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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The present study was conducted on bone tissue responses to irradiation towards a treatment model of mandibular irradiation injury by comparing the results of experimental observations of irradiation effects on rabbit hind legs and rat mandibular bones (paper I, II and III) with clinical observations of irradiation effects on the human mandible (paper IV, V and VI). The main results of the study were as follows: Bone marrow haemorrhage, eosinophilia and incipient edema were encountered in the rabbit leg one day after a single irradiation dose. Edema and fibrosis were the salient features after five weeks, while both regenerative and fibrotic changes predominated eleven weeks after irradiation. The changes were the more extensive the greater the irradiation dose was. Empty lacunae as a sign of cell damage in cortical bone already appeared on the first day after irradiation; this effect reached its maximum when the dose was 20 Gy or more. Bone marrow and subcutaneous tissue pO2 and pCO2 were measured by means of implanted Silastic tonometers in irradiated and nonirradiated rabbit hind legs. Single dose irradiation was followed by a rapid, dose dependent decrease of marrow pO2. The corresponding effect on pCO2 was weaker and appeared later. The response to
hyperoxia
in the bone marrow became weaker when the irradiation dose increased. Less significant was the response of CO2 tension to
hyperoxia
. O2 and CO2 tensions were recovered after single dose irradiation both in subcutaneous tissue and in bone marrow, but the reduction was less in bone marrow. During the twelve weeks observation period clearly better recovery in tissue gas tensions was observed in subcutaneous tissue than in bone marrow. Nonirradiated periosteal grafts on irradiated bone cavities in the rabbit tibia induced more rapid and intense mature bone formation than irradiated periosteal grafts. The irradiated periosteum, even after a single dose of 20 Gy, had some osteogenetic capacity. The alkaline phosphatase content was lowered eight weeks after surgery in irradiated legs but clearly exceeded control values twelve weeks after surgery indicating new bone formation. Lysosomal enzyme DAP II contents were increased in all irradiated specimens as a sign of disturbed bone formation. The tissue concentrations of acid phosphatase, cytochrome oxidase, lactate dehydrogenase,
isocitrate dehydrogenase
, glucose-6-phosphate dehydrogenase and succinate dehydrogenase in the immediate postirradiation period showed a greater increase in activity in the cut lines of the irradiated rat mandibles than in those of the nonirradiated mandibles.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Bone tissue response to irradiation and treatment model of mandibular irradiation injury. An experimental and clinical study. 309 Aug 54
We fed Sprague-Dawley rats either freely or by restricting them to 20% of their usual diet for 21 days. In one experiment, we refed half of the food-restricted rats for 12 h, then exposed the three groups to air or 85% O2 for 5 days. The mortalities in 85% O2 were 100, 33, and 0% for the food-restricted, restricted-refed, and freely fed groups, respectively. In air lung polyamine contents and glucose 6-phosphate dehydrogenase and
NADP-dependent isocitrate dehydrogenase
activities were significantly lower with food restriction. After
hyperoxia
, lung polyamine and protein contents and enzyme activities were increased in the two surviving groups, but spermine and DNA contents of refed rats did not increase. In a second experiment, we exposed rats to 60% O2 and found that DNA synthesis of food-restricted rats was lower than the freely fed rats in air and remained low after
hyperoxia
. We conclude that food restriction increases the mortality from 85% O2 and is associated with lower DNA synthesis and polyamine content. We speculate that food-restricted animals may accumulate greater lung injury partly because of a compromised repair process.
...
PMID:Effects of food restriction and hyperoxia on rat survival and lung polyamine metabolism. 339 99
