Muhammad Tayyab Ansari

Bio: Muhammad Tayyab Ansari is an academic researcher from Bahauddin Zakariya University. The author has contributed to research in topics: Solubility & Vildagliptin. The author has an hindex of 14, co-authored 39 publications receiving 545 citations.

Preparation and characterization of hybrid pH-sensitive hydrogels of chitosan-co-acrylic acid for controlled release of verapamil

Abstract: In the present work crosslinked hydrogels based on chitosan (CS) and acrylic acid (AA) were prepared by free radical polymerization with various feed compositions using N,N methylenebisacrylamide (MBA) as crosslinking agent. Benzoyl peroxide was used as catalyst. Fourier transform infrared spectra (FTIR) confirmed the formation of the crosslinked hydrogels. This hydrogel is formed due to electrostatic interaction between cationic groups in CS and anionic groups in AA. Prepared hydrogels were used for dynamic and equilibrium swelling studies. For swelling behavior, effect of pH, polymeric and monomeric compositions and degree of crosslinking were investigated. Swelling studies were performed in USP phosphate buffer solutions of varying pH 1.2, 5.5, 6.5 and 7.5. Results showed that swelling increased by increasing AA contents in structure of hydrogels in solutions of higher pH values. This is due to the presence of more carboxylic groups available for ionization. On the other hand by increasing the chitosan content swelling increased in a solution of acidic pH, but this swelling was not significant and it is due to ionization of amine groups present in the structure of hydrogel. Swelling decreased with increase in crosslinking ratio owing to tighter hydrogel structure. Porosity and sol-gel fraction were also measured. With increase in CS and AA contents porosity and gel fraction increased, whereas by increasing MBA content porosity decreased and gel fraction increased. Furthermore, diffusion coefficient (D) and the network parameters i.e., the average molecular weight between crosslinks (Mc), polymer volume fraction in swollen state (V2s), number of repeating units between crosslinks (Mr) and crosslinking density (q) were calculated using Flory-Rehner theory. Selected samples were loaded with a model drug verapamil. Release of verapamil depends on the ratios of CS/AA, degree of crosslinking and pH of the medium. The release mechanisms were studied by fitting experimental data to model equations and calculating the corresponding parameters. The result showed that the kinetics of drug release from the hydrogels in both pH 1.2 and 7.5 buffer solutions was mainly non-Fickian diffusion.

Malaria and artemisinin derivatives: an updated review.

Abstract: Malaria is the world's most prevalent disease that affects 515-600 million people each year and about 40% of the world's population live at risk for this infection. The prevalence of morbidity and mortality from drug resistant malaria (Plasmodium falciparum) is increasing in most of the developing countries, which is also a global threat because international travel is common now and imported malaria is increasingly a serious problem. Since rapid schizonticidal action of naturally occurring endoperoxides pharmacophore present in artemisinin against drug-resistant malaria has been documented, researchers have focused more on artemisinin analogs than any other antimalarials. In this review, drugs of choice about malaria i.e. artemisinin and its analogus/derivatives (arteether, artemether, artemiside, artemisinin, artemisone, artesunate, dihydroartemisinin) have been discussed in detail e.g. bioavailability, formulation development, stability, combination therapy, additional benefits, drug resistance and toxicity have been reviewed.

Dihydroartemisinin-cyclodextrin complexation: Solubility and stability

Abstract: Dihydroartemisinin (DHA) is a major metabolite of artemisinin and its derivatives, including arteether, artemether, and artesunate. To improve the solubility and stability of poorly soluble DHA, we prepared inclusion complexes with hydroxypropyl-beta-cyclodextrin (HPbetaCD) and recrystalized DHA to study its thermal stability. The complexes were characterized by differential scanning calorimetery (DSC), Fourier transform infrared spectroscopy (FTIR), X-ray diffraction patterns (XRD), thermal stability, phase, and equilibrium solubility studies. Pure DHA was crystalline and remained crystalline after recrystallization, but its unit cell dimensions changed as exhibited by XRD. DHA-HPbetaCD complexes showed a phase transitions towards amorphous in DSC thermograms, FTIR spectra, and XRD patterns. The phase solubility profiles of complexes prepared in water, acetate buffer, and phosphate buffers were classified as A(L)-type, indicating the formation of a 1:1 stoichiometric inclusion complex. The equilibrium solubility of DHA was enhanced as a function of HPbetaCD concentration. DHA-HPbetaCD complexes showed an 89-fold increase in solubility compared to DHA. Solubilities of complexes containing 275.1 mM HPbetaCD in water, acetate buffer (pH 3.0), and phosphate buffer (pH 3.0 and 7.4) were 10.04, 7.96, 6.30, and 11.61 mg/ml, respectively. Hydrogen bonding was found between DHA and HPbetaCD, and it was stronger in complexes prepared in water than in buffers. However, the AH values were higher in buffer than water. DHA-HPbetaCD complexes prepared using commercial (untreated) or recrystallized DHA (no detectable impurity) showed a 40% increase in thermal stability (50 degrees C) and a 29-fold decrease in hydrolysis rates compared with DHA. The rank order of stability constants (K(s)) was: water, acetate buffer (pH 3.0), phosphate buffer (pH 3.0), and phosphate buffer (pH 7.4). Thus, HPbetaCD complexation with recrystalized DHA increases DHA solubility and stability.

Effects of drug-polymer dispersions on solubility and in vitro diffusion of artemisinin across a polydimethylsiloxane membrane

Abstract: Artemisinin (ART) is a sesquiterpene lactone with an endo-peroxide bridge that is thought to be responsible for its antimalarial activity. It has low oral bioavailability because of aqueous insolubility, which leads to local toxicity at the site of aggregation. The present work focused on increasing its solubility and evaluating its permeation across a model membrane to mimic transdermal delivery that bypasses the hepatic metabolism. For this purpose, physical mixtures (PM), solid dispersions (SD) and lyophilized dispersions (LD) with different drug-polymer ratios (1:0.5, 1:1, 1:2, 1:4 and 1:9) were prepared using the hydrophilic polymer polyvinylpyrrolidone (PVP). Drug-polymer dispersions were characterized using X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FTIR). Solubility was measured in three solvents: de-ionized water, phosphate buffered saline (PBS) and methanol. The toluene-water partition coefficient was evaluated and compared with the literature and calculated logP values. In vitro diffusion of ART was studied across a polydimethylsiloxane membrane from a saturated solution of drug-polymer dispersions. XRD patterns showed a gradual decrease in crystallinity of ART with increasing polymer concentration, while FTIR confirmed no interactions between ART and PVP. Solubility was increased up to 4-, 5- and 8-fold for LD in water, PBS and methanol, respectively. The logP for toluene-water was 2.65 ± 0.3, which is in good agreement with literature and calculated logP values. Permeation was enhanced, which is attributed to the decrease in crystallinity and increase in wettability of the drug. The ART flux was significantly higher than that of pure ART (0.12 ± 0.01) with increasing PVP concentration for SD and LD formulations. In conclusion, drug-polymer dispersions with PVP improve the pharmaceutical properties of ART in the order LD>SD>PM.

Hit and lead criteria in drug discovery for infectious diseases of the developing world

Abstract: Reducing the burden of infectious diseases that affect people in the developing world requires sustained collaborative drug discovery efforts. The quality of the chemical starting points for such projects is a key factor in improving the likelihood of clinical success, and so it is important to set clear go/no-go criteria for the progression of hit and lead compounds. With this in mind, the Japanese Global Health Innovative Technology (GHIT) Fund convened with experts from the Medicines for Malaria Venture, the Drugs for Neglected Diseases initiative and the TB Alliance, together with representatives from the Bill &Melinda Gates Foundation, to set disease-specific criteria for hits and leads for malaria, tuberculosis, visceral leishmaniasis and Chagas disease. Here, we present the agreed criteria and discuss the underlying rationale.

Overcoming cancer therapeutic bottleneck by drug repurposing

Abstract: Ever present hurdles for the discovery of new drugs for cancer therapy have necessitated the development of the alternative strategy of drug repurposing, the development of old drugs for new therapeutic purposes. This strategy with a cost-effective way offers a rare opportunity for the treatment of human neoplastic disease, facilitating rapid clinical translation. With an increased understanding of the hallmarks of cancer and the development of various data-driven approaches, drug repurposing further promotes the holistic productivity of drug discovery and reasonably focuses on target-defined antineoplastic compounds. The “treasure trove” of non-oncology drugs should not be ignored since they could target not only known but also hitherto unknown vulnerabilities of cancer. Indeed, different from targeted drugs, these old generic drugs, usually used in a multi-target strategy may bring benefit to patients. In this review, aiming to demonstrate the full potential of drug repurposing, we present various promising repurposed non-oncology drugs for clinical cancer management and classify these candidates into their proposed administration for either mono- or drug combination therapy. We also summarize approaches used for drug repurposing and discuss the main barriers to its uptake.