Patient’s Perception of Community Pharmacist in North Malabar region of Kerala, India: A questionnaire based study

Pharmacists as vital healthcare professionals play significant role in effective medication management and their use among the patients. However the perception of community pharmacist  among the public needs to be assessed for effective role and further patient care. This questionnaire based study was aimed to identify the perception of patients towards the community pharmacist in north Malabar region of Kerala, India. The questionnaire consisted of 16 questions with sections evaluating the demographic details (age, sex, marital status, education level & occupation) and the perception of patients towards the community pharmacist. The results were prepared based upon the responses obtained from 110 patients. The study respondents consisted of 51 (46.36%) adults (18-59 years) and 59 (53.63%) geriatrics (above 60 years). Based on their education level, 9 (8.18%), 35 (31.81%) and 66 (60%) participants were illiterate, secondary school and graduate holders respectively. The respondents of the study informed that the pharmacist enquired about their past medication history (58, 52.73%), any allergic reactions (21, 19.1%) and use of any herbal medication (31, 28.18%) prior to the dispensing process. The patients also responded that proper advice regarding dosage (90%), side effects (25%), storage (12%), healthy eating & exercise (10%) were also provided by the concerned pharmacist. As a matter of fact, 91 out of 110 patients thought the pharmacist service were good, 17 thought they were fairly good and 2 were of the opinion that it was poor. The pharmacy rating was evaluated as good by 32 (29.09%), fairly good by 78 (70.90%) and no respondents were of opinion that the pharmacy was poor in its service. Through this study, we found that the overall perception of patients towards the pharmacist in concerned community pharmacy setting was good. To further improvise their role, continued pharmacy education programmes, better communication skills and good professional training must be imparted among the community pharmacists

Photocatalytic degradation of organic dyes using reduced graphene oxide (rGO)

Abstract Photocatalysts have developed into a successful strategy for degrading synthetic and organic toxins, such as chemicals and dyes, in wastewater. In this study, graphene oxide was reduced at different temperatures and used for degrading indigo carmine and neutral red dyes. The wide surface areas, strong adsorption sites, and oxygen functionalities of reduced graphene oxide (rGO) at 250 °C (rGO-250) produced more photocatalytic degradation efficiency and adsorption percentage. The catalyst dosage, initial dye concentration, solution pH and recyclability were all used to optimize the photocatalytic activity of rGO-250. This research presents a capable nano-adsorbent photocatalyst for the efficient degradation of organic dyes. GO and rGOs were also investigated for carbon dioxide (CO2) absorption properties. Results showed that rGO-250 has better CO2 adsorption properties than other rGOs. Overall, it was observed that rGO-250 has better photocatalytic and CO2 adsorption capabilities compared to graphene oxide reduced at different temperatures

Design and Development of Inexpensive Paper-Based Chemosensors for Detection of Divalent Copper

Abstract: Simple, portable, and low-cost paper-based sensors are alternative devices that have the potential to replace high-cost sensing technologies. The compatibility of the paper base biosensors for both chemical and biochemical accentuates its feasibility for application in clinical diagnosis, environmental monitoring, and food quality monitoring. High concentration of copper in blood serum and urine is associated with diseases like liver diseases, carcinomas, acute and chronic infections, rheumatoid arthritis, etc. Detection of copper concentration can give an early sign of Alzheimer disease. Apart from that genetic Wilson's disease can be detected by evaluating the concentration of copper in the urine. In view of the above advantages, a novel and the highly sensitive paper-based sensor has been designed for the selective detection of Cu2+ ions. The fast and highly sensitive chemiresistive multi-dye system sensor can detect Cu2+ ions selectively in as low as 2.23 ppm concentration. Least interference has been observed for counter ion in the detection of Cu2+. Copper chloride, nitrate, and acetate were used to validate the detection process. This assay provides a very high selectivity of Cu2+ ion over other metal cations such as Na+, Mg2+, Ca2+, etc. The easy preparation and high stability of dye solutions, easy functionalization of the paper-based sensors, high selectivity over other cations, low interference of counter anion, and significantly low detection limit of 2.23 ppm make it an effective Cu2+ ion sensor for real-time application in near future. Graphical Abstract: [Figure not available: see fulltext.].This work was supported by the Qatar National Research Fund (a member of Qatar Foundation) under UREP grants #UREP28-052-2-020