Publications
1. Hosen MJ, Eva SA, Rahman MM, Ibrahim M, Lira UF, Hossain AB, Shill MC, Uddin MJ. Health impacts of excessive use of Facebook among university students in Bangladesh. Heliyon. 2021 Jun 11;7(6): e07271. doi: 10.1016/j.heliyon. 2021.e07271. PMID: 34189314.
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2. Parvez MSA, Saha MK, Ibrahim M, Araf Y, Islam MT, Ohtsuki G, Hosen MJ. Insights from a computational analysis of the SARS-CoV-2 Omicron variant: Host-pathogen interaction, pathogenicity, and possible drug therapeutics. Immun Inflamm Dis. 2022 Jul;10(7): e639. doi: 10.1002/iid3.639. PMID: 35759231.
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3. Ibrahim M. Adil GM, Hosen MJ, Jahangir M. Detection of CK19 and CD44 genes in peripheral blood of different cancer patients by RT-qPCR. ICGNB 2022. p.72. (International conference paper).
Abstract
Excessive internet use can have a negative impact on the physical health of its users. The present study aims to understand possible health deteriorations from excessive use of Facebook in a cohort of university students of Bangladesh. The study was conducted on 1186 students from two public universities and 1472 from several private universities of Bangladesh using a comprehensive questionnaire. Students frequently use social media for news and social communication. About 50% of the students reported wasting time on Facebook and going to sleep late because of it. Importantly, 47.3%students reported that excessive use of Facebook results in sleeping disturbance and has a negative impact on the concentration of daily works/studies (p<0.001). In addition, they experienced several other health problems, including worsening eyesight (71.2%), headaches (15.4%), back and neck pain (28%). Although not statistically important, a fair number of students sought medical attention due to the daily excessive use of the internet (p-value¼0.112). These findings demand a better understanding of all possible impacts of using excessive internet among University students, which can help take the necessary initiatives to encourage good use of the internet. Further extension of this study is suggested at all education levels to reveal the full scenario of the degree of excessive internet use and its impact on the healths of Bangladeshi students.
Abstract
The study is undertaken to investigate whether CK19 and/or CD44 could help to detect CTCs and analyze the relative expression level in different cancer patient’s peripheral blood as their expression in circulating tumor cells (CTCs) of peripheral blood in cancer patients may be useful in screening, prognosis, and monitoring of treatment responses of cancer. Quantitative Reverse transcription PCR (RT-qPCR) has been performed from blood samples of several cancer patients like colorectum cancer, lung cancer, skin cancer, and cervix cancer as well as from normal healthy patient’s blood samples used as control. The expression of CK19 is found to be upregulated in metastatic lung, Lymph node cancer and non-metastatic colorectum cancer patients compared with healthy volunteers. Otherwise, CD44 is highly expressed in metastatic patients with Lung, lymph node, Soft tissue, and Skin cancer. CK19 and CD44 could be used as cancer biomarkers individually as well as marker combinations could be helpful to detect circulating tumor cells in peripheral blood by RT-qPCR. Further studies with more markers are needed that can improve specificity, accuracy and sensitivity to identify the existence of certain malignancies.
Keywords: Cancer biomarker, circulating tumor cells (CTCs), CK19, CD44
Detection of CK19 and CD44 genes in peripheral blood of different cancer patients by RT-qPCR
Abstract
Prominently accountable for the upsurge of COVID-19 cases as the world attempts to recover from the previous two waves, Omicron has further threatened the conventional therapeutic approaches. The lack of extensive research regarding Omicron has raised the need to establish correlations to understand this variant by structural comparisons. Here, we evaluate, correlate, and compare its genomic sequences through an immunoinformatic approach to understand its epidemiological characteristics and responses to existing drugs. We reconstructed the phylogenetic tree and compared the mutational spectrum. We analyzed the mutations that occurred in the Omicron variant and correlated how these mutations affect infectivity and pathogenicity. Then, we studied how mutations in the receptor-binding domain affect its interaction with host factors through molecular docking. Finally, we evaluated the drug efficacy against the main protease of the Omicron through molecular docking and validated the docking results with molecular dynamics simulation. Phylogenetic and mutational analysis revealed the Omicron variant is similar to the highly infectious B.1.620 variant, while mutations within the prominent proteins are hypothesized to alter its pathogenicity. Moreover, docking evaluations revealed significant differences in binding affinity with human receptors, angiotensin-converting enzyme 2 and NRP1. Surprisingly, most of the tested drugs were proven to be effective. Nirmatrelvir, 13b, and Lopinavir displayed increased effectiveness against Omicron. Omicron variant may be originated from the highly infectious B.1.620 variant, while it was less pathogenic due to the mutations in the prominent proteins. Nirmatrelvir, 13b, and Lopinavir would be the most effective, compared to other promising drugs that were proven effective.