Posterity of nanoscience as lipid nanosystems for Alzheimer's disease regression.

Alzheimer's disease (AD) is a type of dementia that affects a vast number of people around the world, causing a great deal of misery and death. Evidence reveals a relationship between the presence of soluble Aß peptide aggregates and the severity of dementia in Alzheimer's patients. The BBB (Blood Brain Barrier) is a key problem in Alzheimer's disease because it prevents therapeutics from reaching the desired places. To address the issue, lipid nanosystems have been employed to deliver therapeutic chemicals for anti-AD therapy in a precise and targeted manner. The applicability and clinical significance of lipid nanosystems to deliver therapeutic chemicals (Galantamine, Nicotinamide, Quercetin, Resveratrol, Curcumin, HUPA, Rapamycin, and Ibuprofen) for anti-AD therapy will be discussed in this review. Furthermore, the clinical implications of the aforementioned therapeutic compounds for anti-AD treatment have been examined. Thus, this review will pave the way for researchers to fashion therodiagnostics approaches based on nanomedicine to overcome the problems of delivering therapeutic molecules across the blood brain barrier (BBB).

Atmospheric microplastic and nanoplastic: The toxicological paradigm on the cellular system.

The increasing demand for plastic in our daily lives has led to global plastic pollution. The improper disposal of plastic has resulted in a massive amount of atmospheric microplastics (MPs), which has further resulted in the production of atmospheric nanoplastics (NPs). Because of its intimate relationship with the environment and human health, microplastic and nanoplastic contamination is becoming a problem. Because microplastics and nanoplastics are microscopic and light, they may penetrate deep into the human lungs. Despite several studies demonstrating the abundance of microplastics and nanoplastics in the air, the potential risks of atmospheric microplastics and nanoplastics remain unknown. Because of its small size, atmospheric nanoplastic characterization has presented significant challenges. This paper describes sampling and characterization procedures for atmospheric microplastics and nanoplastics. This study also examines the numerous harmful effects of plastic particles on human health and other species. There is a significant void in research on the toxicity of airborne microplastics and nanoplastics upon inhalation, which has significant toxicological potential in the future. Further study is needed to determine the influence of microplastic and nanoplastic on pulmonary diseases.

Impact of COVID-19 on Brain and Psychological Health, its Possible Mechanisms, and Coping Strategies.

COVID-19 pandemic has been depicted to possess a robust association with psychological disorders. SARS-CoV-2 is the most recent virus of the coronavirus family and has the potential to bind the angiotensin-converting enzyme (ACE) receptor. The receptor is mainly present peripherally and to some extent in the brain. Different psychological and neurodegenerative disorders can arise due to the peripheral origin of destruction. These triggers could be inflammatory pathways releasing pro-inflammatory cytokines reaching the brain and causing neuroinflammation. In continuation with traditional viruses, SARS-CoV-2 too might lead to brain diseases like meningitis, encephalitis, etc. Besides, several peripheral hormonal changes like cortisol can influence neurochemical alterations, thereby inflicting mood-related activities and psychological phenomena. In this regard, health care workers, frontline line warriors and relatives of COVID-19 patients can be the secondary victims; however, patients with COVID-19 remain the primary ones prone to neurological health problems. Several strategies like socialization, engagement, physical activity, etc., are well-opted measures to get relief from and check psychiatric disturbances. The worth of this review can be attributed to the understanding of brain-related mechanisms of COVID-19 in the context of its mechanism of action to create the pathology pertaining to brain disorder, precisely psychological devastation. Likewise, its epidemiological relevance has concisely been mentioned. Furthermore, different categories and classes of people prone to psychological deterioration are briefly elaborated on. Lastly, some coping strategies and approaches have been discussed to minimize or combat mental health problems.

The translational paradigm of nanobiomaterials: Biological chemistry to modern applications.

Recently nanotechnology has evolved as one of the most revolutionary technologies in the world. It has now become a multi-trillion-dollar business that covers the production of physical, chemical, and biological systems at scales ranging from atomic and molecular levels to a wide range of industrial applications, such as electronics, medicine, and cosmetics. Nanobiomaterials synthesis are promising approaches produced from various biological elements be it plants, bacteria, peptides, nucleic acids, etc. Owing to the better biocompatibility and biological approach of synthesis, they have gained immense attention in the biomedical field. Moreover, due to their scaled-down sized property, nanobiomaterials exhibit remarkable features which make them the potential candidate for different domains of tissue engineering, materials science, pharmacology, biosensors, etc. Miscellaneous characterization techniques have been utilized for the characterization of nanobiomaterials. Currently, the commercial transition of nanotechnology from the research level to the industrial level in the form of nano-scaffolds, implants, and biosensors is stimulating the whole biomedical field starting from bio-mimetic nacres to 3D printing, multiple nanofibers like silk fibers functionalizing as drug delivery systems and in cancer therapy. The contribution of single quantum dot nanoparticles in biological tagging typically in the discipline of genomics and proteomics is noteworthy. This review focuses on the diverse emerging applications of Nanobiomaterials and their mechanistic advancements owing to their physiochemical properties leading to the growth of industries on different biomedical measures. Alongside the implementation of such nanobiomaterials in several drug and gene delivery approaches, optical coding, photodynamic cancer therapy, and vapor sensing have been elaborately discussed in this review. Different parameters based on current challenges and future perspectives are also discussed here.