Kimberly J. Song scite author profile

Background Rodent lungs undergo full histologic recovery within one week following unilateral lung contusion (LC). However, when LC is followed by hemorrhagic shock (HS), healing is impaired. We hypothesize that the intravenous administration of mesenchymal stem cells (MSC) to animals undergoing combined LC followed by HS (LCHS) will improve wound healing. Methods Male Sprague-Dawley rats (n=5-6/group) were subjected to LCHS with or without the injection of a single iv dose of 5 × 106 MSCs following return of shed blood after HS. Rats were sacrificed seven days following injury. Flow cytometry was used to determine the T regulatory (Treg) cell population in peripheral blood (PB). Lung histology was graded using a well-established lung injury score (LIS). Components of the LIS include average inflammatory cells/high power field (hpf) over 30 fields, interstitial edema, pulmonary edema, and alveolar integrity with total scores ranging from 0-11. Data analyzed by ANOVA followed by Tukey's multiple comparison test, expressed as mean ± SD. p<0.05 considered significant. Results Seven days following isolated LC animals demonstrate lung healing with a LIS unchanged from naive. The addition of HS results in a persistently elevated LIS score, whereas addition of MSC to LCHS decreased the LIS score back to naïve levels. The change in LIS was driven by a significant decrease in edema scores. In rats undergoing LC alone, 10.5 ± 3.3% of CD4+ cells were Tregs. The addition of HS caused no significant change in Treg population (9.3±0.7%), whereas LCHS+MSC significantly increased the population to 18.2±6.8% in PB (p<0.05 vs LCHS). Conclusion Impaired wound healing following trauma and hemorrhagic shock is improved by a single dose of MSCs given immediately after injury. This enhanced healing is associated with an increase in the T regulatory cell population and a significant decrease in lung edema score as compared to animals undergoing LCHS. Further study into the role of Tregs in MSC-mediated wound healing is warranted.

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Major modifications to minimize thoracic esophago‐gastric leak and eradicate esophageal stricture after Ivor Lewis esophagectomy

Housman

Lee

Wolf

et al. 2021

Journal of Surgical Oncology

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Background The Ivor Lewis esophagectomy (ILE) remains the procedure of choice for localized middle or lower esophageal carcinoma. Nevertheless, anastomotic leak remains a common complication with rates from 3% to 25% and a stricture rate as high as 40%. The frequency of these complications suggests that the procedure itself may have inherent limitations including the use of potentially ischemic tissue for the esophagogastric anastomosis. We introduce a modified technique that reduces operative steps, preserves blood supply, and uses a modified esophagogastric anastomosis. Methods All consecutive patients undergoing ILE with the described modified technique were identified. An esophagram was performed on postoperative day six or seven. To ensure that all cases were identified, anastomotic leaks were defined as any radiographic evidence of contrast extravasation. Results A total of 110 patients underwent the modified esophagectomy with 2 anastomotic leaks (1.82%) and zero strictures. There was 1 late death but no early deaths (<30 or 90 days) or early re‐admissions (<30 days). The average number of risk factors was 2.12, and 98 patients (90%) had at least 1 risk factor in their medical history. Conclusions The modifications proposed simplify procedural steps, limit unnecessary dissection and introduce a technique that ends the practice of connecting ischemic tissue. We believe this technique contributes to surgical durability and reduces the rate of postoperative leak and eliminates stricture.

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Kimberly J. Song

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Mesenchymal stem cells increase T-regulatory cells and improve healing following trauma and hemorrhagic shock

Major modifications to minimize thoracic esophago‐gastric leak and eradicate esophageal stricture after Ivor Lewis esophagectomy

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