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- Erjefält, Jonas, et al.
(författare)
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Microcirculation-derived factors in airway epithelial repair in vivo
- 1994
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Ingår i: Microvascular Research. - : Elsevier BV. - 1095-9319 .- 0026-2862. ; 48:2, s. 161-178
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Tidskriftsartikel (refereegranskat)abstract
- Airway epithelial repair, by cell migration over a denuded, intact basement membrane, occurs rapidly in vivo. The present study examines microcirculation-derived factors in the reepithelialization process in the guinea pig. A well-defined tracheal zone was gently deepithelialized; no bleeding occurred and the basement membrane was left intact. Plasma exudation was visualized by use of iv colloidal gold (diameter: 5 nm) or fluoresceinisothiocyanate-labeled dextran. Scanning and transmission electron microscopy confirmed the migration of epithelial cells and, additionally, allowed us to examine the presence of an extracellular matrix gel and leukocytes on the denuded basement membrane. Fibronectin was analyzed by immunocytochemistry. Following epithelial removal plasma promptly extravasates and produces a fibrin-fibronectin gel to cover the denuded basement membrane. Epithelial cells dedifferentiate, flatten, and migrate rapidly (several micron/min) beneath the plasma-derived gel. Within 30 min the gel contains numerous leukocytes, some of which are eosinophils. Plasma exudes into the gel until about 8 hr by which time the entire denuded zone (800 microns) is covered by squamous epithelium. The fibrin-fibronectin gel is suggested to be exclusively plasma-derived. In conclusion, reepithelialization in vivo occurs beneath a gel containing adhesive plasma proteins and leukocytes. We suggest that a plasma exudate provides immediate cover of denuded airway basement membrane and that plasma- and leukocyte-derived factors contribute essentially to reepithelialization in vivo.
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| 6. |
- Wårdell, Karin, et al.
(författare)
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Spatial heterogeity in normal skin perfusion recorded with laser Doppler imaging and flowmetry
- 1994
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Ingår i: Microvascular Research. - 0026-2862 .- 1095-9319. ; 48:1, s. 26-38
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Tidskriftsartikel (refereegranskat)abstract
- Spatial and temporal variations in forearm skin perfusion captured by laser Doppler perfusion imaging (LDI) have been compared with topographic maps recorded by laser Doppler flowmetry. In order to determine the shortest LDI sampling time required at each measurement site, with an adequate signal-to-noise ratio and with the ability to display the heterogeneity in skin perfusion, the noise-limited resolution of the LDI system as well as various sampling times were tested. The noise-limited resolution for medium and high light intensities were less than 0.5% (temporal) and 0.3% (spatial) of full scale. A sampling time of 1 sec was selected and image presentation was made by performing bilinear interpolation between perfusion values. The same area (10 x 10 mm) was mapped with LDI and topographic mapping at seven different sites. In addition, a larger area covering the surrounding skin was recorded with LDI. The small area recordings with LDI and topographic mapping could be identified in the larger LDI image. High-and low-perfusion spots coincided between the two systems. Temporal variations were studied by repeated LDI recordings of the same areas as above. Small spots were selected in the areas and plotted versus time. Without provocation, the total perfusion changes at each spot showed large variations, but the relative perfusion levels between neighboring spots persisted. Provocation with heat increased the perfusion in all spots.
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