Journal of Surgery and Anesthesia addresses all aspects of surgery & anesthesia practice, including anesthetic administration, pharmacokinetics, preoperative and postoperative considerations, coexisting disease and other complicating factors, General Surgery, Robotic Surgery, Orthopedic Surgery, GI Surgery, Neurosurgery, Plastic Surgery, Cardiothoracic Surgery, Vascular Surgery, Urology, Surgical Oncology, Radiology, Ophthalmology, Pediatric Surgery, Trauma Services, Minimal Access Surgery, Endocrine Surgery, Colorectal Surgery, Laparoscopic and Endoscopic Techniques and Procedures, Preoperative and Postoperative Patient Management, Complications in Surgery and New Developments in Instrumentation and technology related to surgery, Intra-Operative Regional Anesthesia Administration Techniques, Peri-Operative Pain, Obstetric Anesthesia, Pediatric Anesthesia, General Anesthesia, Sedation, Regional Anesthesia, Outcome Studies and Associated Complications, etc. Journal of Surgery and Anesthesia accepts manuscripts in the form of original research articles, review articles, case reports, short communications, letters to editor and editorials for publication in an open access platform.

We are sharing one of the most cited article from our journal. Article entitled “Improved Post-Resuscitation Survival Time with Adjuvant Cytosolic Energy Replenishment in a Murine Model of Hemorrhagic Refractory Shock” was well written by Dr. Mahmoud F. Sakr.

Abstract

Objective: A refractory haemorrhagic hypovolemic shock (HS) resuscitation is challenging. HS is associated with profound depletions of cellular energy nucleotides that can cause death from a cardio-circulatory arrest. To prevent an imminent cardio-circulatory arrest, vasopressors, commonly norepinephrine is usually temporarily administered to manage a persistent hypotension that is not corrected by aggressive resuscitation efforts. The objective of this study is to determine the post-resuscitation survival time after adjuvant resuscitations of a refractory HS with norepinephrine, vasopressin or direct cytosolic energy (adenosine-5`-triphosphate, ATP) replenishment using lipid vesicles encapsulating ATP (ATPv).

Methods: 50 male Sprague-Dawley rats were randomized to 5 groups of 10 each: HS/conventional resuscitation (CR), HS/CR+Norepinephrine, HS/CR+Vasopressin, HS/CR+Vesicles, and HS/CR+ATPv. (HS=initial removal of 30% of the calculated blood volume, a 60 min hypotensive phase, and a subsequent transection of the spleen for uncontrolled haemorrhage until persistent shock index (SI)>5 and mean arterial pressure (MAP)<35 mmHg were achieved; CR=shed blood returned+double the shed blood volume as lactated Ringer’s solution). Direct cytosolic ATP replenishment was accomplished with ATPv, which are highly fusogenic lipid vesicles encapsulating ATP. Fusion of the ATPv with the cell membrane on contact, allows for direct cytosolic ATP delivery. We determined the post-resuscitation survival time as the end-point of the study.

Results: All animals displayed the same class of shock as demonstrated by the SI and MAP. Median postresuscitation survival times (computed by the Kaplan-Meier survival curves and the long-rank Mantel-Cox test) were as follows: HS/CR=35.5 min; HS/CR+Norepinephrine=38.5 min; HS/CR+Vasopressin=20 min; HS/CR+Lipid Vesicles control=88.5 min; and HS/CR+ATPv=158.5 min (p<0.001).

Conclusion: The replenishment of the depleted cellular cytosolic energy stores in a refractory haemorrhagic hypotensive shock prolongs post-resuscitation survival time and delays cardio-circulatory arrest. This buys time for the initiation of definitive resuscitation protocols. Cellular energy failure appears to contribute to the pathogenesis of shock refractoriness to resuscitation efforts. The temporary administration of vasopressors for pressure-support resuscitation of a refractory haemorrhagic hypovolemic shock exerts no survival benefits.

Here is the link to view complete article: https://www.longdom.org/open-access/improved-postresuscitation-survival-time-with-adjuvant-cytosolic-energy-replenishment-in-a-murine-model-of-hemorrhagic-refractory.pdf

Submit manuscripts at https://www.longdom.org/submissions/surgery-anesthesia.html or as an e-mail attachment to surgery@emedsci.com

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