Reyhaneh Rasizadeh scite author profile

IntroductionThe recent coronavirus (COVID-19) outbreak posed a global threat and quickly escalated to a pandemic. However, accurate information on potential relationships between SARS-CoV-2 shedding in body fluids, especially saliva, and white blood cell (WBC) count is limited. In the present study we investigated the potential correlation between alterations in blood cell counts and viral shedding in saliva in a cohort of COVID-19 patients.MethodIn this preliminary clinical research, 24 age-matched COVID-19 patients without comorbidities, 12 (50%) men and 12 (50%) women, were followed up for a period of 5 days to investigate whether changes in the level of viral shedding in saliva might parallel with temporal alterations in WBC count. Viral shedding in saliva was qualitatively measured by performing SARS-CoV-2 rapid antigen tests on patient saliva samples, using SARS-CoV-2 Rapid Antigen Test Kit (Roche, Basel, Switzerland). These patients were classified into two groups with sputum and non-sputum cough. WBCs counts including leukocyte (LYM), neutrophil (NEU), and LYM counts were recorded for each patient on days 1, 3, and 5.ResultsThe results of the present study showed that the levels of WBC, LYM, and NEU as well as erythrocyte sedimentation rate (ESR) increased significantly on the 5th day compared to the first day in both groups with sputum. However, the levels of C-reactive protein (CRP), Neutrophil-to-Lymphocyte Ratio (NLR) and lactate dehydrogenase (LDH) did not show significant changes.ConclusionThis study proves that investigating the change in the number of blood LYMs as well as laboratory parameters such as CRP, LDH, and ESR as biomarkers is an accurate indicator to detect the amount of viral shedding in people with sputum and non-sputum. The results of our study denote that the measured parameters exhibit the intensity of viral shedding in people with sputum.

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PBMC MicroRNAs: Promising Biomarkers for the Differential Diagnosis of COVID-19 Patients with Abnormal Coagulation Indices

Kasho

Nahand

Salmaninejad

et al. 2023

Curr Microbiol

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SARS-CoV-2-associated organs failure and inflammation: a focus on the role of cellular and viral microRNAs

Rasizadeh

Aghbash

Nahand

et al. 2023

Virol J

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SARS-CoV-2 has been responsible for the recent pandemic all over the world, which has caused many complications. One of the hallmarks of SARS-CoV-2 infection is an induced immune dysregulation, in some cases resulting in cytokine storm syndrome, acute respiratory distress syndrome and many organs such as lungs, brain, and heart that are affected during the SARS-CoV-2 infection. Several physiological parameters are altered as a result of infection and cytokine storm. Among them, microRNAs (miRNAs) might reflect this poor condition since they play a significant role in immune cellular performance including inflammatory responses. Both host and viral-encoded miRNAs are crucial for the successful infection of SARS-CoV-2. For instance, dysregulation of miRNAs that modulate multiple genes expressed in COVID-19 patients with comorbidities (e.g., type 2 diabetes, and cerebrovascular disorders) could affect the severity of the disease. Therefore, altered expression levels of circulating miRNAs might be helpful to diagnose this illness and forecast whether a COVID-19 patient could develop a severe state of the disease. Moreover, a number of miRNAs could inhibit the expression of proteins, such as ACE2, TMPRSS2, spike, and Nsp12, involved in the life cycle of SARS-CoV-2. Accordingly, miRNAs represent potential biomarkers and therapeutic targets for this devastating viral disease. In the current study, we investigated modifications in miRNA expression and their influence on COVID-19 disease recovery, which may be employed as a therapy strategy to minimize COVID-19-related disorders.

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Bacteriophages Against Pathogenic Bacteria: In Medicine and Agriculture

Baghi

Anaghez

Rasizadeh

et al. 2023

CBC

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Abstrat: One of the critical issues that humans worldwide are facing is bacterial infections. Antibiotics were developed as bactericidal agents to avoid the negative consequences of bacterial infections, and they were initially highly efficient against bacteria. However, by misusing these chemical antibiotics in this era, we face a phenomenon referred to as antibiotic resistance. In other words, bacteria began to acquire resistance to common antibiotics, and resistance means going back to a time before antibiotics. As it is a significant threat to human health and causes increased mortality, there is a rising demand for novel alternative therapies. An alternate method is to use bacteriophages (phages) as a therapeutic agent against bacterial infections in medicine and agriculture. Phages are viruses capable of infecting pathogenic bacteria, which can cause serious diseases. They have no effect on the human microbiota, and the majority of them only infect certain bacteria. Some research has been done on using phages as a treatment before, and more experiments today. For instance, eye infections caused by methicillin-resistant Staphylococcus aureus (MRSA) can be treated by eye drops containing appropriate phages. In this regard, significant progress has been made in the field of phage therapy. This review will discuss the current state of phage therapy, clinical breakthroughs, its superiorities and drawbacks, and the future perspectives of phage applications.

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