Khamira Banafsha for the symptomatic treatment of Covid-19 Disease

Respiratory illness is one of the most important public health problems in many countries worldwide. Even though most of the ailments are treatable with normal care, respiratory-related mortality continues to increase year after year. The global situation is deteriorating as a result of the COVID-19 epidemic. Numerous Unani formulations are beneficial against a variety of respiratory disorders, but they must be clinically researched before they can obtain widespread acceptance in the modern world. At the moment, no antiviral medication is either available for each respiratory disease or is costly and not easy to use in pandemics like COVID-19 on large scale, although Unani medicines may be considered an option. Khamira Banafsha (KB) is a semi-solid blend of three dried flowers, Viola odorata L., Borago officinalis L., and Rosa damascena Mill and the distillate of Rosa damascena, and sugar. The components in this formulation are well-known and frequently utilized in the treatment of respiratory problems.The formulation has been used to treat a wide range of illnesses for decades. This review will discuss the pharmacology, ethnopharmacology, and repurposing of KB as an adjuvant or symptomatic treatment for Covid-19 illness.The chemical composition of the ingredients may be evaluated In-silico to identify their eligibility for Covid-19 disease symptomatic management. Bangladesh Journal of Medical Science Vol. 21 No. 04 October’22 Page : 883-892

Sustainable approaches for nickel removal from wastewater using bacterial biomass and nanocomposite adsorbents: A review

In this article, the nickel (Ni²⁺) ions removal from the wastewater is reviewed. Adsorption is widely used to remove Ni²⁺ ions from waters and wastewaters. The usage of biomass is becoming more common for Ni²⁺ ions removal, while the commercial activated carbon from different agriculture wastes is preferred as an adsorbent for Ni²⁺ ion removal. The present review aimed to organise the available information regarding sustainable approaches for Ni²⁺ ions removal from water and wastewaters. These include adsorption by nanoparticles, bacterial biomass, and activated carbon from agriculture wastes, since they are the most common used for the Ni²⁺ ions removal. The bacterial and agricultural waste adsorbents exhibited high efficiency with a renewable source of biomass for Ni²⁺ ion removal. The biosorption capacity of the Ni²⁺ ions by the bacterial biomass range from 5.7 to 556 mg/g, while ranging from 5.8 to 150 mg/g by the activated carbon from different organic materials. The biosorption capacity of the nanocomposite adsorbents might reach to 400 mg/g. It appeared that the elimination of nickel ions need a selective biomass adsorbent such as the tolerant bacterial cells biomass which acts as a store for Ni²⁺ ion accumulations as a results for the active and passive transportation of the Ni²⁺ ions through the bacterial cell membrane.

Fabrication of biochar-based hybrid Ag nanocomposite from algal biomass waste for toxic dye-laden wastewater treatment

Dual functional innovative approaches were developed to tackle the algal scum problem in water by utilizing the algal (Spirogyra sp.) biomass waste for organic dye-laden industrial wastewater treatment, a global problem, and challenge. Therefore, an algal biochar-based nanocomposite (nAgBC) was synthesized and employed as a low-cost adsorbent for Congo red (CR) removal. Surface morphology, physicochemical characteristics, elemental composition, phase, and stability of the nanocomposite was analyzed using BET, FESEM-EDX, FTIR, XRD, XPS, and TGA. The nanocomposite was found to be thermostable, mesoporous with large and heterogeneous surface area, containing nAg as doped material, where -OH, NH, CO, CC, SO, and CH are the surface binding active functional groups. Maximum adsorption efficiency of 95.92% (18 mg L^-1 CR) was achieved (qe = 34.53 mg g^-1) with 0.5 g L^-1 of nanocomposite after 60 min, at room temperature (300 K) at pH 6. Isotherm and kinetic model suggested multilayer chemisorption, where adsorption thermodynamics indicated spontaneous reaction. Fluorescens spectral analysis of CR confirmed the formation of CR supramolecule, supporting enhanced adsorption. Furthermore, the result suggested a 5th cycle reusability and considerable efficacy towards real textile industrial effluents. Synergistic effects of the active surface functional groups of the biochar and nAg, along with the overall surface charge of the composite lead to chemisorption, electrostatic attraction, H-bonding, and surface complexation with CR molecules. Thus, synthesized nAgBC can be applicable to mitigate the wastewater for cleaner production and environment.

A comprehensive review on the removal of noxious pollutants using carrageenan based advanced adsorbents

Rapid industrial development is associated with high discharge of toxic pollutants into the environment. The industries discharge their wastewater containing organic pollutants directly into the water system without treating them that has posed many serious threats to environmental protection. The use of bioadsorbents for the removal of such toxic pollutants from the waste water due to its simple synthesis, easy operation, effectiveness, and economic viability have emerged a new dimension in the wastewater treatment approaches. Various adsorbents have been prepared to examine their adsorption capacity against different adsorbates, but, to attain sustainability, biocompatibility, and biodegradation, bio-adsorbents have been found to won the battle. Seaweed derived polysaccharide; Carrageenan (CR) has been proven to be an excellent adsorbent for the wastewater treatment. It has been successfully modified with various components to form CR based-magnetic composites, hydrogels, nanoparticle modified CR composites and many others to enrich and diversify its properties. In this review, we have explained the adsorption behaviour of various carrageenan based adsorbents for the removal of different dyes. The influence of various parameters such as the effect of initial concentration, adsorbent dosage, contact time, pH, temperature, and ion concentration on dye adsorption is well explained. This paper also summarizes the structure, morphology, swelling ability, and thermal stability of carrageenan. The data also expounds on the adsorption capacity, kinetic model, isotherm model, and nature of the adsorption process. Different types of solvents are used for the regeneration and reusability of carrageenan adsorbents and their regeneration studies and desorption efficiency is well-explained. The adsorption mechanism of dyes onto carrageenan based adsorbents has been well described in this review. This review provides a deep insight about the use of carrageenan based adsorbents for the wastewater treatment.

Green approach and strategies for wastewater treatment using bioelectrochemical systems: A critical review of fundamental concepts, applications, mechanism, and future trends

Millions of litters of multifarious wastewater are directly disposed into the environment annually to reduce the processing costs leading to eutrophication and destroying the clean water sources. The bioelectrochemical systems (BESs) have recently received significant attention from researchers due to their ability to convert waste into energy and their high efficiency of wastewater treatment. However, most of the performed researches of the BESs have focused on energy generation, which created a literature gap on the utilization of BESs for wastewater treatment. The review highlights this gap from various aspects, including the BESs trends, fundamentals, applications, and mechanisms. A different review approach has followed in the present work using a bibliometric review (BR) which defined the literature gap of BESs publications in the degradation process section and linked the systematic review (SR) with it to prove and review the finding systematically. The degradation mechanisms of the BESs have been illustrated comprehensively in the current work, and various suggestions have been provided for supporting future studies and cooperation.

Nephroprotective effect of Apium graveolens L. against Cisplatin-induced nephrotoxicity

Background

Cisplatin is extensively used in treating cancers, and its primary side-effect is nephrotoxicity. It accumulates in proximal convoluted tubules where it promotes cellular damage by oxidative stress, apoptosis, and inflammation, etc. In Unani medicine, Tukhm-e-Karafs(Apium graveolens L.) (TK) is mentioned in the literature to manage various kidney ailments due to its diuretic and deobstruent activities.

Objective

To investigate the nephroprotective effects of powder of TK in Cisplatin-induced nephrotoxicity in an animal model and to validate the Unani claim of its nephroprotective action.

Material and methods

In curative protocol, cisplatin (5 mg/kg body weight i.p) was administered on day one and powder of TK (500 and 1000 mg/kg p.o.) from the sixth day onwards for ten days. TK (500 and 1000 mg/kg p.o.) was given for ten days and Cisplatin (5 mg/kg body weight i.p) on day 11 in the protective model. At the end of the study, all the animals were sacrificed, and renal biochemical parameters were determined. KIM-1 level was also investigated in the kidney homogenate in conjunction with histopathological inspection of kidney tissues.

Results

Significant increase in serum creatinine and BUN, presence of mononuclear cell infiltration, tubular dilation and vacuolation in renal histopathology, and increased KIM-1 level confirmed the nephrotoxicity due to Cisplatin. TK's administration protects the kidney as suggested by the changes in biochemical renal function, decreased level of KIM-1, and improvement in histopathological changes.

Conclusion

The result advocated that TK prevented renal injury and maintained normal renal function in both models. It may be due to improved clearance of Cisplatin from kidney tubules and reduction in reactive oxygen species (ROS) produced by the inflammatory response.

The position of intellectual capital among Saudi banks

All intangible assets and various human-centred and the intellectual property rights (IPR) of organizations are considered as Intellectual Capital (IC). It includes all nonmonetary and nonphysical resources that are fully or partially controlled by the organization and contribute to the organization`s value creation. Since conventional factors of production are increasingly being replaced by intellectual assets, IC is now being increasingly recognized as the most valuable resource, which can provide the required impetus to take on the competition. Through appropriate management of IC, it is possible to enhance the earning capability, sustain the value and help the achievement of organizational goals. Organisations that manage IC would acquire the required competitive advantage and superior business performance in the current volatile and uncertain market. This study was conducted to investigate the position of IC of Saudi banks. Empirical evidence exists to suggest that efficient utilization of IC can contribute towards the success of the banking industry. Objectives of the study included finding the value of IC of the Saudi banking industry and examine the performance of Islamic banks. Two regression models were used to achieve the objectives of the study. The models examined the relationships between Return on equity (ROE) and Return on total assets (ROA) and the aggregate measure of IC. It also examined the different components like Human capital efficiency (HCE), the Capital employed efficiency (CEE), and Structural capital efficiency (SCE). The present study has thus helped in presenting some interesting findings of the IC of Saudi banks. It was observed that Saudi banks are fairly efficient and has generated the required value from the component of Human capital (HC) than other capital elements. Drastic improvement was evident during recent years, reflecting the cues about the stability evident globally in the industry. Overall it can be concluded that Saudi banks, especially the Shariah-compliant ones, are efficient in generating value from its IC. A comparison between Saudi banks, as well as Islamic banks and those in other countries where banking operations are not done as per Shari’ah rules, is suggested as it is sure to bring in interesting results. Keywords: intellectual capital, structural capital, banking industry, Saudi Arabia.

Ultra-sensitive polyaniline–iron oxide nanocomposite room temperature flexible ammonia sensor

We report for the first time a room temperature smart NH₃sensor based on PAni–Fe₂O₃nanocomposite loading on flexible PET substrate byin situchemical oxidative polymerization method.

Electrochemical supercapacitor development based on electrodeposited nickel oxide film

A nickel oxide (NiO) electrode has been synthesized electrochemically, which is envisaged for supercapacitor application.