Kalyani Barve scite author profile

Background: The only conclusive way to diagnose Alzheimer’s is to carry out brain autopsy of the patient’s brain tissue and ascertain whether the subject had Alzheimer’s or any other form of dementia. However, due to nonfeasibility of such methods, to diagnose and conclude the conditions, medical practitioners use tests that examine patient’s mental ability. Objective: Accurate diagnosis at an early stage is the need of hour for initiation of therapy. The cause for most Alzheimer’s cases still remains unknown except where genetic distinctions have been observed. Thus, a standard drug regimen ensues in every Alzheimer’s patient, irrespective of the cause, which may not always be beneficial in halting or reversing the disease progression. To provide better life to such patients by suppressing existing symptoms, early diagnosis, curative therapy, site specific delivery of drugs and application of hyphenated methods like artificial intelligence need to be brought into main field of Alzheimer’s therapeutics. Methods: In this review, we have compiled existing hypotheses to explain the cause of the disease, and highlighted gene therapy, immunotherapy, peptidomimetics, metal chelators, probiotics and quantum dots as advancements in the existing strategies to manage Alzheimer’s. Conclusion: Biomarkers, brain-imaging, and theranostics along with artificial intelligence is understood to be the future of management of Alzheimer’s.

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Gut microbiome a promising target for management of respiratory diseases

Trivedi

Barve

2020

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The intestinal microbial flora has risen to be one of the important etiological factors in the development of diseases like colorectal cancer, obesity, diabetes, inflammatory bowel disease, anxiety and Parkinson's. The emergence of the association between bacterial flora and lungs led to the discovery of the gut–lung axis. Dysbiosis of several species of colonic bacteria such as Firmicutes and Bacteroidetes and transfer of these bacteria from gut to lungs via lymphatic and systemic circulation are associated with several respiratory diseases such as lung cancer, asthma, tuberculosis, cystic fibrosis, etc. Current therapies for dysbiosis include use of probiotics, prebiotics and synbiotics to restore the balance between various species of beneficial bacteria. Various approaches like nanotechnology and microencapsulation have been explored to increase the permeability and viability of probiotics in the body. The need of the day is comprehensive study of mechanisms behind dysbiosis, translocation of microbiota from gut to lung through various channels and new technology for evaluating treatment to correct this dysbiosis which in turn can be used to manage various respiratory diseases. Microfluidics and organ on chip model are emerging technologies that can satisfy these needs. This review gives an overview of colonic commensals in lung pathology and novel systems that help in alleviating symptoms of lung diseases. We have also hypothesized new models to help in understanding bacterial pathways involved in the gut–lung axis as well as act as a futuristic approach in finding treatment of respiratory diseases caused by dysbiosis.

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Current trends in theranostics for rheumatoid arthritis

Madav

Barve

Prabhakar

2020

European Journal of Pharmaceutical Sciences

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Herbal nano-formulations for topical delivery

Khogta

Patel

Barve

et al. 2020

Journal of Herbal Medicine

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Attenuation of isoproterenol-induced cardiotoxicity in rats by Narirutin rich fraction from grape fruit

2019

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Kalyani Barve

Recent Advancements in Pathogenesis, Diagnostics and Treatment of Alzheimer’s Disease

Gut microbiome a promising target for management of respiratory diseases

Current trends in theranostics for rheumatoid arthritis

Herbal nano-formulations for topical delivery

Attenuation of isoproterenol-induced cardiotoxicity in rats by Narirutin rich fraction from grape fruit

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