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:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Obese male rats, with an average body weight of 530 g (approximately 30 weeks old), received either pancreatic elastase (75 microns/100 g) or saline intratracheally and were divided into fed and starved groups. Starved rats were given one-third of their measured daily food consumption. All groups were studied 4 weeks after the initiation of starvation. In both elastase and saline exposed rats, the saline volume-pressure curves expressed as a percentage of maximal lung volume were similar in fed and starved groups. Mean linear intercept (Lm) and alveolar surface area (Sa) were not different between the control-fed and the control-starved rats. Lm was similar but Sa was significantly smaller in the elastase-starved compared with the elastase-fed groups. It is concluded that, in contrast to the aggravating affects of weight loss on experimental emphysema in adult nonobese rats, food restriction does not affect elastase-induced injury significantly in obese animals.
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PMID:Effects of food deprivation on experimental emphysema in obese rats. 139 12

Emphysema in humans takes several different forms: centrilobular, panacinar, paraseptal, and airspace enlargement with fibrosis. The varying morphologic and background features of these forms of emphysema suggest that they differ in pathogenesis. Elastic fiber rupture and fraying are a feature of emphysema. Experimental emphysema may be induced by human neutrophil elastase and other elastolytic enzymes but not by nonelastolytic proteases. Disruption of elastic fibers also appears to be the underlying feature of lathyrogen-induced airspace enlargement and of the emphysema in the blotchy mouse. However, there is no evidence of elastic fiber destruction in cadmium-induced airspace enlargement with fibrosis or in emphysema associated with hyperoxia or severe starvation. Thus, elastic fiber disruption is not common to all forms of experimental emphysema. We posit that airspace enlargement may be a stereotyped response of the lungs to different injuries. Emphysema can be induced in experimental animals by repeated induction of pulmonary neutrophilia. However, the evidence for involvement of neutrophil elastase in human emphysema is not clear: there are studies using a variety of approaches that weigh on both sides of the question. There is also in vitro evidence that alveolar macrophages can degrade elastin or elastic fibers with which they are in contact by means of a metalloelastase or the cooperative action of plasminogen activator and an acid cysteine protease. We conclude that the pathogenesis of emphysema is complex. Neutrophil elastase likely plays a major role in the development of some forms of emphysema, but our understanding of the interactions between the alveolar walls and neutrophils is still fragmentary.
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PMID:Putative role of neutrophil elastase in the pathogenesis of emphysema. 206 48

The effect of starvation on lung mechanics, morphometry, and levels of connective tissue components was determined in young adult golden Syrian hamsters. A base-line control, fed control, and starved group were studied. Fed group animals increased body weight by 13%, but dry lung weight did not increase above that of the base-line controls. The total lung capacity when transpulmonary pressure was at 25 cmH2O (TLC25) also increased by 20% above base-line controls. The mean TLC25 of the starved group was greater than that of the base-line control group but less than that of the fed control group (P less than 0.05). Volume-corrected air-filled volume pressure (VP) curves of the three groups were similar. Volume-corrected saline-filled VP curves were identical in the three groups. Total lung collagen, elastin, glycosaminoglycan, and protein were similar in the three groups. Air space size was significantly increased and mean internal surface area was significantly decreased in the starved group compared with the base-line and fed controls. No evidence of alveolar wall destruction was evident by light or electron microscopy. We conclude that severe starvation of young adult hamsters produces air space enlargement without changes in lung elastic recoil. The mechanism of alveolar wall remodeling is not yet understood in this model of emphysema.
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PMID:Lung mechanics and connective tissue levels in starvation-induced emphysema in hamsters. 374 Mar 10

Starvation and elastase-induced changes in rat lung structure, biochemistry, and function were compared as models of human pulmonary emphysema. Ten-week-old male rats were instilled intratracheally with either porcine pancreatic elastase in saline (E) or with saline alone. A group of the saline-instilled rats were fed one third of their normal food intake until a 45% loss of body weight occurred (S). The remaining saline-instilled rats served as control animals (C). Post-treatment evaluations included in vivo respiratory function, lung histopathologic and morphometric analyses, lung tissue proteinolytic activity, and lung collagen. The E rats had in vivo respiratory function changes more similar to human emphysema than those of S rats. All lung volume subdivisions were decreased in S rats and increased in E rats. The volume-pressure curve of S rats was shifted to the right of the C curve, whereas that of E rats was shifted to the left. Forced expiratory flow rates of E rats were decreased at all lung volumes, but those of S rats were not. Both E and S rats had larger terminal air spaces and less alveolar surface area than did C rats. The S rats had more collagen per gram lung and higher proteinolytic activity than did C or E rats. These results show that, although starvation induces some changes characteristic of human emphysema, elastase-treatment provides a model more similar to the human disease.
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PMID:A comparison of starvation and elastase models of emphysema in the rat. 656 48

Adult male rats were starved by allowing them one fifth of their measured daily food consumption until they lost 40% of their initial body weights. Some of these rats were then refed until their initial body weights were reached. We measured the total content of the following in the lung tissue of fed, starved, and refed animals: (1) elastin, (2) hydroxyproline, and (3) protein. Body weight and lung dry and wet weights were significantly reduced in starved and similar in refed rats compared with fed animals. Total contents of crude connective tissue, hydroxyproline, elastin, and protein were significantly lower in starved than in fed rat lungs. After refeeding, hydroxyproline content returned completely to levels found in fed rats, but other components only partially returned to normal values. These results provide a biochemical counterpart for our previous observations on the effects of starvation and refeeding on lung mechanics and morphologic aspects. It appears that the emphysema like changes in the lungs of starved rats are at least partly related to the loss of connective tissue elements.
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PMID:Changes in connective tissue composition of the lung in starvation and refeeding. 662 42

We examined the effects of starvation on lung structure in rats allowed only one fifth of their measured daily food consumption until they lost 40% of their initial body weight, and evaluated volume-pressure relationships in saline-filled lungs, lung morphometric and connective tissue morphologic features and lung ultrastructure by scanning electron microscopy. Compared with rats fed full rations, the volume-pressure curve was shifted upward and to the left and the chord compliance was significantly increased. In the starved rats, enlargement of air spaces and alveolar wall destruction was associated with a significant increase in mean linear intercept and a decrease in internal surface area. Elastic fibers appeared short, irregular, and fewer in number in starved lungs. Scanning electron microscopy showed enlarged air spaces, thin, irregular, and effaced alveolar walls, and an increased number and size of interalveolar pores in the starved group. We concluded that starvation results in mechanical and morphologic changes in the lung similar to those seen in emphysema, and that starved lung may be a useful experimental model for the study of emphysema.
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PMID:Emphysema-like changes in the lungs of starved rats. 730 17

Adult rats were exposed to an aerosol of 10% papain for 8 h twice in a 2-wk interval. The control rats were exposed to isotonic saline in the same manner. Three weeks after the final exposure rats were divided into four groups: emphysema-fed, emphysema-starved, control-fed, and control-starved. Starved animals received one-third of their measured daily food consumption and water ad libitum for 6 wk. Final body weight, dry and wet weights of lungs and postfixation lung volume (VL) were significantly lower in starved rats. Dry-to-wet weight ratios were not significantly different among the groups, but VL/body weight was significantly higher in starved animals. Elastic recoil pressure of lung tissue determined in saline-filled lungs decreased and chord compliance over mid- and high-volume ranges increased significantly in starved animals both in control and emphysema groups. Mean linear intercept of air spaces was greater and internal surface area was smaller in starved rats in each group. Therefore, it appears that starvation aggravates the preexisting emphysematous processes in rat lungs.
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PMID:Influence of starvation on enzyme-induced emphysema. 736 14

Postmortem studies of patients who died in the Warsaw Ghetto during World War II suggested that death from starvation was associated with pulmonary emphysema. This study re-examines this hypothesis in patients who are chronically malnourished because of anorexia nervosa. Age, smoking history, body mass index, and pulmonary function were measured in 21 subjects with anorexia nervosa and 16 control subjects. Computed tomography (CT) scans were obtained from three regions of the lung (at the level of the aortic arch, the carina, and the posterior position of the eighth rib) using a multislice scanner. The CT measurements of lung density, emphysema, and surface area-to-volume ratio were obtained using the X-ray attenuation values. CT measurements of emphysema were greater in the group that was anorexic than in historical control subjects (p < 0.001). Furthermore, there were significant correlations between the body mass index and the CT measures of emphysema for all the patients and between diffusing capacity and the CT measurements in the patients who were anorexic. A multiple linear regression analysis showed the diffusing capacity was predicted best by the percentage of lung voxels within the large emphysematous changes category. These data demonstrate that emphysema-like changes are present in the lungs of patients who are chronically malnourished.
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PMID:Early emphysema in patients with anorexia nervosa. 1604 Jul 93

There is a body of literature in animal models that has suggested the development of emphysema following severe calorie restriction. This has led to the notion of "nutritional emphysema" that might have relevance in COPD patients. There have been few studies, however, that have looked closely at both the mechanics and lung structure in the same animals. In the present work, we examined lung mechanics and histological changes in two strains of mice that have substantial differences in alveolar size, the C57BL/6 and C3H/HeJ strains. We quantified the dynamic elastance and resistance at 2.5 Hz, the quasistatic pressure volume curve, and the alveolar chord lengths in lungs inflated to a lung capacity at 25-30 cm H(2)O. We found that after 2 or 3 wk of calorie restriction to 1/3 their normal diet, the lungs became stiffer with increased resistance. In addition, the lung capacity was also decreased. These mechanical changes were reversed after 2 wk on a normal ad libitum diet. Histology of the postmortem fixed lungs showed no changes in the mean alveolar chord lengths with calorie restriction. Although the baseline mechanics and alveolar size were quantitatively different in the two strains, both strains showed similar qualitative changes during the starvation and refeeding periods. Thus, in two strains of mice with genetically determined differences in alveolar size, neither the mechanics nor the histology show any evidence of emphysema-like changes with this severe caloric insult.
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PMID:Effect of severe calorie restriction on the lung in two strains of mice. 1851 6

Radiological lung transparency depends on the air contents involved in respiratory function. The present study quantitatively investigated postmortem lung air distribution in forensic autopsy cases (n=135) using computed tomography (CT) to analyze cardiopulmonary pathophysiology in the death process, involving emphysema, congestion and edema. Combined analyses of the CT morphology and attenuation value (Hounsfield unit, HU) of the bilateral lungs, with reference to histopathology, could categorize CT findings (10-90 percentile mode/mean HU values) with regard to the causes of death as follows: (I) hyperaeration (mode/mean HU below -760/-560: emphysema) for obstructive pulmonary disease, starvation and hypothermia (cold exposure); (II) mostly normal aeration with partial ground glass opacification (mode/mean HU, -850 to -360/-700 to -380: partial congestion and edema), consisting of subtype II-a with peri-bronchial/-vascular opacity for mechanical asphyxia, drowning and fire fatality, and subtype II-b with decreased vascularity for gunshot head injury, cerebrovascular disease and hemopericardium; (III) hypoaeration to airless with predominant hypostatic ground glass opacification (mode/mean HU, -870 to 0/-720 to -200: mottled hypostatic congestion and edema) for blunt head/neck injury, intoxication, hyperthermia (heat stroke) and congestive heart failure; (IV) hypoaeration to airless with predominant hypostatic consolidation (mode/mean HU, -790 to 0/-520 to -70: intense hypostatic congestion with edema) for acute ischemic heart disease; and (V) airless to consolidated (mode/mean HU over -420/-370: segmental or multiple patchy consolidations with edema) for pneumonia. Mode HU represents the major alveolar status, while the mean HU reflects the whole lung air contents. CT data analysis is useful for quantitative evaluation of pulmonary pathology as a supplementary procedure.
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PMID:Quantitative analysis of pulmonary pathophysiology using postmortem computed tomography with regard to the cause of death. 2250 88


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