Dr Janapati Pedda Yanadaiah
@svcp.education
Professor in Pharmacognosy
MB School of Pharmaceutical Sciences (Erstwhile Sree Vidyanikethan College of Pharmacy)
RESEARCH, TEACHING, or OTHER INTERESTS
Pharmaceutical Science, Pharmacology, Organic Chemistry, Pharmacy
Scopus Publications
Scopus Publications
Mekala Sabareesh, Janapati Pedda Yanadaiah, and Kothapalli Bannoth Chandrasekhar
A and V Publications
Nanotechnology is an emerging technology that has brought the upheaval reforms in the domain of pharmaceutical sciences including the development of nanovesicular drug delivery carriers such as proniosomes, niosomes, liposomes, ethosomes, etc. Among them, proniosomes become superior and they surmount the problems of other vesicular carriers. Proniosomes are nano-sized vesicular structures of dry, free-flowing powder (or) gel with encapsulation of drugs in the vesicle that produce multilamellar niosomal dispersion after hydration and they possess the capacity to enhance solubility, permeability and bioavailability of diverse drugs. Proniosomes are suitable to deliver the drugs efficiently through transdermal route to accomplish controlled release action, increased therapeutic effectiveness to various diseases and upon application to the skin, the proniosmes are modified into niosomes in situ by hydration of water from the skin. This study aims to discuss different aspects of proniosomes such as merits, mechanism, types, components, preparation, characterization, drug release, market scenario, future trends and to explore proniosomes for various pharmaceutical applications in drug delivery via different routes, such as topical, transdermal, oral, parenteral, ocular, vaginal, nebulizer and intranasal routes. These proniosomes-derived niosomes are better and may offer an excellent, inexpensive alternative delivery, much more beneficial than other vesicular and conventional dosage forms.
M. Sabareesh, J.P. Yanadaiah, and K.B. Chandra Sekhar
A and V Publications
M. SABAREESH, J. P. YANADAIAH, and K. B. CHANDRA SEKHAR
Innovare Academic Sciences Pvt Ltd
Objective: The objective of the study was to formulate and evaluate the nanoproniosomal gel of Enalapril maleate (EM) for the treatment of hypertension through the transdermal administration and to provide better bioavailability.
 Methods: The nanoproniosomal gel of the EM was formulated by Lecithin, Cholesterol, Non-ionic surfactants using the Coacervation-phase separation method. The prepared nanoproniosomal gels were evaluated for pH and viscosity, vesicle size analysis, rate of spontaneity, entrapment efficiency, zeta potential, ex vivo skin permeation studies, skin irritation test, stability studies and in vivo antihypertensive studies.
 Results: Physical characterization was found to be within acceptable limits. The ex vivo skin permeation studies showed the cumulative permeation of 58.75 % to 89.72 % through the albino rat skin in 24 h for all the formulations, which indicate the zero-order drug permeation with diffusion, non-fickian release. Among all formulations, EMNP7 was selected as best formulation because it showed better characteristics than other formulations in several aspects like physicochemical characterization, ex vivo skin permeation studies, permeation kinetics, and other evaluation parameters. The skin irritation study revealed that there was no irritation after topical application and it was found to be safer to use. The In vivo antihypertensive study revealed that the formulation of EMNP7 was successful to regress the rat blood pressure (BP) to normal values in experimental hypertensive rats.
 Conclusion: The nanoproniosomal gel is an efficient transdermal therapeutic system for the delivery of EM for the treatment of hypertension. It is suitable for once a day controlled release formulation.