Andrea Wenger scite author profile

Andrea Wenger

5Publications

27Citation Statements Received

33Citation Statements Given

How they've been cited

How they cite others

209

Affiliations

BG Klinik Tübingen, University of Tübingen, Innsbruck Medical University

Publications

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Quantitative Analysis of Heel Skin Microcirculation Using Laser Doppler Flowmetry and Tissue Spectrophotometry

Held

Bender²,

Krauß³

et al. 2019

Adv Skin Wound Care

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OBJECTIVE: To examine perfusion changes in the heel skin of individuals with and without diabetes mellitus to understand how skin is pathologically affected by diabetes mellitus. METHODS: This case-control study was conducted at an academic hospital in Tuebingen, Germany. A total of 30 subjects were enrolled in the study: 15 with known type 2 diabetes mellitus and 15 without. Each subject was asked to lie in a supine position on a hard lateral transfer mat for 10 minutes. MAIN OUTCOME MEASURES: Heel perfusion was quantitatively assessed directly after relief of pressure and after 3 and 6 minutes after relief of pressure using laser Doppler flowmetry and tissue spectrophotometry. MAIN RESULTS: Directly after relief of pressure, blood flow increased in the superficial skin layers (2 mm below the surface of the skin) in both groups. However, in deep skin layers (8 mm below the surface of the skin), blood flow increased in patients with diabetes mellitus and decreased in healthy patients. Oxygen saturation (SO2) was higher in healthy subjects directly after pressure relief. CONCLUSIONS: The increase in blood flow in superficial skin layers indicates reactive hyperemia after exposure in both groups. The prolonged hyperemia in deep skin layers in patients with diabetes indicates increased tissue vulnerability. Despite the increase in blood flow in deep skin layers, the SO2 and thus supply of tissue in patients with diabetes were reduced.

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Skin Perfusion Changes within 12 h after Axillary Plexus Block

et al. 2017

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Background/Purpose: An improvement of the blood flow would be beneficial in microvascular upper-extremity reconstruction and in digit replantation. In the present work, skin perfusion changes and their duration due to axillary plexus block were quantified. Methods: The peripheral blood flow of the upper extremities in 20 patients undergoing trapeziectomy under axillary plexus block was analyzed. Results: Laser Doppler spectrophotometry was used to measure perfusion factors over a 12-h period, with the contralateral hand acting as the control. Axillary plexus block produced a significant increase of peripheral oxygen saturation (117 ± 35% vs. control 93 ± 22%, p = 0.019), peripheral blood flow (220 ± 166% vs. 130 ± 77%, p = 0.037), and velocity (164 ± 58% vs. 117 ± 45%, p = 0.011). Conclusion: Axillary plexus block produces an improvement of peripheral tissue oxygen saturation of the upper extremities over the first 6 h after the inception of anesthesia. This suggests a potential benefit especially for critically perfused tissues.

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Angeborene Fehlbildungen der Hand

Piza-Katzer

Wenger²

2011

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Quantification of the vasodilatory effect of axillary plexus block. A prospective controlled study

Wenger

Rothenberger

Hakim‐Meibodi

et al. 2017

Journal of Surgical Research

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Nervenverletzungen nach Ellenbogenluxationsfraktur im Kindesalter

2016

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Andrea Wenger

Quantitative Analysis of Heel Skin Microcirculation Using Laser Doppler Flowmetry and Tissue Spectrophotometry

Skin Perfusion Changes within 12 h after Axillary Plexus Block

Angeborene Fehlbildungen der Hand

Quantification of the vasodilatory effect of axillary plexus block. A prospective controlled study

Nervenverletzungen nach Ellenbogenluxationsfraktur im Kindesalter

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