Issue 4 - Volume 1
Oct 2024
Computational Studies of the Active Metabolite of Triflusal Molecular Orbitals and Spectroscopic Features; The Basis for Triflusal Phototoxicity Mechanism
Klefah A. K. Musa1 (Department of Medicinal Chemistry, Pharmacy College, El-Mergib University, Al-Khoms, Libya) klefah.musa@gmail.com
Lutfi M Bakar (Department of Life Sciences. School of Basic Sciences. Libyan Academy for Postgraduate Studies) klefah.musa@gmail.com
Compliance of Libyan Government Websites with Web Content Accessibility Guidelines Standards
Musa Faneer (Libyan Academy for Postgraduate Studies) musa.faneer@academy.edu.ly
Abdurraouf A Elbibas (General Information Authority, Libya) musa.faneer@academy.edu.ly
A cross-sectional study about Anaestheticdrugs complication in patients with chronic kidney diseases in Tripoli. Libya
Aisha Ashammam (Higher Institute of Science and Medical Technology, Pharmacy Department, Tripoli/Abusalim) Omaroaburas@gmail.com
Emhamed Boras (Department of Life Sciences. School of Basic Sciences. Libyan Academy for Postgraduate Studies) Omaroaburas@gmail.com
Omro A. Aburas (Higher Institute of Science and Medical Technology, Pharmacy Department, Tripoli/Abusalim) Omaroaburas@gmail.com
A one dimensional coordination polymer: poly{[[(u-dcpdaa-K4-O1:O2:O3:O4)(MeOH)2 Copper(II)]bis[(aquo)(dcpdaa-K4-O1:O2:O3:N1)Copper(II)]] dihydrate}
Hoyda R. Refai (Chemistry Department, Faculty of Science, University of Tripoli) Elmahdawi@yahoo.com
Ramadan G. Abuhmaiera (Chemistry Department, Faculty of Science, University of Tripoli) Elmahdawi@yahoo.com
Fathia A. Treish (Chemistry Department, Faculty of Science, University of Tripoli) Elmahdawi@yahoo.com
Ramadan Elmehdawi (Chemistry Department, Faculty of Science, University of Tripoli) Elmahdawi@yahoo.com
Synthesis and Characterization of Cobalt and Copper Nanoparticles by Amino Acid.
A quantitative study of the synthesis and characterization of copper oxide, cobalt oxide nanoparticles and their mixtures has been considered. With special emphasis on the hydrothermal synthesis in organic media of glutamic acid.
The aim of the work is to initiate a new line of research on the synthesis and characterization of these particles and is to develop high-quality nanoparticles for use in more important applications. It has been characterized using several techniques such as Fourier Transform Infrared spectroscopy (FT-IR), Energy Dispersive X-ray EDX, Scanning Electron Microscopy (SEM), X-ray diffraction (XRD), Thermogravimetric analysis (TGA), and Diffuse reflectance UV-Vis analysis.
The results of these devices indicated the formation of copper oxide nanoparticles with highly purified crystalline nanostructures, as well as very minimal incorporation of cobalt into the formulation. Thermal gravimetric analysis (TGA) confirmed their thermal stability, while ultraviolet radiation (UV-Vis) showed that some samples are insulators and others are semiconductors.
Abdussallam N. Eldewik (Department of Chemistry, The Libyan Academy for Postgraduate Studies) lion4040400@gmail.com
Huda. M. Al-Ashkham (Department of Chemistry, The Libyan Academy for Postgraduate Studies) lion4040400@gmail.com
Synthesis and Characterization of Iron, Titanium and their Mixture with Benzene-1,3,5-Tricarboxylic Acid Framework
Metal-organic frameworks (MOFs, also known as coordination polymers), are a new class of crystalline porous materials that consist of metal centers and/or metal clusters connected by organic linkers.
This project is concerned with the synthesizing and characterization of mixed-metal metal-organic frameworks (MM-MOFs) of 1,3,5-Tri-Carboxylic Acid Benzene (BTC), M-Fe-BTC, where M = Ti+3, by using the Solvothermal method. The MM-MOFs' powder X-ray diffraction patterns were similar to those of MIL (100). The results of scanning electron microscopy show that most of them are nanomaterials. The six samples had varying amounts of iron and titanium, according to the EDX results. The FT-IR results support the XRD outcomes. Thermal analysis demonstrates multiple stages of decomposition, and the materials show thermal stability up to 450 °C. UV-Vis Diffuse Reflectance confirmed that all samples, with the exception of sample No. 1 (insulator), are semiconductors.
Abdussallam N. Eldewik (Department of Chemistry, The Libyan Academy for Postgraduate Studies) safaflaifel7@gmail.com
Safa. A. Flaifel (Department of Chemistry, The Libyan Academy for Postgraduate Studies) safaflaifel7@gmail.com
The cross-link between maternal HbA1c and neonatal outcome: A Clinical Case Report
Introduction: Diabetes is a common condition among pregnant women, and a high glycated hemoglobin (HbA1c) level can indicate poor outcomes for both the mother and the fetus. This report presents a case of an unknown diabetic primigravida with a significantly elevated HbA1c level, which resulted in severe complications during pregnancy and adverse fetal outcomes.
Case Study: A 37-year-old primigravida was referred to the emergency obstetrics and gynecology clinic, where she reported a notable decrease in fetal movements and feelings of lethargy. Laboratory tests revealed a significantly elevated blood sugar level. After assessing fetal well-being, the decision was made to terminate the pregnancy at 33 weeks and 2 days due to severe fetal distress. Immediate treatment was initiated to control the high blood sugar levels. The outcome was the delivery of a preterm boy who presented with multiple biochemical imbalances and required admission to the neonatal intensive care unit (NICU).
Conclusion: Improving hyperglycemia and glycated hemoglobin levels to lower than the upper normal limits during both the preconception and post-conception phases can significantly reduce morbidity and mortality for mothers and their fetuses.
Bahaedin M. Ben-Mahmud (1. Medical Science School, Libyan Academy, Tripoli-Libya) bahaedin.benmahmud@gmail.com
Fatma Ibrahem Alaribi (2. Department of Gynaecology and Obstetrics in Ali Omar Askar Hospital, Sabia, Tripoli- Libya) bahaedin.benmahmud@gmail.com