An Insight into the Pathogenesis of Diabetic Cardiomyopathy Along with the Novel Potential Therapeutic Approaches.

BACKGROUND: The existence of aberrant myocardial activity and function in the exclusion of those other cardiovascular events, such as atherosclerosis, hypertension, and severe valve disease, is known as diabetic cardiomyopathy. Diabetes patients are much more prone to death from cardiovascular illnesses than from any other cause, and they also have a 2-5 fold higher likelihood of acquiring cardiac failure and other complications. OBJECTIVE: In this review, the pathophysiology of diabetic cardiomyopathy is discussed, with an emphasis on the molecular and cellular irregularities that arise as the condition progresses, as well as existing and prospective future treatments. METHOD: The literature for this topic was researched utilizing Google Scholar as a search engine. Before compiling the review article, several research and review publications from various publishers, including Bentham Science, Nature, Frontiers, and Elsevier, were investigated. RESULT: The abnormal cardiac remodelling, marked by left ventricular concentric thickening and interstitial fibrosis contributing to diastolic impairment, is mediated by hyperglycemia, and insulin sensitivity. The pathophysiology of diabetic cardiomyopathy has been linked to altered biochemical parameters, decreased calcium regulation and energy production, enhanced oxidative damage and inflammation, and a build-up of advanced glycation end products. CONCLUSION: Antihyperglycemic medications are essential for managing diabetes because they successfully lower microvascular problems. GLP-1 receptor agonists and sodium-glucose cotransporter 2 inhibitors have now been proven to benefit heart health by having a direct impact on the cardiomyocyte. To cure and avoid diabetic cardiomyopathy new medicines are being researched, including miRNA and stem cell therapies.

Recent Progress in the Understanding and Management of Acute Mountain Sickness: A Narrative Review.

BACKGROUND: Individuals at higher altitudes may experience a decrease in blood oxygen levels, which can result in a variety of clinical illnesses, such as high-altitude pulmonary edema, high-altitude cerebral edema, and milder but more common acute mountain sickness (AMS). OBJECTIVE: This study aims to review the current state of knowledge related to motion sickness, the risk of AMS, and pharmacological and non-pharmacological treatments for AMS. METHODS: Several databases, including PubMed, Bentham Science, Elsevier, Springer, and Research Gate, were used to compile the data for the article following a thorough analysis of the various research findings connected to acute mountain sickness and motion sickness, along with treatments and prevention. RESULTS: This article covers the research on mountain sickness as well as every imaginable form of conventional and alternative medicine. It contains ten medicinal plants that are useful in treating mountain sickness and various other remedies. Additionally, case studies are provided. CONCLUSION: Therefore, the information in the paper will help travel medicine specialists better personalize their appropriate care for patients who travel to high-altitude locations. Additionally, all available antiemetic medications, serotonin agonists, nonsteroidal anti-inflammatory drugs, and herbal treatments for motion sickness were discussed. The prevention and consequences of acute mountain sickness are also covered in this study.

Role of Nutraceuticals and Physical Activity in Parkinson's Disease Risk and Lifestyle Management.

BACKGROUND: Parkinson's disease is a complicated, gradually progressive neurological illness characterized by locomotor and non-motor symptomatology that impedes daily activities. Despite significant advances in symptomatic therapies with various extents of negative effects, there are currently no disease-modifying medicinal alternatives. Symptoms worsen, creating an additional strain that reduces living quality and creates the perception that prescription drugs are no longer productive. OBJECTIVE: Adopting healthy lifestyle habits can help patients feel more empowered, promote wellness, relieve symptoms, and potentially slow neurodegeneration. Nutrition, intellectual stimulation, physical exercise, and stress reduction are all examples of lifestyle habits that improve cognitive health and life satisfaction. We discuss how changes in lifestyle, nutrition, yoga, exercise, and acupuncture can help with managing the disease's symptoms. METHODS: We searched Google Scholar for various research papers and review articles from publishers, such as Bentham Science, Elsevier, Taylor and Francis, Springer Nature, and others for gathering the data for the study. RESULTS: Pesticide exposure, environmental hazards, dietary choices, stress, and anxiety all have an indirect or immediate influence on the commencement of Parkinson's disease. Naturopathic remedies, such as nutraceuticals, yoga, exercise, and acupuncture, have been shown to help with Parkinson's disease management. CONCLUSION: Various preclinical and clinical studies have shown that the various factors mentioned are beneficial in the management of the disease, but more research is needed to validate the extent to which such factors are beneficial.

Retinoblastoma: A review of the molecular basis of tumor development and its clinical correlation in shaping future targeted treatment strategies.

Retinoblastoma is a retinal cancer that affects children and is the most prevalent intraocular tumor worldwide. Despite tremendous breakthroughs in our understanding of the fundamental mechanisms that regulate progression of retinoblastoma, the development of targeted therapeutics for retinoblastoma has lagged. Our review highlights the current developments in the genetic, epigenetic, transcriptomic, and proteomic landscapes of retinoblastoma. We also discuss their clinical relevance and potential implications for future therapeutic development, with the aim to create a frontline multimodal therapy for retinoblastoma.

Treatment of Parkinson's Disease: Current Treatments and Recent Therapeutic Developments.

BACKGROUND: Parkinson's disease (PD) is a neurodegenerative syndrome defined by a variety of motor, cognitive, and psychomotor dysfunctions. The current pharmaceutical treatment focuses on treating the condition's symptoms. They are primarily concerned with reducing illness symptoms or avoiding dopamine metabolism. As our understanding of disease pathogenesis improves, new therapeutic approaches emerge. OBJECTIVE: This article aims to describe the standard Parkinson's medications based on symptoms and requirements. It emphasizes recent advancements in symptomatic therapy for motor indications and achievements in the research and clinical testing of medicines that promise to enable disease modification in patients with already-manifest PD. METHODS: Information for this paper was found by looking through Google Scholar and reading several research and review articles from Bentham Science, Science Direct, Elsevier, Frontiers, Taylor & Francis, and other publishers. RESULT: Parkinson's disease therapeutic interventions are now limited to symptomatic therapy, mostly in dopaminergic medications and deep brain stimulation (DBS). They have the potential to deliver great therapeutic progress, yet they can also have serious drawbacks that decrease a patient's quality of life. The progress of pluripotent stem cell therapies and genome engineering procedures has sparked renewed hope for the treatment of a wide range of human illnesses, particularly genetic abnormalities. CONCLUSION: The current Parkinson's therapy trends are successful and continually evolving, with several drugs currently undergoing clinical trials. As these new therapies constantly coming out and can be used together, they will likely change how Parkinson's disease is treated in the coming years.

Aortic stenosis: a review on acquired pathogenesis and ominous combination with diabetes mellitus.

BACKGROUND: Aortic stenosis (AS) is a progressive disease, with no pharmacological treatment. The prevalence of diabetes mellitus (DM) among AS patients is higher than in the general population. DM significantly increases the risk of AS development and progression from mild to severe. The interplay between AS and DM's mechanism is not entirely known yet. MAIN BODY: The increased accumulation of advanced glycation end products (AGEs) was linked to increased valvular oxidative stress, inflammation, expression of coagulation factors, and signs of calcification, according to an analysis of aortic stenotic valves. It is interesting to note that in diabetic AS patients, valvular inflammation did not correlate with serum glucose levels but rather only with long-term glycemic management markers like glycated haemoglobin and fructosamine. Transcatheter aortic valve replacement, which has been shown to be safer than surgical aortic valve replacement, is advantageous for AS patients who also have concurrent diabetes. Additionally, novel anti-diabetic medications have been proposed to lower the risk of AS development in DM patients, including sodium-glucose cotransporter-2 inhibitors and glucagon-like peptide-1 receptor agonist that target reduction of AGEs-mediated oxidative stress. CONCLUSIONS: There are little data on the effects of hyperglycemia on valvular calcification, but understanding the interactions between them is essential to develop a successful treatment strategy to stop or at least slow the progression of AS in DM patients. There is a link among AS and DM and that DM negatively impacts the quality of life and longevity of AS patients. The sole successful treatment, despite ongoing efforts to find new therapeutic modalities, involves aortic valve replacement. More research is required to find methods that can slow the advancement of these conditions, enhancing the prognosis and course of people with AS and DM.

An innovative approach of bioremediation in enzymatic degradation of xenobiotics.

Worldwide, environmental pollution due to a complex mixture of xenobiotics has become a serious concern. Several xenobiotic compounds cause environmental contamination due to their severe toxicity, prolonged exposure, and limited biodegradability. From the past few decades, microbial-assisted degradation (bioremediation) of xenobiotic pollutants has evolved as the most effective, eco-friendly, and valuable approach. Microorganisms have unique metabolism, the capability of genetic modification, diversity of enzymes, and various degradation pathways necessary for the bioremediation process. Microbial xenobiotic degradation is effective but a slow process that limits its application in bioremediation. However, the study of microbial enzymes for bioremediation is gaining global importance. Microbial enzymes have a huge ability to transform contaminants into non-toxic forms and thereby reduce environmental pollution. Recently, various advanced techniques, including metagenomics, proteomics, transcriptomics, metabolomics are effectively utilized for the characterization, metabolic machinery, new proteins, metabolic genes of microorganisms involved in the degradation process. These advanced molecular techniques provide a thorough understanding of the structural and functional aspects of complex microorganisms. This review gives a brief note on xenobiotics and their impact on the environment. Particular attention will be devoted to the class of pollutants and the enzymes such as cytochrome P450, dehydrogenase, laccase, hydrolase, protease, lipase, etc. capable of converting these pollutants into innocuous products. This review attempts to deliver knowledge on the role of various enzymes in the biodegradation of xenobiotic pollutants, along with the use of advanced technologies like recombinant DNA technology and Omics approaches to make the process more robust and effective.