Among various routes of drug delivery, Oral administration is the most convenient route because of its high patient compliance. Although oral drug delivery is effective for drugs with high aqueous solubility and epithelial permeability; however for poorly aqueous soluble drug the membrane permeability, chemical, and enzymatic stability of drugs are the major limitations in successful oral drug delivery. Almost 70% of the new drug candidates which shows poor bioavailability, the antihypertensive drugs are among those. Novel drug delivery systems are available in many areas to overcome the problems associated with hydrophobic drugs and the nanotechnology-based drug delivery system is the most potential to beat the challenges related to the oral route of administration with some important advantages such as the colloidal size, biocompatibility, lowered dose size, reduced toxicity, patient compliance and drug targeting. The foremost common nanotechnology-based strategies utilized in the development of delivery systems are nano-emulsions, nano-suspensions, dendrimers, micelles, liposomes, solid lipid nanoparticles, polymeric nanoparticles, carbon nanotubes, Self-Nano-emulsifying Drug Delivery System, proliposomes, nano-crystals, and so forth, which give controlled, sustained, and targeted drug delivery. The appliance of those systems within the treatment of hypertension continues to broaden. This review focuses on various nano-carriers available in oral drug administration for improving solubility profile, dissolution, and consequently bioavailability of hydrophobic antihypertensive drugs.
Objectives: The main objective of this study was to develop and evaluate Nevirapine nanoparticle loaded mucoadhesive gel (NVP-Np mucoadhesive gel) for vaginal application for the treatment of HIV infection. Methods: NVP loaded nanoparticles were prepared by salting out method followed by incorporation in different gel bases to produce NVP-Np mucoadhesive gel The prepared gels were evaluated for their physicochemical parameters, rheological characteristics, mucoadhesion, in-vitro drug release and ex-vivo permeation of drug across porcine vaginal mucosa. Results: The result of FT-IR and DSC study confirmed the absence of incompatibility of NVP with excipients used in the formulations. The particle size of the prepared NVP-Np was found to be 243.8 ± 3.15 nm, a polydispersity index (PI) of 0.787± 0.002 and zeta potential value -17.12 mV, which revealed the stability of nanoparticles. All the formulations showed good homogeneity, spreadability, physical appearance and content uniformity. The pH of the mucoadhesive gel formulations was in the range of 3.70 ± 0.03 to 4.56 ± 0.02, which lies in the normal pH range of the vaginal fluid. The cumulative amounts permeated at 6 h were 832.23 ± 63.45 μg/cm2 , 592.13 ± 82.55 μg/cm2 and 941.32 ± 81.10 μg/cm2 from F1(1% Chitosan), F2(1% Carbopol 974P) and F3 (1% HPMC K100M ) respectively. A linear relationship [r2 > 0.9 (0.97 n 0.99)] was observed between the percentage cumulative amount permeated and time, indicating zero order kinetics. Conclusion: In conclusion, NVP-Np mucoadhesive gel was prepared successfully using salting out followed by a homogenization technique for vaginal application of NVP for the prophylaxis of HIV infection.
Cancer is the second leading cause of death in the world and one of the major public health problems. Despite the great advances in cancer therapy, the incidence and mortality rates of cancer remain high. Therefore, the goal for more efficient and less toxic cancer treatment strategies is still at the forefront of current research. Despite these efforts, cancer drug research remains a remarkably challenging field, and therapeutic innovations have not yet achieved expected clinical results. However, the physiopathology of the disease is now better understood, and the discovery of novel molecular targets has refreshed the expectations of developing improved treatments. Paclitaxel (PCT) is a chemotherapeutic agent used as a first-line treatment for a wide range of cancers, such as lung, ovarian, breast, prostate, head, and neck cancers, and AIDS-related Kaposi sarcoma. Currently, the marketed forms of Paclitaxel are intravenous formulations. Oral administration of Paclitaxel is unfortunately hampered due to its low bioavailability. This is explained by its low aqueous solubility, low permeability, high affinity for cytochrome P450 and P-glycoprotein. As another approach, drug carrier systems are extensively studied to enhance oral Paclitaxel bioavailability and reduce side effects. The niosomes provides several important advantages over conventional drug therapy. Structurally, niosomes are similar to liposomes, in that they are also made up of a bilayer. However, the bilayer in the case of niosomes is made up of non-ionic surface-active agents rather than phospholipids as seen in case of liposomes. Niosome nanoparticles are among these drug delivery systems, which have numerous applications in drug delivery and targeting. Niosomes are frequently used for loading drugs serving different purposes (e.g., anticancer, antiviral, and antibacterial agents). The aim of this review is to evaluate the extent of nanotherapeutics used in anti-cancer activity.
The aim of the present study was to develop pharmaceutically better performing Diclofenac Sodium hydrogel through FbD approaches as compared to marketed gel. The quality target product profile was set for the critical quality attributes of the gel. The key material variables like Carbopol 934P, propylene glycol and Triethanolamine (TEA) were optimized using design of experiments. A response surface central composite design was used considering viscosity, pH and cumulative percentage permeation of the drug up to 120 min as responses. TEA had a significant effect on the pH at concentrations of 0.3182-3.6818% (w/w). The applicability of the optimized formulations was influenced by both Carbopol 934P (0.6591-2.3409%; w/w) and propylene glycol (PG; 6.591-23.409%; w/w) content due to their ability to alter the formulation viscosity. The optimized formulation, determined mathematically, contained 1.5% (w/w) Carbopol 934P. 2.0% (w/w) TEA and 15% (w/w) PG. The optimized hydrogel and marketed gel were evaluated for viscosity, spreadability, skin irritation, homogeneity and grittiness, texture analysis, in vitro release and ex vivo permeation studies. When these evaluation parameters were compared with a marketed gel in respect of all the evaluating tests, the optimized hydrogel was found to be far better formulation than the marketed one.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.