Applications of AFM in pharmaceutical sciences

Atomic force microscopy (AFM) is a high-resolution imaging technique that uses a small probe (tip and cantilever) to provide topographical information on surfaces in air or in liquid media. By pushing the tip into the surface or by pulling it away, nanomechanical data such as compliance (stiffness, Young’s Modulus) or adhesion, respectively, may be obtained and can also be presented visually in the form of maps displayed alongside topography images. This chapter outlines the principles of operation of AFM, describing some of the important imaging modes and then focuses on the use of the technique for pharmaceutical research. Areas include tablet coating and dissolution, crystal growth and polymorphism, particles and fibres, nanomedicine, nanotoxicology, drug-protein and protein-protein interactions, live cells, bacterial biofilms and viruses. Specific examples include mapping of ligand-receptor binding on cell surfaces, studies of protein-protein interactions to provide kinetic information and the potential of AFM to be used as an early diagnostic tool for cancer and other diseases. Many of these reported investigations are from 2011-2014, both from the literature and a few selected studies from the authors’ laboratories

Preclinical evaluation of scorzonera sp root extracts and major compounds against acute hepatotoxicity induced by carbon tetrachloride

WOS: 000419284200007Evaluation of hepatoprotective activities of Scorzonera roots and their major compounds, was aimed in current study. Scorzonera latifolia, S. tomentosa, S. mollis ssp. szowitsii, S. parviflora and S. cana var. jacquiniana roots, methanol-water (80:20) extracts together with chlorogenic acid, scorzotomentosin-4'-O-beta-glucoside, hydrangenol-8-O-beta-glucoside as major compounds isolated from S. latifolia roots were tested for their hepatoprotective activities. Sprague Dawley rats were used for experiment and hepatotoxicity was induced by carbon tetrachloride. Aspartate aminotransferase and alanine aminotransferase levels were measured and all results were confirmed by histopathological examination. Plasma aspartate aminotransferase and alanine aminotransferase levels of examined groups were not significant when compared to carbon tetrachloride-treated groups. However histopathological results have revealed that all tested groups have less damage when compared to carbon tetrachloride group except scorzotomentosin-4'-O-beta-glucoside and hydrangenol-8-O-beta-glucoside groups. Scorzonera species displayed moderate hepatoprotective activities against carbon tetrachloride induced acute toxicity. Chlorogenic acid, among tested compounds exhibited higher activity than all tested Scorzonera species as well as other isolated compounds. Therefore chlorogenic acid could be suggested as responsible compound

Green tea extract exerts anabolic effects on extracellular matrix of the skin

An in vitro trial was carried out to reveal the effects of an extract of Camellia sinensis (green tea extract) on the major extracellular matrix components of human skin. After preparing the green tea extract its phytochemical contents were analysed and its effects on gene expression of hyaluronan synthase 2, matrix metalloproteinase-9 and elastase in a human dermal fibroblast cell line were determined. Cell proliferation assay was performed using XTT reagent. Ribonucleic acid isolations were realized by using TRI reagent. Expressions of the relevant enzymes and a control enzyme glyceraldehyde-3-phosphate dehydrogenase were determined using RT-qPCR analysis. Green tea extract caused statistically significant upregulation of hyaluronan synthase-2 gene expression compared to untreated control cells. Also, as a positive outcome, the treatment resulted in significant downregulations of matrix metalloproteinase-9 and elastase gene expressions. Green tea extract was found to have substantial anabolic effects on hyaluronic acid, collagen and elastin. The results obtained in this study might partially explain the molecular basis of the health benefits and antiaging effects of Camellia sinensis on skin

Curative Effects of Triphala Extract against Swim Stress-Induced Gastric Ulcers via Reduced Ulcer Index, Strengthened Gastric Mucosa and Improved Redox State in Rats

Recently, the percentage of Peptic ulcer disease not linked to either Helicobacter pylori or non-steroidal anti-inflammatory drugs has increased and signifies the prominent role of psychophysiological stress in the establishment and advancements of gastric ulcers and other peptic ulcer diseases. The current study was intended not only to develop post-treatment swim stress-induced peptic ulcer disease rat model but also to analyze the curative effects of hydro-alcoholic extract of Triphala in swim stress-induced peptic ulcer disease model. A post-treatment swim stress-induced peptic ulcer disease rat model was developed followed by therapeutic intervention of hydro-alcoholic extract of Triphala. The gross evaluation of gastric tissues showed that swim stress induces significant gastric ulcers in rats that could clearly be observed after 21 d of self-healing. Further, the findings of our interventional investigations revealed that hydro-alcoholic extract of Triphala exerts significant gastro-protective activity in swim stress-induced peptic ulcer disease via decreasing the ulcer index and increasing the protective gastric mucus content, whereas, the level/activities of catalase, superoxide dismutase, glutathione and malondialdehyde were also ameliorated after the administration of Triphala extract in experimental peptic ulcer disease model. In addition, the findings from our biochemical investigations are also well corroborated by histopathological observations. In conclusion, the current study demonstrates that swim-stress results in the development of gastric ulcers and damages the gastric mucosa along with the altered redox homeostasis in rats and Triphala extract exerts significant curative effects in posttreatment swim-stress-induced peptic ulcer disease rat model and may later be investigated and promoted for human clinical application

The Pharmaceutical Sciences in 2020: Report of a Conference Organized by the Board of Pharmaceutical Sciences of the International Pharmaceutical Federation (FIP)

The Board of Pharmaceutical Sciences (BPS) of the International Pharmaceutical Federation (FIP) has developed a view on the future of pharmaceutical sciences in 2020. This followed an international conference with invited participants from various fields (academicians, scientists, regulators, industrialists, venture capitalists) who shared their views on the forces that might determine how the pharmaceutical sciences will look in 2020. The commentary here provides a summary of major research activities that will drive drug discovery and development, enabling technologies for pharmaceutical sciences, paradigm shifts in drug discovery, development and regulations, and changes in education to meet the demands of academia, industry and regulatory institutions for pharmaceutical sciences in 2020

Dr. Samson Amos Named Chair of Pharmaceutical Sciences at Cedarville University

Samson Amos, Ph.D., associate professor of pharmaceutical sciences at Cedarville University, was named chair of the pharmaceutical sciences department, effective July 1

Do World Nations Have a Solid Grip to Smash the COVID-19 Pandemic?

Letter to Editor by Ankit Monga, U.G. Scholar, School of Pharmaceutical Sciences, Delhi Pharmaceutical Sciences and Research University (DPSRU), Govt. of N.C.T Delhi, New Delhi – 11001