Your search keyword '"Tammam, Ahmed Abd-Eltawab"' showing total 6 results

1. Correction: Evaluation of CEP55, SERPINE1 and SMPD3 genes and proteins as diagnostic and prognostic biomarkers in gastric carcinoma in Egyptian patients

Author

Abdel-Tawab, Marwa Sayed, Fouad, Hanan, Ismaeel, Ahmed Yehia, Tammam, Ahmed Abd-Eltawab, Fahmy, Alzhraa M., Shaaban, Saeed, Abdel-Salam, Soha Mahmoud, and Elazeem, Naglaa Adly Abd

Published

2023

2. Targeting SIRT1, NLRP3 inflammasome, and Nrf2 signaling with chrysin alleviates the iron-triggered hepatotoxicity in rats

Author

Alanazi, Samyah T., Salama, Samir A., El-ebiary, Ahmed Magdy, Altowairqi, Abdulelah K., Alharthi, Atheer T., Alzahrani, Shahad M., Althagafi, Shomokh H., Alotaibi, Reema A., and Tammam, Ahmed Abd-Eltawab

Published

2024

3. Evaluation of CEP55, SERPINE1 and SMPD3 genes and proteins as diagnostic and prognostic biomarkers in gastric carcinoma in Egyptian patients

Author

Abdel-Tawab, Marwa Sayed, Fouad, Hanan, Yahiya, Ahmed, Tammam, Ahmed Abd-Eltawab, Fahmy, Alzhraa M., Shaaban, Saeed, Abdel-Salam, Soha Mahmoud, and Elazeem, Naglaa Adly Abd

Published

2022

4. Alterations in reproductive parameters and steroid biosynthesis induced by nickel oxide nanoparticles in male rats: The ameliorative effect of hesperidin

Author

Noshy, Peter A., Khalaf, Abdel Azeim A., Ibrahim, Marwa A., Mekkawy, Aya M., Abdelrahman, Rehab E., Farghali, Ahmed, Tammam, Ahmed Abd-Eltawab, and Zaki, Amr R.

Published

2022

5. Telmisartan versus metformin in downregulating myostatin gene expression and enhancing insulin sensitivity in the skeletal muscles of type 2 diabetic rat model .

Author

Tammam, Ahmed Abd-Eltawab, Rizg, Waleed Y., Boushra, Amy Fakhry, Alhelf, Maha, Alissa, Mohammed, Soliman, Ghada F., Ouais, Ghada Nady, Hosny, Khaled M., Alkhalidi, Hala M., and Elebiary, Ahmed Magdy

Subjects

INSULIN, TELMISARTAN, INSULIN sensitivity, MYOSTATIN, SKELETAL muscle, ANGIOTENSIN-receptor blockers, PANCREATIC beta cells

Abstract

Objective: Telmisartan is an angiotensin receptor blocker (ARB) that specifically blocks angiotensin II type-1 receptors (AT1R). Telmisartan has been proven to have antidiabetic effects via a variety of mechanisms, and it can be utilized in some diabetic patients due to its dual benefit for hypertensive patients with type 2 DM (T2DM) and when the other oral antidiabetic medications are intolerable or contraindicated. However, its precise underlying hypoglycemic mechanism is still obscure. Aim of work: We sought to establish a link between telmisartan administration and myostatin expression in skeletal muscles of T2DM rat model as a potential hypoglycemic mechanism of telmisartan. Materials and Methods: 32 male albino rats were included in the study; 8 rats served as controls (group I). T2DM was inducted in the other 24 rats, which were then randomly subdivided into 3 groups (8 in each): (group II) the Diabetic group and (groups III and IV) which were treated with either telmisartan (8 mg/kg/day) or metformin (250 mg/kg/day) respectively via oral gavage for a 4-week period. Results: Telmisartan administration resulted in a significant improvement in OGTT, HOMA-IR, glucose uptake, and muscle mass/body ratios in Telmisartan group as compared to Diabetic group (p < 0.05). Additionally, telmisartan induced a significant boost in adiponectin and IL-10 serum levels with a substantial drop in TNF-α and IL-6 levels in Telmisartan group compared to diabetic rats (p < 0.05). Moreover, telmisartan significantly boosted SOD and GSH, and decreased MDA levels in the skeletal muscles of telmisartan group. Furthermore, a significant downregulation of myostatin and upregulation of insulin receptor, IRS-1, and IRS 3 genes in the skeletal muscles of Telmisartan group were also detected. Histologically, telmisartan attenuated the morphological damage in the skeletal muscle fibers compared to diabetic rats, as evidenced by a considerable decrease in the collagen deposition area percentage and a reduction in NF-kB expression in the muscle tissues of group III. Conclusion: Telmisartan administration dramatically reduced myostatin and NF-kB expressions in skeletal muscles, which improved insulin resistance and glucose uptake in these muscles, highlighting a novel antidiabetic mechanism of telmisartan in treating T2DM. [ABSTRACT FROM AUTHOR]

Published

2023

6. Hesperidin protects rats' liver and kidney from oxidative damage and physiological disruption induced by nickel oxide nanoparticles.

Author

Tammam, Ahmed Abd-Eltawab, Khalaf, Abdel Azeim A., Zaki, Amr R., Khalifa, Mohamed Mansour, Ibrahim, Marwa A., Mekkawy, Aya M., Abdelrahman, Rehab E., Farghali, Ahmed, and Noshy, Peter A.

Subjects

NICKEL oxide, PROLIFERATING cell nuclear antigen, THERAPEUTIC use of lithium, HESPERIDIN, ELECTROCHROMIC devices, KIDNEYS

Abstract

Background: Nickel oxide nanoparticles (NiO-NPs) have recently been utilized in various advanced industrial fields like lithium-ion micro batteries, nanofibers, electrochromic devices, and several biomedical applications. NiO-NPs are classified as extremely toxic substances as they can cause long-term harm to the environment and aquatic life. Moreover, frequent and prolonged exposure can affect human and animal health, causing skin allergies and major toxic consequences, such as hepatorenal toxicity. Hesperidin (HSP) has been proven to possess anti-inflammatory, antioxidant, and free radical scavenging activities. Objective: This study aimed to investigate the underlying protective mechanisms and effects of HSP against NiO-NPs-induced hepatorenal toxicities in rats. Materials and Methods: Forty male Wistar rats were randomly divided into four groups (n = 10 in each). The first group served as a Control group. For 8 weeks, the second group was administered NiO-NPs (100mg/kg/day), and the third group was given HSP (100mg/kg/day) via oral gavage for both groups. The fourth group received NiO-NPs and HSP concurrently in the same oral daily doses and duration as the second and third groups. Results: NiO-NPs administration revealed a significant increase in plasma biomarkers of nephrotoxicity (urea, creatinine) and hepatotoxicity (ALT, AST) in NiO-NPs group compared to Control group (p < 0.05). In addition, NiO-NPs administration resulted in a substantial increase in malondialdehyde levels with a significant drop in catalase activity and GSH content in Group II. Also, a significant decreased expression of Nrf-2 and Bcl-2 mRNA levels and upregulation of TNF-α, NF-kβ and BAX in the liver and kidney of NiO-NPs group were also detected. Histologically, the liver and kidney of rats of NiO-NPs group showed significant histopathological disturbances, with a substantial increase in the proliferating cell nuclear antigen (PCNA) positive hepatocytes and renal tubular cells in the NiO-NPs group compared to Control and HSP groups (p < 0.05). In contrast, concomitant administration of HSP with NiO-NPs in group IV showed a significant biochemical, histopathological, and immunohistochemical improvement compared to NiO-NPs group. Conclusion: Co-administration of HSP with NiO-NPs significantly ameliorated most of the NiO-NPs-induced hepatorenal toxicities in male rats. [ABSTRACT FROM AUTHOR]

Published

2022