Peptide valency plays an important role in the activity of a synthetic fibrin-crosslinking polymer

Lamm, Robert J.; Lim, Esther B.; Weigandt, Kathleen M.; Pozzo, Lilo D.; White, Nathan J.; Pun, Suzie H.

doi:10.1016/j.biomaterials.2017.04.002

Cited by 19 publications

(34 citation statements)

References 34 publications

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“…In vitro and in vivo studies have shown its beneficial effects on clot formation by crosslinking fibrin and potential use in transfusion for the treatment of coagulopathy and hemorrhage control in a rat femoral artery injury model [50,126]. A recent study showed the binding and augmentation of clot formation through multivalent display of the fibrin-binding peptides along the polymer backbone and the optimal valency of four peptides per polymer for maximum hemostatic function [51]. In addition, when loaded onto a nonwoven chitosan gauze, the PolySTAT/chitosan composite gauze reduced blood loss and improved the survival rate compared to a commercial hemostatic gauze (Celox Rapid) in a rat model of femoral artery injury [127].…”

Section: Synthetic Polymersmentioning

confidence: 99%

Hemostatic agents for prehospital hemorrhage control: a narrative review

Peng

2020

Military Med Res

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Hemorrhage is the leading cause of preventable death in combat trauma and the secondary cause of death in civilian trauma. A significant number of deaths due to hemorrhage occur before and in the first hour after hospital arrival. A literature search was performed through PubMed, Scopus, and Institute of Scientific Information databases for English language articles using terms relating to hemostatic agents, prehospital, battlefield or combat dressings, and prehospital hemostatic resuscitation, followed by cross-reference searching. Abstracts were screened to determine relevance and whether appropriate further review of the original articles was warranted. Based on these findings, this paper provides a review of a variety of hemostatic agents ranging from clinically approved products for human use to newly developed concepts with great potential for use in prehospital settings. These hemostatic agents can be administered either systemically or locally to stop bleeding through different mechanisms of action. Comparisons of current hemostatic products and further directions for prehospital hemorrhage control are also discussed.

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Section: Synthetic Polymersmentioning

confidence: 99%

Hemostatic agents for prehospital hemorrhage control: a narrative review

Peng

2020

Military Med Res

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“…The PolySTATs having a valency of four and higher showed increased clot firmness and formation rates with lower clot breakdown. Lamm et al, have shown that the quadrivalent PolySTATs increased clot firmness values by 57% and decreased the breakdown values by 69% as compared to phosphate-buffered saline [133]. Furthermore, Lamm et al, also carried out an experiment with PolySTAT to optimize its yield and synthesis method, which could potentially capacitate mass production of PolySTAT and its clinical translation [134].…”

Section: Polystatmentioning

confidence: 99%

Polymeric Materials for Hemostatic Wound Healing

et al. 2021

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Hemorrhage is one of the greatest threats to life on the battlefield, accounting for 50% of total deaths. Nearly 86% of combat deaths occur within the first 30 min after wounding. While external wound injuries can be treated mostly using visual inspection, abdominal or internal hemorrhages are more challenging to treat with regular hemostatic dressings because of deep wounds and points of injury that cannot be located properly. The need to treat trauma wounds from limbs, abdomen, liver, stomach, colon, spleen, arterial, venous, and/or parenchymal hemorrhage accompanied by severe bleeding requires an immediate solution that the first responders can apply to reduce rapid exsanguinations from external wounds, including in military operations. This necessitates the development of a unique, easy-to-use, FDA-approved hemostatic treatment that can deliver the agent in less than 30 s and stop bleeding within the first 1 to 2 min at the point of injury without application of manual pressure on the wounded area.

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“…PolySTAT binds fibrin strands together, reinforcing the fibrin network and increasing the overall strength of the clot. [51][52][53][54] In a rat femoral artery injury model, 100% of animals treated with PolySTAT survived the observation period, compared with 40% of rats receiving saline. Other strategies use hyaluronic acid (HA) or polyethylene glycol backbones conjugated with a peptide that can be recognized and crosslinked by FXIII-A*.…”

Section: Peptide-polymer Conjugatesmentioning

confidence: 99%

Nanomedicines for hemorrhage control

Cau

Strilchuk

Kastrup

2021

Journal of Thrombosis and Haemostasis

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Uncontrolled hemorrhage accounts for 40% of all annual deaths resulting from trauma, and it has been a leading cause of death in populations aged 1 to 46 years for many decades. [1][2][3][4] Hemorrhage is a leading cause of death in military combat, and has been responsible for 91% of deaths that were potentially preventable. 5To prevent death due to hemorrhage in the prehospital setting, medical intervention is needed within the first 60 minutes of injury, known as the "golden hour" of trauma. 6 Efforts to position medical treatment facilities closer to soldiers, 7 along with the increased use of tourniquets and topical hemostatic dressings, have reduced the number of soldiers that die of their wounds to <5%. 8 Current tourniquets and hemostatic dressings, however, do not address all types of hemorrhage; they are not effective for bleeding that originates from inaccessible organs and vessels, termed noncompressible hemorrhage (NCH). 5,9 There is a major unmet need for therapies that address NCH in the prehospital setting.Approximately two-thirds of casualties with NCH do not survive until surgery, 10 which is needed to definitively repair injuries. 11Trauma-induced coagulopathy also develops in 25% to 35% of patients with severe hemorrhage and is associated with a four-fold higher mortality rate. 12,13

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Peptide valency plays an important role in the activity of a synthetic fibrin-crosslinking polymer

Cited by 19 publications

References 34 publications

Hemostatic agents for prehospital hemorrhage control: a narrative review

Hemostatic agents for prehospital hemorrhage control: a narrative review

Polymeric Materials for Hemostatic Wound Healing

Nanomedicines for hemorrhage control

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