Your search keyword '"Alqurashi, Ghayda Ghazi"' showing total 3 results

1. Nanoplatform for the Delivery of Topotecan in the Cancer Milieu: An Appraisal of its Therapeutic Efficacy

Author

Alshammari, Mohammed Kanan, primary, Alghazwni, Mohammed Khalid, additional, Alharbi, Abrar Saleh, additional, Alqurashi, Ghayda Ghazi, additional, Kamal, Mehnaz, additional, Alnufaie, Salman Rahim, additional, Alshammari, Salem Sayer, additional, Alshehri, Bandar Ali, additional, Tayeb, Rami Hatem, additional, Bougeis, Rashad Jameel M., additional, Aljehani, Alaa Adel, additional, Alotaibi, Nawaf M., additional, Abida, Abida, additional, and Imran, Mohd., additional

Published

2022

2. Nanoplatform for the Delivery of Topotecan in the Cancer Milieu: An Appraisal of its Therapeutic Efficacy.

Author

Alshammari, Mohammed Kanan, Alghazwni, Mohammed Khalid, Alharbi, Abrar Saleh, Alqurashi, Ghayda Ghazi, Kamal, Mehnaz, Alnufaie, Salman Rahim, Alshammari, Salem Sayer, Alshehri, Bandar Ali, Tayeb, Rami Hatem, Bougeis, Rashad Jameel M., Aljehani, Alaa Adel, Alotaibi, Nawaf M., Abida, Abida, and Imran, Mohd.

Subjects

DRUG delivery systems, DRUG efficacy, TOPOTECAN, DNA, OVARIAN tumors, BIOAVAILABILITY, CANCER chemotherapy, SMALL cell carcinoma, LUNG tumors, CELL cycle, TUMORS, MOLECULAR structure, CERVIX uteri tumors, PHARMACEUTICAL chemistry, NANOPARTICLES, BREAST tumors

Abstract

Simple Summary: Nanotechnology has been implemented in healthcare more and more over the past few decades, particularly in applications for more efficacious and safer targeted delivery, detection, and therapy. Topotecan-loaded nanocarrier systems have shown superior pharmacokinetics, biocompatibility, tumor-targeting ability, and stability compared to topotecan in its native form. Additionally, they play a key role in reducing systemic toxicity and battling drug resistance. These advantages enable the widespread use of nano-based systems in various applications. This article explores nanoenabled active and passive targeting strategies and combinatorial therapy employing topotecan to ameliorate various cancers, along with a glimpse of the clinical studies utilizing the said molecule. Chemotherapy has been the predominant treatment modality for cancer patients, but its overall performance is still modest. Difficulty in penetration of tumor tissues, a toxic profile in high doses, multidrug resistance in an array of tumor types, and the differential architecture of tumor cells as they grow are some of the bottlenecks associated with the clinical usage of chemotherapeutics. Recent advances in tumor biology understanding and the emergence of novel targeted drug delivery tools leveraging various nanosystems offer hope for developing effective cancer treatments. Topotecan is a topoisomerase I inhibitor that stabilizes the transient TOPO I-DNA cleavable complex, leading to single-stranded breaks in DNA. Due to its novel mechanism of action, TOPO is reported to be active against various carcinomas, namely small cell lung cancer, cervical cancer, breast cancer, and ovarian cancer. Issues of cross-resistance with numerous drugs, rapid conversion to its inactive form in biological systems, appended adverse effects, and higher water solubility limit its therapeutic efficacy in clinical settings. Topotecan nanoformulations offer several benefits for enhancing the therapeutic action of this significant class of chemotherapeutics. The likelihood that the target cancer cells will be exposed to the chemotherapeutic drug while in the drug-sensitive s-phase is increased due to the slow and sustained release of the chemotherapeutic, which could provide for a sustained duration of exposure of the target cancer cells to the bioavailable drug and result in the desired therapeutic outcome. This article explores nanoenabled active and passive targeting strategies and combinatorial therapy employing topotecan to ameliorate various cancers, along with a glimpse of the clinical studies utilizing the said molecule. [ABSTRACT FROM AUTHOR]

Published

2023

3. OSTEOPOROSIS, OSTEOPENIA AND OSTEOMALACIA

Author

Majed Alshehri , Yousef Ehab Jan 2 , Abdulrahman Ghazi Alqurashi , Ghayda ghazi Alqurashi , Esraa Jamel A Subahi , Reham Abdulrahman Abdulhai Abdullah , Areej Yousef A Kateb , Anas Tariq katib , Moudi Dkelallah Fahad Aloutebi , Bariah Yahya Drain , Ferras Fouad Sarouji

Subjects

musculoskeletal diseases

Abstract

Osteomalacia, osteopenia, and osteoporosis are distinct bone diseases each with characteristic pathogenesis, risk factors, and aetiologies. Osteomalacia is a disease of defective bone mineralization of osteoid and impaired remodelling at sites of bone turnover. It occurs chiefly due to vitamin D deficiency, inadequate serum and extracellular levels of essential minerals for bone growth (particularly calcium and phosphate), alteration in pH (such as in renal tubular acidosis, chronic kidney disease, and metabolic acidosis), or administration of direct mineralization inhibitors such as etidronate, aluminium, or fluorides. Osteoporosis is characterized by reduced bone mass either due to decreased remodelling or excessive resorption. The main pathogenesis of osteoporosis is defective development of normal bone density due to reduction of the sex hormone influence on bone development. The main causes of osteoporosis are hypogonadism, androgen insensitivity syndromes, and delayed puberty. Other risk factors include excessive alcohol consumption, heavy smoking, low body mass index, low levels of physical activity, vitamin D deficiency, hypercalciuria, diabetes mellitus, cerebrovascular stroke, history of bone fractures, hemochromatosis, anorexia nervosa, growth hormone deficiency, chronic steroid use, and antiepileptic drugs (e.g. phenytoin). Osteopenia is considered a precursor to osteoporosis or a less severe form of osteoporosis. It has almost the same pathogenesis, aetiology, and risk factors of osteoporosis. This article will address the differences between osteomalacia, osteoporosis, and osteopenia as regards the pathogenesis, risk factors, and causes. Keywords: Osteomalacia, osteopenia, osteoporosis.

Published

2019