Anjuman Ara Mimi scite author profile

In the last two decades, considerable interest has been shown in understanding the development of the gut microbiota and its internal and external effects on the intestine, as well as the risk factors for cardiovascular diseases (CVDs) such as metabolic syndrome. The intestinal microbiota plays a pivotal role in human health and disease. Recent studies revealed that the gut microbiota can affect the host body. CVDs are a leading cause of morbidity and mortality, and patients favor death over chronic kidney disease. For the function of gut microbiota in the host, molecules have to penetrate the intestinal epithelium or the surface cells of the host. Gut microbiota can utilize trimethylamine, N-oxide, short-chain fatty acids, and primary and secondary bile acid pathways. By affecting these living cells, the gut microbiota can cause heart failure, atherosclerosis, hypertension, myocardial fibrosis, myocardial infarction, and coronary artery disease. Previous studies of the gut microbiota and its relation to stroke pathogenesis and its consequences can provide new therapeutic prospects. This review highlights the interplay between the microbiota and its metabolites and addresses related interventions for the treatment of CVDs.

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Role of Gut Microbiome in Autism Spectrum Disorder and Its Therapeutic Regulation

Taniya

Chung

Mamun

et al. 2022

Front. Cell. Infect. Microbiol.

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Autism spectrum disorder (ASD) is a neurological disorder that affects normal brain development. The recent finding of the microbiota–gut–brain axis indicates the bidirectional connection between our gut and brain, demonstrating that gut microbiota can influence many neurological disorders such as autism. Most autistic patients suffer from gastrointestinal (GI) symptoms. Many studies have shown that early colonization, mode of delivery, and antibiotic usage significantly affect the gut microbiome and the onset of autism. Microbial fermentation of plant-based fiber can produce different types of short-chain fatty acid (SCFA) that may have a beneficial or detrimental effect on the gut and neurological development of autistic patients. Several comprehensive studies of the gut microbiome and microbiota–gut–brain axis help to understand the mechanism that leads to the onset of neurological disorders and find possible treatments for autism. This review integrates the findings of recent years on the gut microbiota and ASD association, mainly focusing on the characterization of specific microbiota that leads to ASD and addressing potential therapeutic interventions to restore a healthy balance of gut microbiome composition that can treat autism-associated symptoms.

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Role of pyroptosis in cancer and its therapeutic regulation

Mamun

Mimi

Aziz

et al. 2021

European Journal of Pharmacology

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Pyroptosis in diabetic nephropathy

Mamun

Mimi

et al. 2021

Clinica Chimica Acta

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Role of pyroptosis in diabetic retinopathy and its therapeutic implications

Mamun

Mimi

Zaeem

et al. 2021

European Journal of Pharmacology

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Anjuman Ara Mimi

The Gut Microbiota (Microbiome) in Cardiovascular Disease and Its Therapeutic Regulation

Role of Gut Microbiome in Autism Spectrum Disorder and Its Therapeutic Regulation

Role of pyroptosis in cancer and its therapeutic regulation

Pyroptosis in diabetic nephropathy

Role of pyroptosis in diabetic retinopathy and its therapeutic implications

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