Show pageBacklinksExport to PDFBack to top This page is read only. You can view the source, but not change it. Ask your administrator if you think this is wrong. ====== Drag-reducing polymers ====== [[Hemorrhagic shock]] (HS) is one of the severe type of [[traumatic brain injury complications]] (TBI) that doubles [[mortality]] due to severely compromised microvascular [[cerebral blood flow]] (mvCBF) and [[oxygen]] delivery reduction, as a result of [[hypotension]]. [[Volume expansion]] with [[resuscitation]] fluids (RF) for HS does not improve microvascular CBF (mvCBF); moreover, it aggravates [[brain edema]]. Bragin et al. showed that the addition of [[drag-reducing polymers]] (DRP) to [[crystalloid]] RF (lactated Ringer's) significantly improves mvCBF, oxygen supply, and neuronal survival in rats suffering TBI+HS. They compared the effects of colloid RF (Hetastarch) with DRP (HES-DRP) and without (HES). Fluid percussion TBI (1.5 ATA, 50 ms) was induced in rats and followed by controlled HS to a mean arterial pressure (MAP) of 40 mmHg. HES or HES-DRP was infused to restore MAP to 60 mmHg for 1 h (prehospital period), followed by blood reinfusion to a MAP of 70 mmHg (hospital period). In vivo two-photon microscopy was used to monitor cerebral microvascular blood flow, tissue hypoxia (NADH), and neuronal necrosis (i.v. propidium iodide) for 5 h after TBI+HS, followed by postmortem DiI vascular painting. Temperature, MAP, blood gases, and electrolytes were monitored. Statistical analyses were done using GraphPad Prism by Student's t-test or Kolmogorov-Smirnov test, where appropriate. TBI+HS compromised mvCBF and tissue oxygen supply due to capillary microthrombosis. HES-DRP improved mvCBF and tissue oxygenation (p < 0.05) better than HES. The number of dead neurons in the HES-DRP was significantly less than in the HES group: 76.1 ± 8.9 vs. 178.5 ± 10.3 per 0.075 mm3 (P < 0.05). Postmortem visualization of painted vessels revealed vast microthrombosis in both hemispheres that were 33 ± 2% less in HES-DRP vs. HES (p < 0.05). Thus, resuscitation after TBI+HS using HES-DRP effectively restores mvCBF and reduces hypoxia, microthrombosis, and neuronal necrosis compared to HES. HES-DRP is more neuroprotective than lactated Ringer's with DRP and requires an infusion of a smaller volume, which reduces the development of [[hypervolemia]]-induced [[brain edema]] ((Bragin DE, Bragina OA, Berliba L, Kameneva MV, Nemoto EM. Addition of Drag-Reducing Polymers to Colloid Resuscitation Fluid Enhances Cerebral Microcirculation and Tissue Oxygenation After Traumatic Brain Injury Complicated by Hemorrhagic Shock. Adv Exp Med Biol. 2021;1269:283-288. doi: 10.1007/978-3-030-48238-1_45. PMID: 33966231.)) ---- 2: Bragin DE, Bragina OA, Trofimov A, Berliba L, Kameneva MV, Nemoto EM. Improved Cerebral Perfusion Pressure and Microcirculation by Drag Reducing Polymer-Enforced Resuscitation Fluid After Traumatic Brain Injury and Hemorrhagic Shock. Acta Neurochir Suppl. 2021;131:289-293. doi: 10.1007/978-3-030-59436-7_54. PMID: 33839860; PMCID: PMC8086029. 3: Bragin DE, Bragina OA, Kameneva MV, Nemoto EM. Resuscitation with Drag Reducing Polymers after Traumatic Brain Injury with Hemorrhagic Shock Reduces Microthrombosis and Oxidative Stress. Adv Exp Med Biol. 2020;1232:39-45. doi: 10.1007/978-3-030-34461-0_6. PMID: 31893392; PMCID: PMC7367753. 4: Bragin DE, Lara DA, Bragina OA, Kameneva MV, Nemoto EM. Resuscitation Fluid with Drag Reducing Polymer Enhances Cerebral Microcirculation and Tissue Oxygenation After Traumatic Brain Injury Complicated by Hemorrhagic Shock. Adv Exp Med Biol. 2018;1072:39-43. doi: 10.1007/978-3-319-91287-5_7. PMID: 30178321; PMCID: PMC6314472. 5: Bragin DE, Kameneva MV, Bragina OA, Thomson S, Statom GL, Lara DA, Yang Y, Nemoto EM. Rheological effects of drag-reducing polymers improve cerebral blood flow and oxygenation after traumatic brain injury in rats. J Cereb Blood Flow Metab. 2017 Mar;37(3):762-775. doi: 10.1177/0271678X16684153. Epub 2016 Dec 22. PMID: 28155574; PMCID: PMC5363490. 6: Bragin DE, Peng Z, Bragina OA, Statom GL, Kameneva MV, Nemoto EM. Improvement of Impaired Cerebral Microcirculation Using Rheological Modulation by Drag- Reducing Polymers. Adv Exp Med Biol. 2016;923:239-244. doi: 10.1007/978-3-319-38810-6_32. PMID: 27526149; PMCID: PMC4988339. 7: Bragin DE, Thomson S, Bragina O, Statom G, Kameneva MV, Nemoto EM. Drag- Reducing Polymer Enhances Microvascular Perfusion in the Traumatized Brain with Intracranial Hypertension. Acta Neurochir Suppl. 2016;122:25-9. doi: 10.1007/978-3-319-22533-3_5. PMID: 27165871; PMCID: PMC4959442. drag-reducing_polymers.txt Last modified: 2025/05/13 02:12by 127.0.0.1