wet weight ratio, constant levels of ATP and glycogen, a high ratio of glucose uptake to lactate production, and a linear rate of incorporation of [14C]phenylalanine into protein. The lungs were unaffected when perfusate oxygen was reduced to a more physiological level (20% O2-75% N2-5% CO2). In the presence of 95% N2-5% CO2 dry-to-wet weight ratio, ATP, glycogen, and amino acid incorporation decreased, while lactate production doubled.
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PMID:In situ perfusion of rat lungs: stability and effects of oxygen tension. 46 88

The impact of the combined effects of exposure time and hydrostatic pressure on pressure reduction is explored in this study. In Phase I of the study, excursion dives were made to 10, 20, and 30 ATA for 5, 10, 20, 40, or 80 min. In Phase II, the animals were saturated at 1.3, 10, or 20 ATA for 60 min; each saturation exposure was followed by a 10-atm excursion dive of either 1, 5, 10, 20, or 40 min. The chamber gas mixture during all pressure exposures was 0.51 ATA oxygen, 0.79 ATA nitrogen, and the remainder helium. The subjects were 655 rats; during each pressure exposure 5 rats were exercised in a rotating cage. After each exposure, the rats were abruptly decompressed to a lesser pressure for observation and tabulation of the decompression sickness incidence. Results suggest that neither the starting saturation pressure nor the differential excursion pressure alters the time required for an animal to reach equilibrium with the surrounding environment. Pressure-reduction values, however, vary with both the exposure pressure and exposure time. These results will have a direct impact on the formulation of future decompression models.
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PMID:Pressure reduction limits for rats subjected to various time/pressure exposures. 73

Thirty-two patients were evaluated within 24 hours of admission for 36 episodes of acute respiratory failure (arterial oxygen pressure less than or equal to 50 mm Hg). Clinical data, spirometric determinations, blood gas analysis, and synchronization of chest (rib cage) and abdominal (diaphragmatic) breathing movements were studied. All patients were initially treated with controlled oxygen therapy. In 25 episodes the patients recovered without intubation (successes). In nine episodes the patients required intubation and assisted ventilation; two of these patients died. Two patients died without intubation. The 25 successful episodes were compared with the 11 requiring intubation or associated with death (failures). The breathing pattern proved to be the best single factor for predicting success or failure (77 percent correct prediction). The breathing pattern plus the arterial carbon dioxide tension on admission was the best two-factor guide (86 percent correct prediction). Patients with asynchronous breathing and severe hypercapnia are so unlikely to do well with a program of controlled oxygen therapy that preparations for intubation and assisted ventilation should be made on admission and such measures should be instituted at the first sign of deterioration.
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PMID:Prospective study of controlled oxygen therapy. Poor prognosis of patients with asynchronous breathing. 85 43

The aims were to examine the gas exchange and arterial blood gas abnormalities among patients with scoliosis, and the correlation of these abnormalities with age and severity of deformity. Means among 51 patients were as follows: age 25.4 +/- 17.5 yr, angle of scoliosis 80.2 +/- 29.9 (SD), vital capacity 1.94 +/- 0.91 (SD) (i.e. 60.6 +/- 19.2% of predicted), PaO2 85.8 +/- 12.0 (SD), PaCO2 42.4 +/- 8.0, physiological dead space to tidal volume ratio 0.438 +/- 0.074 (SD), and alveolar-arterial oxygen difference breathing air 14.9 +/- 8.9 (SD). Statistically significant correlations were as follows: the PaCO2 and physiological dead space to tidal volume ratio increased with age, and the PaO2 and alveolar ventilation decreased with age. The PaO2, alveolar ventilation, and tidal volume were inversely related to the angle of scoliosis and directly related to the vital capacity, precent predicted vital capacity, and the compliance of the respiratory system. The physiological dead space to tidal volume ratio and the alveolar-arterial oxygen difference were inversely related to the vital capacity, percent predicted vital capacity, and the compliance of the respiratory system. PaCO2 was directly related to the elastance of the respiratory system. We conclude that ventilation-blood flow maldistribution as a result of deformity of the rib cage was the primary abnormality in gas exchange, and that with age there was progressive deterioration in gas exchange. The age-dependent increase in PaCO2 and decrease in alveolar ventilation were due to the increasing physiological dead space to tidal volume ratio and failure of a compensatory increase in ventilation.
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PMID:Idiopathic scoliosis. Gas exchange and the age dependence of arterial blood gases. 96 90

An obese patient with a ten year history of respiratory failure presented with insomnia and marked daytime somnolence. Respriatory failure had been attributed to obesity, respiratory centre insensitivity to carbon dioxide, and to diffuse airways obstruction. To investigate the possible role of episodic apnoea with frequent nocturnal arousals, continous recordings were obtained during sleep of arterial oxygen saturation, oesophageal pressure and the motions of the rib-cage and abdomen/diaphragm. Repeated episodes of hypoventilation and profound hypoxaemia were found which were due to intermittent obstruction of the upper airway rather than to cessation of breathing efforts. During the episodes of hypoxaemia, values of arterial O2 tension fell to as low as 24 mmHg. Episodic hypoxaemia was relieved but not abolished, by the use of a collar, designed to hold the mandible forward. Previous reports indicated that recognition of intermittent obstruction of the upper airway during sleep and treatment by a permanent tracheostomy, resulted in a significant long-term imporvement of pulmonary and cardiac function and relief of insomnia and day-time somnolence. When tracheostomy is inadvisable, as in the present patient, it is hoped that similar long-term benefits will result from a supportive collar.
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PMID:Intemittent obstruction of the upper airway during sleep causing profound hypoxaemia. A neglected mechanism exacerbating chronic respiratory failure. 107 82

Chest cage restriction was produced in 13 normal male subjects. We could not detect trapped air during restriction by comparing lung volumes determined by nitrogen washout with those determined by plethysmography. However, 3 subjects did have definite evidence of trapping because they released small amounts of air (mean, 61 ml) when the restriction was removed. Two subjects had suggestive evidence of trapping. Yet there was no correlation between trapping and the degree of increase in static lung recoil associated with restriction. Seven subjects had chest restriction produced while they were breathing air and again while they were breathing 100 per cent oxygen, in an attempt to reveal the presence of airway closure. In only one subject was oxygen breathing clearly associated with a greater then expected increase in lung recoil after restriction; suggestive changes were seen in 2 other subjects. However, there was no definite correlation between unusual increases in lung recoil induced by restriction while breathing oxygen and the presence of air trapping. We conclude that trapping, hence airway closure, is not required for the increase in static lung recoil that occurs with chest cage restriction.
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PMID:Relationship of air trapping to increased lung recoil pressure induced by chest cage restriction. 111 96

Isolated protein kinase C (PKC) was irreversibly inactivated by a brief (min) incubation with calphostin C in the presence of light. This inactivation required Ca2+ either in a millimolar range in the absence of lipid activators or in a submicromolar range in the presence of lipid activators. In addition, an oxygen atmosphere was required suggesting the involvement of oxidation(s) in this inactivation process. Furthermore, PKC inactivation might involve a site-specific oxidative modification of the enzyme at the Ca(2+)-induced hydrophobic region. Physical quenchers of singlet oxygen such as lycopene, beta-carotene, and alpha-tocopherol all reduced the calphostin C-induced inactivation of PKC. In intact cells treated with calphostin C, the inactivation of PKC was rapid in the membrane fraction compared to cytosol. This intracellular PKC inactivation was also found to be irreversible. Therefore, calphostin C can bring prolonged effects for several hours in cells treated for a short time. Taken together these results suggest that the calphostin C-mediated inactivation of PKC involves a site-specific and a 'cage' type oxidative modification of PKC.
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PMID:Irreversible oxidative inactivation of protein kinase C by photosensitive inhibitor calphostin C. 128 Nov 16

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