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Query: UMLS:C0851184 (
thinning
)
11,252
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Left ventricular dimensions were measured in Cd2+ arrested (presumably diastolic), open-chest rats. Aortic pressure was maintained at 137 cm H2O (100 mm Hg) and left-ventricular (luminal) pressures were established and maintained at their chosen values, each by means of reservoir systems. The selected left-ventricular pressures were chosen to be within or to even broaden the range of conceivable diastolic pressures (-3 to 48 cm H2O). After in situ fixation with 4%
formaldehyde
and gelatin embedding, the hearts were serially sectioned in the apex base direction to obtain information at 11 levels (10, 20, . . . 90, 100%). Tracings of selected sections were made along the edge of the left ventricular lumen and the pericardial surface. Volumes, surface areas, and mean external and internal radii of the left ventricle were derived. To quantify the circularity of sections a form factor (FF) was introduced (FF = 1 for a circular cross-section and less than one for other shapes). Ventricular lengths, radial dimensions, endocardial and epicardial surface areas, and total and luminal volumes increased with the increasing intraventricular pressures; as expected, the wall simultaneously thinned. Though its appearance was altered by the wall
thinning
, the curving muscle fascicular pattern was present over the entire pressure range examined. Endocardial surface areas increased more than did the epicardial surface areas. The endocardial FF value increased (more circular) at each section level as the pressure increased. The epicardial FF relationship was apparently constant (0.798 +/- 0.014) for all section levels from 10% through 90%, regardless of luminal pressure. These results, when taken in conjunction with the results of our previous published studies, prompted the following speculation. The wall of the diastolic ventricle is a fluid-filled chamber with intramyocardial pressures that may be higher than ventricular pressures.
...
PMID:Left ventricular shape-luminal pressure relationship. An open-chest study. 195 75
We studied 200 postmortem ureters from 100 adult men to test the hypotheses that ureteral pseudodiverticula (UPD) are more prevalent than clinically recognized, that UPD are secondary to chronic inflammations, and that they are associated with uroepithelial neoplasm. The ureters were inflated with 10%
formaldehyde
and fixed for 24 hours. One hundred sixteen ureters were drained and refilled with 25% diatrizoate sodium meglumine and radiographed before gross and microscopic pathologic examination. No radiographs of the remaining 84 ureters were obtained. UPD were identified pathologically in 11%. None of these patients had a history of upper urinary tract disease. UPD were smaller than those reported clinically and invariably were associated with focal microscopic ureteritis cystica and glandularis in ureters otherwise free of histologic abnormality. UPD displayed mild benign mucosal hyperplasia with invagination in the subepithelial connective tissue as well as impression and sometimes
thinning
of the muscularis propria but without penetration. No mucosal atypia or malignancy was seen. We postulate that UPD represent a proliferative response to focal inflammation resulting in intramural invasion producing elevation and
thinning
of the ureteral wall. Continued focal inflammation may be sustained by local urine stasis. Enlargement to clinically detectable size may be enhanced by more generalized disease such as clinical infection, stone, or obstruction.
...
PMID:The pathology of ureteral pseudodiverticulosis. 313 3
Evidence exists from both congenital anomalies and animal models that normal fetal lung development is dependent on maintenance of fluid pressure within the developing "airways." Fetal tracheostomy, allowing free egress of airway fluids, results in lung hypoplasia, indicating that some airway distending pressure is required for normal lung development to occur. In contrast, fetal tracheal ligation, which increases fetal airway pressure, reverses lung hypoplasia in animal models. The authors' experiments test the hypothesis that large airway obstruction accelerates the development of murine lungs in vitro in whole-organ culture. Fetuses from time-dated pregnant CD-1 mice at day 14 of gestation were removed (term, 20 days), and the lungs were excised. The left bronchus of each lung was ligated (n = 26), after which the left lung was isolated and cultured at 37 degrees C (95% air, 5% CO2) in BGJb media supplemented with vitamin C and antibiotics. Some fetal lungs were cultured under similar conditions without bronchial ligation (n = 11). After 7 days in culture, the lungs were taken for various analyses. The lungs were fixed in either
formaldehyde
and processed for paraffin embedding for light microscopic evaluation and morphometric data collection, or were freshly minced and aliquots taken for total protein and DNA content. Several more ligated and unligated lungs were processed for ultrastructural analysis. Morphometric analysis on transverse sections of lungs showed significant differences in the lung tissue size, thickness, epithelial cell height, luminal areas, perimeters, and total number of airspaces (airway + primordial alveolar airspaces). It was evident that bronchial ligation promoted lung development. The ligated lungs displayed
thinning
of the primordial alveolar walls with cuboidal epithelial cells. The total number of airspaces per field was lower for better developed ligated lungs because of the increased area of airspaces compared with that of the unligated lungs. The dorsoventral tissue thickness (in micrometers) of the ligated lungs was significantly greater than that of the unligated lungs (124.1 +/- 7.0 v 89.6 +/- 8.0); the average outer perimeter of the primordial alveolar airspaces was greater for ligated lungs (404.56 +/- 19.0 microns v 256.85 +/- 17.0 microns). Similarly, the luminal diameter of the spaces of ligated lungs was almost double that of the unligated lungs (38.0 +/- 2.0 microns v 20.3 +/- 2.0 microns), as was the luminal surface area. The morphometric data, which suggest enhanced maturation of the ligated lungs, are supported by results of ultrastructural studies. Ligated lungs had significantly more lamellar bodies. Although total protein and DNA content were greater among the ligated lungs, the protein/DNA ratios did not differ among the groups. The intraluminal pressure (airway pressure) of ligated lungs was 2.9 mm Hg and 3.1 mm Hg at 2 and 4 days in organ culture; the respective pressures for unligated lungs were 1.0 mm Hg and 0.8 mm Hg. These data support the hypothesis that mechanical distending pressure resulting from airway obstruction not only improves pulmonary architecture but also accelerates lung development in vitro. Although these effects have been seen in in vivo models, this is the first proposed in vitro organ culture model. This model may prove to be a powerful tool for the study of molecular mechanisms of mammalian lung development with respect to mechanical and chemical (cytokines, hormones) stimuli.
...
PMID:Bronchial ligation enhances murine fetal lung development in whole-organ culture. 881 46
Methods to strengthen tissue by introducing chemical bonds (non-enzymatic cross-linking) into structural proteins (fibrillar collagens) for therapy include photochemical cross-linking and tissue cross-linking (TXL) methods. Such methods for inducing mechanical tissue property changes are being employed to the cornea in corneal
thinning
(mechanically weakened) disorders such as keratoconus as well as the sclera in progressive myopia, where
thinning
and weakening of the posterior sclera occurs and likely contributes to axial elongation. The primary target proteins for such tissue strengthening are fibrillar collagens which constitute the great majority of dry weight proteins in the cornea and sclera. Fortuitously, fibrillar collagens are the main source of second harmonic generation signals in the tissue extracellular space. Therefore, modifications of the collagen proteins, such as those induced through cross-linking therapies, could potentially be detected and quantitated through the use of second harmonic generation microscopy (SHGM). Monitoring SHGM signals through the use of a laser scanning microscopy system coupled with an infrared excitation light source is an exciting modern imaging method that is enjoying widespread usage in the biomedical sciences. Thus, the present study was undertaken in order to evaluate the use of SHGM microscopy as a means to measure induced cross-linking effects in ex vivo rabbit sclera, following an injection of a chemical cross-linking agent into the sub-Tenon's space (sT), an injection approach that is standard practice for causing ocular anesthesia during ophthalmologic clinical procedures. The chemical cross-linking agent, sodium hydroxymethylglycinate (SMG), is from a class of cosmetic preservatives known as
formaldehyde
releasing agents (FARs). Scleral changes following reaction with SMG resulted in increases in SHG signals and correlated with shifts in thermal denaturation temperature, a standard method for evaluating induced tissue cross-linking effects.
...
PMID:Second Harmonic Generation Signals in Rabbit Sclera As a Tool for Evaluation of Therapeutic Tissue Cross-linking (TXL) for Myopia. 2936 59
