A Comprehensive Physicochemical Analysis Focusing on the Characterization and Stability of Valsartan Silver Nano-Conjugates
Abdul Qadir, Khwaja Suleman Hasan, Khair Bux, Khwaja Ali Hasan, Aamir Jalil, Asad Khan Tanoli, Khwaja Akbar Hasan, Shahida Naz, Muhammad Kashif, Nuzhat Fatima Zaidi, Ayesha Khan, Zeeshan Vohra, Herwig Ralf, Shama Qaiser

TL;DR
Researchers created and tested valsartan-loaded silver nanoparticles to improve drug solubility and delivery for hypertension treatment.
Contribution
The synthesis and characterization of valsartan-containing silver nanoparticles using natural extracts for enhanced drug delivery.
Findings
Val-AgNPs are spherical, 30–60 nm in size, and show a uniform particle size distribution.
Val-AgNPs exhibit altered surface chemistry and stability, with a zeta potential of −19.5 mV and reduced aggregation tendency.
Val-AgNPs are non-hemolytic and safe for biological applications, with stability observed in various pH and solvent conditions.
Abstract
Valsartan (Val)—a lipophilic non-peptide angiotensin II type 1 receptor antagonist—is highly effective against hypertension and displaying limited solubility in water (3.08 μg/mL), thereby resulting in low oral bioavailability (23%). The limited water solubility of antihypertensive drugs can pose a challenge, particularly for rapid and precise administration. Herein, we synthesize and characterize valsartan-containing silver nanoparticles (Val-AgNPs) using Mangifera indica leaf extracts. The physicochemical, structural, thermal, and pharmacological properties of these nano-conjugates were established through various analytical and structural tools. The spectral shifts in both UV-visible and FTIR analyses indicate a successful interaction between the valsartan molecule and the silver nanoparticles. The resulting nano-conjugates are spherical and within the size range of 30–60 nm as…
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Taxonomy
TopicsAdvancements in Transdermal Drug Delivery · Nanoparticles: synthesis and applications · Advanced Drug Delivery Systems
