A Review on Alternative Methods to Experimental Animals in Biological Testing: Recent Advancement and Current Strategies.

With an increase in the progression of research and development in the medical field, the experimental use of animals for the efficacy and safety testing of pharmaceuticals is on rise. Every year, millions of animals are used for experimental testing during which these suffer from pain and are then eventually sacrificed. Besides bioethical issues, animal experimentation is associated with many disadvantages like high cost, the requirement of skilled manpower, approval, and is time-consuming. Therefore, attempts have been made by researchers to design and develop a number of alternative methods that could bypass animal experiments. These methods not only give accurate results but can also save lives of millions of animals annually. Research techniques, including computer and robotics together with molecular biology techniques, are applied to discover new methods to replace animal testing. Several alternative methods are discussed in this review. Some of these methods can predict the behavior of drugs accurately and are as reliable as in-vivo animal models. Furthermore, these alternative methods offer a variety of advantages over experimental animals. However, there is still a great need to discover and develop new, accurate, and reliable methods to replace experimental animals.

Silibinin and Naringenin against Bisphenol A-Induced Neurotoxicity in Zebrafish Model-Potential Flavonoid Molecules for New Drug Design, Development, and Therapy for Neurological Disorders.

Bisphenol A (BPA), a well-known xenoestrogen, is commonly utilised in the production of polycarbonate plastics. Based on the existing evidence, BPA is known to induce neurotoxicity and behavioural issues. Flavonoids such as silibinin and naringenin have been shown to have biological activity against a variety of illnesses. The current research evaluates the neuropharmacological effects of silibinin and naringenin in a zebrafish model against neurotoxicity and oxidative stress caused by Bisphenol A. In this study, a novel tank diving test (NTDT) and light−dark preference test (LDPT) were used in neurobehavioural investigations. The experimental protocol was planned to last 21 days. The neuroprotective effects of silibinin (10 µM) and naringenin (10 µM) in zebrafish (Danio rerio) induced by BPA (17.52 µM) were investigated. In the brine shrimp lethality assay, the 50% fatal concentrations (LC50) were 34.10 µg/mL (silibinin) and 91.33 µg/mL (naringenin) compared to the standard potassium dichromate (13.15 µg/mL). The acute toxicity investigation found no mortality or visible abnormalities in the silibinin- and naringenin-treated groups (LC50 > 100 mg/L). The altered scototaxis behaviour in LDPT caused by BPA was reversed by co-supplementation with silibinin and naringenin, as shown by decreases in the number of transitions to the light zone and the duration spent in the light zone. Our findings point to BPA's neurotoxic potential in causing altered scototaxis and bottom-dwelling behaviour in zebrafish, as well as the usage of silibinin and naringenin as potential neuroprotectants.

Etiopathophysiological role of the renin-angiotensin-aldosterone system in age-related muscular weakening: RAAS-independent beneficial role of ACE2 in muscle weakness.

Aging is accompanied by major changes in body composition that can negatively affect functional status in older adults, including a progressive decrease in muscle mass, strength, and quality. The prevalence of sarcopenia has varied considerably, depending on the definition used and the population surveyed-a 2014 meta-analysis across several countries found estimates ranging from 1% to 29% for people aged 60 years or older, who live independently. The potentially relevant studies were retrieved from the ScienceDirect/Medline/PubMed/Public library of science/Mendeley/Springer link and Google Scholar. Multiple keywords were used for the literature search both alone and in combination. Some of the important keywords used for literature search were as follows: "Epidemiology of muscle weakness/muscle disorders," "Pathogenesis of RAAS in muscle weakness," "Role of Angiotensin 1-7/ACE-2/Mas R axis in muscle weakness," and "Correction pathophysiology of muscle weakness via ACE2." The renin-angiotensin system (RAAS), a major blood pressure regulatory system, is a candidate mediator that may promote aging-associated muscle weakness. Previously, studies explored the proof concept for RAAS inhibition as a therapeutic target. Furthermore, in RAAS, angiotensin II, and angiotensin-converting enzyme 2 (ACE2) have been reported to induce endoplasmic reticulum (ER) stress via glucose-regulated protein 78/eukaryotic translation initiation factor 2α (eIF2α)/activating transcription factor 4 (ATF4)/CHOP axis in the liver. In addition, other mitochondria and ER physical interactions contribute to skeletal muscle dysfunction. However, very few studies have investigated the relationship between RAAS and ER stress-associated pathophysiological events and ACE2-mediated biological consequences in muscle weakness. Thus, the study has been designed to investigate the RAAS-independent beneficial role of ACE2 in muscle weakness.

Drug Targeting Approaches and Use of Drug Delivery Systems in Management of Cancer.

Mutations and their manifestations in the form of various diseases and disorders result in cancer which is a major cause of human death worldwide. A considerable amount of information is available at the cellular, molecular and genetic levels regarding the occurrence and spread of precarious cancer; yet, there is no cure. The traditional methods of treatment such as chemotherapy, radiotherapy and surgical intervention have shown to be moderately effective and to keep some types of cancer under control, but each modality has its own advantages and disadvantages. In recent years, more advanced methods such as targeted therapies, immunotherapy, and precision medicine are shown to be promising, and these fields continue to expand rapidly along with the conventional methods. This review focuses on the reports of advanced methods of treatment from a scientific standpoint to recognize many new and modern approaches. Selective targeting of the tumour cells by nanoparticle-based novel drug delivery approaches includes the latest innovations in their preparation strategies and applications. The concept of precision medicine and its impact on treatment are highlighted here with the hope of individualised therapy with minimum side effects as a part of ever-expanding treatment strategies. Additional challenges related to cancer treatment like multi-drug resistance and toxicity are also deliberated in brief. Based on the available reports and scientific evidence, better targeted approaches with better quality clinical outcomes and more precise drug delivery to fit individual treatment needs are anticipated in the near future to control this deadly disease.