Your search keyword '"Patel NTP"' showing total 5 results

1. Dynamic Aortic Pressure Augmentation as a Novel Method of Swine Terminal Blood Extraction.

Author

Niebler JAP, Patel NTP, Ganapathy AS, Sanin GD, Cambronero GE, Jordan JE, Lane MR, Williams TK, and Neff LP

Subjects

Swine, Animals, Arterial Pressure, Disease Models, Animal, Hemorrhage etiology, Hemorrhage therapy, Aorta, Resuscitation methods, Lactates, Balloon Occlusion methods, Shock, Hemorrhagic therapy, Endovascular Procedures methods

Abstract

Introduction: Uncontrolled hemorrhage models require sufficient quantities of donor blood products to support resuscitation. To that end, we describe a novel method of whole blood extraction from donor swine using resuscitative endovascular balloon occlusion of the aorta (REBOA) to support hemodynamics during terminal blood extraction and its impact on the quality of banked blood., Methods: Ten adult Yorkshire-cross swine were anesthetized and instrumented with an REBOA catheter, femoral multistage venous cannula, and proximal/distal blood pressure monitoring. Hemodynamics during terminal blood extraction was supported with hand-titrated partial REBOA. Blood samples were taken at set time points for analysis., Results: The median collected blood volume was 3912 mL, with all animals surviving through the planned blood collection of 60% estimated total blood volume (ETBV). Median lactate and potassium levels remained within normal limits for swine through collection of 40% of the ETBV. Median hemoglobin through collection of 40% ETBV did not significantly change from values measured at the start of hemorrhage., Conclusions: This method of whole blood extraction provided sufficient blood volume and blood quality appropriate for transfusion through 40% ETBV, with remaining collected blood likely still acceptable for allogeneic transfusion despite increased lactate levels. This method of whole blood extraction can efficiently provide a large volume of quality blood to support resuscitation for subsequent uncontrolled hemorrhage models., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

2. Automated partial resuscitative endovascular balloon occlusion of the aorta reduces blood loss and hypotension in a highly lethal porcine liver injury model.

Author

Cambronero GE, Sanin GD, Patel NTP, Ganapathy AS, Lane MR, Patterson JW, Niebler JAP, Johnson MA, Rahbar E, Jordan JE, Neff LP, and Williams TK

Subjects

Animals, Aorta surgery, Disease Models, Animal, Hemorrhage etiology, Hemorrhage therapy, Liver injuries, Resuscitation methods, Swine, Balloon Occlusion methods, Endovascular Procedures methods, Hypotension etiology, Hypotension therapy, Shock, Hemorrhagic

Abstract

Background: Partial and intermittent resuscitative endovascular balloon occlusion of the aorta (pREBOA and iREBOA, respectively) are lifesaving techniques designed to extend therapeutic duration, mitigate ischemia, and bridge patients to definitive hemorrhage control. We hypothesized that automated pREBOA balloon titration compared with automated iREBOA would reduce blood loss and hypotensive episodes over a 90-minute intervention phase compared with iREBOA in an uncontrolled liver hemorrhage swine model., Methods: Twenty-four pigs underwent an uncontrolled hemorrhage by liver transection and were randomized to automated pREBOA (n = 8), iREBOA (n = 8), or control (n = 8). Once hemorrhagic shock criteria were met, controls had the REBOA catheter removed and received transfusions only for hypotension. The REBOA groups received 90 minutes of either iREBOA or pREBOA therapy. Surgical hemostasis was obtained, hemorrhage volume was quantified, and animals were transfused to euvolemia and then underwent 1.5 hours of automated critical care., Results: The control group had significantly higher mortality rate (5 of 8) compared with no deaths in both REBOA groups, demonstrating that the liver injury is highly lethal ( p = 0.03). During the intervention phase, animals in the iREBOA group spent a greater proportion of time in hypotension than the pREBOA group (20.7% [16.2-24.8%] vs. 0.76% [0.43-1.14%]; p < 0.001). The iREBOA group required significantly more transfusions than pREBOA (21.0 [20.0-24.9] mL/kg vs. 12.1 [9.5-13.9] mL/kg; p = 0.01). At surgical hemostasis, iREBOA had significantly higher hemorrhage volumes compared with pREBOA (39.2 [29.7-44.95] mL/kg vs. 24.7 [21.6-30.8] mL/kg; p = 0.04)., Conclusion: Partial REBOA animals spent significantly less time at hypotension and had decreased transfusions and blood loss. Both pREBOA and iREBOA prevented immediate death compared with controls. Further refinement of automated pREBOA is necessary, and controller algorithms may serve as vital control inputs for automated transfusion., Level of Evidence: Therapeutic/Care Management; Level III., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2023

3. Endovascular Perfusion Augmentation After Resuscitative Endovascular Balloon Occlusion of the Aorta Improves Renal Perfusion and Decreases Vasopressors.

Author

Patel NTP, Gaffley M, Leblanc MJR, Lane MR, Hoareau GL, Johnson MA, Jordan JE, Neff LP, and Williams TK

Subjects

Animals, Aorta, Creatinine, Crystalloid Solutions, Disease Models, Animal, Norepinephrine, Perfusion, Resuscitation methods, Swine, Balloon Occlusion methods, Endovascular Procedures methods, Reperfusion Injury etiology, Reperfusion Injury prevention & control, Shock, Hemorrhagic therapy

Abstract

Introduction: Resuscitative endovascular balloon occlusion of the aorta (REBOA) causes a severe ischemia-reperfusion injury. Endovascular Perfusion Augmentation for Critical Care (EPACC) has emerged as a hemodynamic/mechanical adjunct to vasopressors and crystalloid for the treatment of post-REBOA ischemia-reperfusion injury. The objective of the study is to examine the impact of EPACC as a tool for a wean from complete REBOA compared to standard resuscitation techniques., Methods: Nine swine underwent anesthesia and then a controlled 30% blood volume hemorrhage with 30 min of supraceliac total aortic occlusion to create an ischemia-reperfusion injury. Animals were randomized to standardized critical care (SCC) or 90 min of EPACC followed by SCC. The critical care phase lasted 270 min after injury. Hemodynamic markers and laboratory values of ischemia were recorded., Results: During the first 90 min the intervention phase SCC spent 60% (54%-73%) and EPACC spent 91% (88%-92%) of the time avoiding proximal hypotension (<60 mm Hg), P = 0.03. There was also a statistically significant decrease in cumulative norepinephrine dose at the end of the experiment between SCC (80.89 mcg/kg) versus EPACC (22.03 mcg/kg), P = 0.03. Renal artery flow during EPACC was similar compared to SCC during EPACC, P = 0.19. But during the last hour of the experiment (after removal of aortic balloon) the renal artery flow in EPACC (2.9 mL/kg/min) was statistically significantly increased compared to SCC (1.57 mL/min/kg), P = 0.03. There was a statistically significant decrease in terminal creatinine in the EPACC (1.7 mg/dL) compared to SCC (2.1 mg/dL), P = 0.03., Conclusions: The 90 min of EPACC as a weaning adjunct in the setting of a severe ischemia-reperfusion injury after complete supraceliac REBOA provides improved renal flow with improvement in terminal creatinine compared to SCC with stabilized proximal hemodynamics and decreased vasopressor dose., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

4. The physiology of aortic flow and pressures during partial resuscitative endovascular balloon occlusion of the aorta in a swine model of hemorrhagic shock.

Author

Marble J, Patel NTP, Lane MR, Williams TK, Neff LP, and Johnson MA

Subjects

Animals, Aorta, Disease Models, Animal, Hemorrhage, Resuscitation methods, Retrospective Studies, Swine, Balloon Occlusion methods, Endovascular Procedures methods, Shock, Hemorrhagic therapy

Abstract

Background: Partial resuscitative endovascular balloon occlusion of the aorta (REBOA) has shown promise as a method to extend REBOA, but there lacks a standard definition of the technique. The purpose of this study was to investigate the relationships between distal and proximal mean arterial pressure (MAP) and distal aortic flow past a REBOA catheter. We hypothesize that a relationship between distal aortic flow and distal MAP in Zone 1 partial REBOA (pREBOA) is conserved and that there is no apparent relationship between aortic flow and proximal MAP., Methods: A retrospective data analysis of swine was performed. Cohort 1 underwent 20% controlled hemorrhage and then randomized to aortic flow of 400 mL/min or complete occlusion for 20 minutes (n = 11). Cohort 2 underwent 30% controlled hemorrhage followed by complete aortic occlusion for 30 minutes (n = 29). Then, they all underwent REBOA wean in a similar stepwise fashion. Blood pressure was collected from above (proximal) and below (distal) the REBOA balloon. Aortic flow was measured using a surgically implanted supraceliac aortic perivascular flow probe. The time period of balloon wean was taken as the time point of interest., Results: A linear relationship between distal MAP and aortic flow was observed ( R2 value, 0.80), while no apparent relationship appeared between proximal MAP and aortic flow ( R2 value, 0.29). The repeated-measures correlation coefficient for distal MAP (0.94; 95% confidence interval, 0.94-0.94) was greater than proximal MAP (-0.73; 95% confidence interval, -0.74 to -0.72)., Conclusion: The relationship between MAP and flow will be a component of next-generation pREBOA control inputs. This study provides evidence that pREBOA techniques should rely on distal rather than proximal MAP for control of distal aortic flow. These data could inform future inquiry into optimal flow rates and parameters based on distal MAP in both translational and clinical contexts., (Copyright © 2022 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2022

5. Endovascular Perfusion Augmentation for Critical Care Decreases Vasopressor Requirements while Maintaining Renal Perfusion.

Author

Patel NTP, Gaffley M, Leblanc MJR, Lane MR, Kratky LE, Hoareau GL, Johnson MA, Jordan JE, Neff LP, and Williams TK

Subjects

Animals, Critical Care, Disease Models, Animal, Hemodynamics, Humans, Norepinephrine therapeutic use, Perfusion, Resuscitation, Swine, Vasoconstrictor Agents therapeutic use, Balloon Occlusion, Hypotension therapy, Reperfusion Injury therapy, Shock, Hemorrhagic therapy

Abstract

Background: Ischemia reperfusion injury causes a profound hyperdynamic distributive shock. Endovascular perfusion augmentation for critical care (EPACC) has emerged as a hemodynamic adjunct to vasopressors and crystalloid. The objective of this study was to examine varying levels of mechanical support for the treatment of ischemiareperfusion injury in swine., Methods: Fifteen swine underwent anesthesia and then a controlled 30% blood volume hemorrhage followed by 30 min of supra-celiac aortic occlusion to create an ischemia-reperfusion injury Animals were randomized to standardized critical care (SCC), EPACC with low threshold (EPACC-Low), and EPACC with high threshold (EPACC-High). The intervention phase lasted 270 min after injury Hemodynamic markers and laboratory values of ischemia were recorded., Results: During the intervention phase, SCC spent 82.4% of the time avoiding proximal hypotension (>60 mm Hg), while EPACC-Low spent 97.6% and EPACC-High spent 99.5% of the time avoiding proximal hypotension, P  < 0.001. Renal artery flow was statistically increased in EPACC-Low compared with SCC (2.29 mL/min/kg vs. 1.77 mL/ min/kg, P  < 0.001), while renal flow for EPACC-High was statistically decreased compared with SCC (1.25 mL/min/kg vs. 1.77 mL/min/kg, P  < 0.001). EPACC animals required less intravenous norepinephrine, (EPACC-Low: 16.23mcg/kg and EPACC-High: 13.72 mcg/kg), compared with SCC (59.45 mcg/kg), P = 0.049 and P = 0.013 respectively., Conclusions: Compared with SCC, EPACC-High and EPACC-Low had decreased norepinephrine requirements with decreased frequency of proximal hypotension. EPACC-Low paradoxically had increased renal perfusion despite having a mechanical resistor in the aorta proximal to the renal arteries. This is the first description of low volume mechanical hemodynamic support in the setting of profound shock from ischemia-reperfusion injury in swine demonstrating stabilized proximal hemodynamics and augmented distal perfusion., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the Shock Society.)

Published

2022