Biomaterials-Enabled Antithrombotics: Recent Advances and Emerging Strategies

Abstract: Antithrombotic and thrombolytic therapies are used to prevent, treat, and remove blood clots in various clinical settings, from emergent to prophylactic. While ubiquitous in their healthcare application, short half-lives, off-target effects, overdosing complications, and patient compliance continue to be major liabilities to the utility of these agents. Biomaterials-enabled strategies have the potential to comprehensively address these limitations by creating technologies that are more precise, durable, and sa… Show more

“…The limitations of current antithrombotic and thrombolytic therapies can be addressed through biomaterial-based strategies. By incorporating nanoscale to macroscale biomaterials, these approaches hold the potential to transform cardiovascular therapies [ 67 ]. Formulation methods, controlled release kinetics, and clot-specific drug targeting are discussed in this report, along with the preclinical efficacy of these technologies in cardiovascular applications.…”

Nanosystems in Cardiovascular Medicine: Advancements, Applications, and Future Perspectives

“…The limitations of current antithrombotic and thrombolytic therapies can be addressed through biomaterial-based strategies. By incorporating nanoscale to macroscale biomaterials, these approaches hold the potential to transform cardiovascular therapies [ 67 ]. Formulation methods, controlled release kinetics, and clot-specific drug targeting are discussed in this report, along with the preclinical efficacy of these technologies in cardiovascular applications.…”

Nanosystems in Cardiovascular Medicine: Advancements, Applications, and Future Perspectives

Bioengineering the Heart: Harnessing Biomaterials for Innovative Cardiovascular Interventions