Treating trauma-induced acute blood loss

Applications

  • Emergency medicine to treat acute hemorrhagic shock

Key Benefits & Differentiators

  • Improved efficacy compared to the clinical standard, LR solution, in vivo (60-80% survival, compared to 30% for LR)
  • Replacement of DMSO improves in vivo efficacy and reduces in vitro hemolysis.
  • Simplified, user-friendly preparation of lyophilized powder reconstituted in water.

Technology Overview
Hemorrhagic shock (HS) is the second-leading cause of injury-related death. HS is caused by rapid blood loss, resulting in decreased blood pressure, reduced oxygen delivery to cells, and hypothermia. To supplement lost blood volume, first responders employ specially formulated solutions called resuscitation fluids (RFs). Despite widespread clinical use, uncertainty remains regarding optimal use of these fluids, and adverse effects have been described for both normal saline and Lactated Ringer’s (LR) solution, the two most used treatments. Therefore, there is need to develop readily usable and efficacious RFs.

Initial studies showed treatment with a combination of D-β-hydroxybutyrate (BHB) and melatonin (M) improves survival in HS animal models. However, the DMSO solvent necessary to solubilizing melatonin has therapeutic liability limiting its use in RF. Researchers at the UMN identified novel formulations with alternative cosolvents (PVP alone or in combination with PEG and CD), which circumvent the limitations of using DMSO. These new RFs demonstrate improved efficacy in rat HS models compared to both the clinical standard (normal saline and LR) and the original DMSO-based formulation.

Phase of Development

TRL: 5-6
Pre-clinical proof of concept in rat and pig models of hemorrhagic shock or trauma
Desired Partnerships
This technology is now available for:

  • License
  • Sponsored research
  • Co-development

Please contact our office to share your business’ needs and learn more.

Researchers

  • Gregory Bielman, MD Professor, Department of Surgery
  • Raj Suryanarayanan, PhD Professor, Department of Pharmaceutics
  • Seema Thakral, PhD Communications Director, Scientist, Characterization Facility

Abstract

Novel formulations of D-β-hydroxybutyrate and melatonin improve survival from hemorrhagic shock.

Website

https://license.umn.edu/product/treating-trauma-induced-acute-blood-loss

Contact Information

Name: Sandipan Banerjee

Email: baner198@umn.edu

Phone: 3023447726