Manogna Balabhadrapatruni scite author profile

Manogna Balabhadrapatruni

4Publications

53Citation Statements Received

162Citation Statements Given

How they've been cited

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158

Affiliations

University of Maryland, College Park

Publications

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Sprayable tissue adhesive with biodegradation tuned for prevention of postoperative abdominal adhesions

Erdi

Rozyyev

Balabhadrapatruni

et al. 2022

Bioengineering & Transla Med

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Adhesions are dense, fibrous bridges that adjoin tissue surfaces due to uncontrolled inflammation following postoperative mesothelial injury. A widely used adhesion barrier material in Seprafilm often fails to prevent transverse scar tissue deposition because of its poor mechanical properties, rapid degradation profile, and difficulty in precise application. Solution blow spinning (SBS), a polymer fiber deposition technique, allows for the placement of in situ tissue‐conforming and tissue‐adherent scaffolds with exceptional mechanical properties. While biodegradable polymers such as poly(lactic‐co‐glycolic acid) (PLGA) have desirable strength, they exhibit bulk biodegradation rates and inflammatory profiles that limit their use as adhesion barriers and result in poor tissue adhesion. Here, viscoelastic poly(lactide‐co‐caprolactone) (PLCL) is used for its pertinent biodegradation mechanism. Because it degrades via surface erosion, spray deposited PLCL fibers can dissolve new connections formed by inflamed tissue, allowing them to function as an effective, durable, and easy‐to‐apply adhesion barrier. Degradation kinetics are tuned to match adhesion formation through the design of PLCL blends comprised of highly adhesive “low”‐molecular weight (LMW) constituents in a mechanically robust “high”‐molecular weight (HMW) matrix. In vitro studies demonstrate that blending LMW PLCL (30% w/v) with HMW PLCL (70% w/v) yields an anti‐fibrotic yet tissue‐adhesive polymer sealant with a 14‐day erosion rate countering adhesion formation. PLCL blends additionally exhibit improved wet tissue adhesion strength (~10 kPa) over a 14‐day period versus previously explored biodegradable polymer compositions, such as PLGA. In a mouse cecal ligation model, select PLCL blends significantly reduce abdominal adhesions severity versus no treatment and Seprafilm‐treated controls.

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Biodegradable, Tissue Adhesive Polyester Blends for Safe, Complete Wound Healing

Daristotle

Erdi

Lau

et al. 2021

ACS Biomater. Sci. Eng.

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Pressure-sensitive adhesives typically used for bandages are nonbiodegradable, inhibiting healing, and may cause an allergic reaction. Here, we investigated the effect of biodegradable copolymers with promising thermomechanical properties on wound healing for their eventual use as biodegradable, biocompatible adhesives. Blends of low molecular weight (LMW) and high molecular weight (HMW) poly(lactide-co-caprolactone) (PLCL) are investigated as tissue adhesives in comparison to a clinical control. Wounds treated with PLCL blend adhesives heal completely with similar vascularization, scarring, and inflammation indicators, yet require fewer dressing changes due to integration of the PLCL adhesive into the wound. A blend of LMW and HMW PLCL produces an adhesive material with significantly higher adhesive strength than either neat polymer. Wound adhesion is comparable to a polyurethane bandage, utilizing conventional nonbiodegradable adhesives designed for extremely strong adhesion.

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Author response for "Sprayable tissue adhesive with biodegradation tuned for prevention of postoperative abdominal adhesions"

Erdi¹,

Rozyyev²,

Balabhadrapatruni³

et al. 2022

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In vitro degradation and characterization of sprayable polymer blends for tissue adhesion

Balabhadrapatruni¹

2021

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