The angiotensin I converting enzyme inhibitor (Captopril) has recently been studied extensively in various experimental models of radiation injury and has proven its protective effects in various organs, such as the lungs, gastrointestinal tract, and kidneys. Twenty-three Sprague-Dawley rats were divided into experimental and control group. The experimental group was divided into two large groups: the first one received a single dose of 18 Gy irradiation from an electron beam on the local field of the kidney region only, and the second group received captopril per oral continuously after the same doses of irradiation. The second experimental group was divided into four subgroups by captopril doses: 62.5 mg/l, 125 mg/l, 250 mg/l, and 500 mg/l, respectively. On light and electron microscopy, the kidneys of the irradiated rats with no captopril treatment showed diffuse glomerular contraction, congestion with occlusion and focal necrosis of the endothelial, and mesangial cells. The tubules showed ballooning degeneration, desquamation, and diffuse coagulation necrosis. Captopril treated rats, especially those given a high dose (more than 250 gm/l), revealed a marked reduction of the tubular and glomerular injuries. There was a statistically significant difference in the degree of renal injury among the experimental groups (p<0.05). The result of this study suggests that an administration of high dose captopril might prevent radiation-induced renal injury, especially in the early post-irradiation period.
Animals ; Captopril* ; Estrogens, Conjugated (USP) ; Gastrointestinal Tract ; Kidney ; Lung ; Mesangial Cells ; Microscopy, Electron ; Models, Theoretical ; Necrosis ; Peptidyl-Dipeptidase A ; Radiation Injuries ; Rats* ; Rats, Sprague-Dawley

No abstract available.
Humans ; Infant, Newborn* ; Lipoproteins* ; Plasma*

Experimental studies suggest that captopril plays an important preventive role in radiation induced renal injury (RRI). To elucidate the pathogenesis of RRI and effect of captopril, one subgroup was irradiated with a single dose of 9 gray (Gy) total body irradiation and another subgroup with 17 Gy local irradiation in the right kidney. Twenty-four healthy looking Sprague-Dawley rats, weighing 200~250 g, were divided into one control and three experimental group (EG)s for this study. The control group, composed of 2 rats, was maintained on stock diet and drinking tap water. EG was divided into three. EG 1 composed of two subgroups, the first subgroup, 3 rats each, was sacrificed within 12 hours after 9 Gy and 17 Gy single dose irradiation only and the second subgroup, 2 and 1 rats each, was sacrificed 8 weeks after the same doses irradiation. EG 2 composed of subgroups of 2 and 3 rats was given 500 mg/L of captopril in the drinking water after irradiating them with 9 Gy and 17 Gy and sacrificed in the 8th week. EG 3 was subdivided into four subgroups by captopril doses given, 62.5 mg/L, 125 mg/L and 250 mg/L and sacrificed 20 weeks after 9 Gy and 17 Gy irradiation. On light microscopy proximal convoluted tubules showed cytoplasmic vacuolization and focal necrosis in the subcapsular region in EG 1 sacrificed within 12 hours after 9 Gy and 17 Gy irradiation only (sham) and very mild fibrosis in juxtamedullary regions in rats sacrificed 8 weeks after irradiation. In EG 3 these changes were severely increased with additional increased fibrosis in the juxtamedullary region in the group given captopril 62.5 mg/L. On transmission electron microscopy, there were various degenerative changes of organelle. Among the captopril administered EG 2 and EG 3, rats given a high dosage revealed milder degree of damage compared to that of rats given a low dosage, and thickening of basement membrane was remarkable in rats given a low dosage. There was a reduction in tubular damage related to the captopril dosage. According to the above findings, administration of a high dose of captopril might preserve the ultrastructure in RRI and the possible mechanism of captopril was discussed.
Animals ; Basement Membrane ; Captopril ; Cytoplasm ; Diet ; Drinking ; Drinking Water ; Fibrosis ; Kidney ; Microscopy ; Microscopy, Electron, Transmission ; Necrosis ; Organelles ; Rats* ; Rats, Sprague-Dawley ; Water ; Whole-Body Irradiation

No abstract available.
Enteritis* ; Megacolon, Toxic* ; Salmonella*

No abstract available.
Hemosiderosis* ; Humans ; Kidney Failure, Chronic* ; Seizures*

No abstract available.

No abstract available.
Orthognathic Surgery

According to the autopsy study for the temporomandibular joint disc position, rotation and sideway displacements as well as anterior displacement of TMJ discs are important aspect of internal derangement. There were some trials to suspect anterior and sideway disc displacements through MR images. But the sagittal and the coronal views of MRI could only show the image of cutted slices, these images were not sufficient for showing the entire correlations amomg glenoid fossa, condylar head and articular disc. In this study we combined the images of the each slice of sagittal views like drawing a map, then we could see the interrelations among these three major components of TMJ smore precisely. Applying this method to both asymtomatic volunteers and TMD patients, we classified the interrelationships between condylar head and articular disc of TMJ as twelve types. The distributions are as follows: 1. In asymptomatic volunteers cases, normal relations were 65.0%, sideways or rotational displacements without anterior displacement were 20.0%, only anterior displacements were 15.0%, and anterior displacements combined with rotational displacements were 5.0%. 2. In unaffected sides of TMD patients, normal relations were 42.1%, rotational displacements were 11.8% and anterior displacements were 47.0%. 3. In affected sides of TMD patients, normal relations were 10.6%, sideways or rotational displacements were 13.6%, anterior displacements were 75.8%. 4. In asymptomatic volunteers or unaffected sides of TMD patients, pure anterior displacement was more prominent than combined with sideways or rotational displacement, but in affected sides of TMD patients pure anterior displacement was less prominent.
Autopsy ; Head ; Humans ; Magnetic Resonance Imaging ; Temporomandibular Joint Disc ; Temporomandibular Joint* ; Volunteers

PURPOSE: To correlate histologic subtypes with MR signal intensity in meniagioma and to find etiologic factors responsible for the signal characteristics of T2WI. MATERIALS AND METHODS: We. reviewed MRIs and histopathologic studies in 35 cases of meningioma. MR signal intenisty was measured with respect to cerebral cortex(gray matter) as hypointense, isointense, or hyperintense. Pathologically, meningioma was classified into subtypes, acording to the new WHO classification of brain tumors. The degree of cellularity, collagen, and vascularity was graded from 1 to 3, and presence or absence of psammoma bodies, microcysts, micronecrosis and microhemorrhage was obeserved. Multiple linear regression analysis was done to find relationship between the pathologic findings and MR signal intensity of T2WI. RESULTS: Even in the same subtype, cellularity, collagen and vascularty of the tumor were different. T1WI was not useful in discriminating pathologic subtype because most tumors were isointense or hypointense to the cortex regardless of histologic type. Most tumors showed various signal intensity on T2WI, but T2WI were not useful, either. Exceptionally, all five cases of microcystic meningiomas were hyperintense on T2W1. In analysing the relationship between MR signal intensity and pathologic factor, increased collagen content produced decreased signal intensity(P<0.01) and the existence of microcyst resulted in high signal intensity(P<0.01). Cellularity, vascularity, microcalcification, micronecrosis and microhemorrhage had no relationship with signal intensity on T2WI. CONCLUSION: Except for the five microcystic meningiomas with hyperintenty on T2WI there was no relationship between MR signal intensity and subtype of meningiomas. Pathologic factors influencing T2 signal intensity were microcyst and collagen. Even in the same subtypes of meningiomas, the T2 signal intensity was different. This may be due to different ratio of microcyst and collagen.
Brain Neoplasms ; Classification ; Collagen ; Linear Models ; Magnetic Resonance Imaging* ; Meningioma*

No abstract available.
Hearing* ; Humans ; Tinnitus*