Utility of Electrofusion for the Femoral Approach in Vascular Surgery: A Randomized Prospective Study

Gouaillier-Vulcain, Flora; Marchand, Étienne; Martinez, Robert; Picquet, Jean; Enon, B

doi:10.1016/j.avsg.2014.09.034

Cited by 3 publications

(1 citation statement)

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“…La implantación de estos dispositivos de sellado en el ámbito de la cirugía vascular es inferior a la de otras especialidades con mayor predominio endoscópico, por lo que existen pocos estudios en los que se evalúe su impacto y, en su mayor parte, se centran en valorar su eficacia en la disminución de complicaciones locales en los abordajes quirúrgicos inguinales, como demuestra el de Gouaillier-Vulcain y cols. (24). En este estudio no se encontraron diferencias significativas en el tiempo de cicatrización tras disección femoral con EB, pero sí una menor incidencia de seromas gracias al sellado de los vasos linfáticos con respecto a técnicas clásicas de electrocoagulación.…”

Section: Discussionunclassified

Bypass ilio-hepático para revascularización de isquemia mesentérica crónica

Larizgoitia¹,

Céniga²,

Fernández³

et al. 2019

Angiologia

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Section: Discussionunclassified

Bypass ilio-hepático para revascularización de isquemia mesentérica crónica

Larizgoitia¹,

Céniga²,

Fernández³

et al. 2019

Angiologia

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Tutorial: Electroporation of cells in complex materials and tissue

Rems

Miklavčič

2016

Journal of Applied Physics

155

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Electroporation is being successfully used in biology, medicine, food processing, and biotechnology, and in some environmental applications. Recent applications also include in addition to classical electroporation, where cells are exposed to micro- or milliseconds long pulses, exposures to extremely short nanosecond pulses, i.e., high-frequency electroporation. Electric pulses are applied to cells in different structural configurations ranging from suspended cells to cells in tissues. Understanding electroporation of cells in tissues and other complex environments is a key to its successful use and optimization in various applications. Thus, explanation will be provided theoretically/numerically with relation to experimental observations by scaling our understanding of electroporation from the molecular level of the cell membrane up to the tissue level.

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Enhanced recovery after surgery (ERAS) for vascular surgery: an evidence map and scoping review

Apaydin,

Woo,

Rollison

et al. 2023

Syst Rev

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Background Enhanced recovery after surgery (ERAS) interventions aim to improve patient outcomes. Vascular surgery patients have unique requirements and it is unclear which ERAS interventions are supported by an evidence base. Methods We conducted a scoping review to identify ERAS randomized controlled trials (RCTs) published in the biomedical or nursing literature. We assessed interventions for applicability to vascular surgery and differentiated interventions given at preadmission, preoperative, intraoperative, and postoperative surgery stages. We documented the research in an evidence map. Results We identified 76 relevant RCTs. Interventions were mostly administered in preoperative (23 RCTs; 30%) or intraoperative surgery stages (35 RCTs; 46%). The majority of studies reported mortality outcomes (44 RCTs; 58%), but hospital (27 RCTs; 35%) and intensive care unit (9 RCTs; 12%) length of stay outcomes were less consistently described. Conclusion The ERAS evidence base is growing but contains gaps. Research on preadmission interventions and more consistent reporting of key outcomes is needed.

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Utility of Electrofusion for the Femoral Approach in Vascular Surgery: A Randomized Prospective Study

Cited by 3 publications

References 34 publications

Bypass ilio-hepático para revascularización de isquemia mesentérica crónica

Bypass ilio-hepático para revascularización de isquemia mesentérica crónica

Tutorial: Electroporation of cells in complex materials and tissue

Enhanced recovery after surgery (ERAS) for vascular surgery: an evidence map and scoping review

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