Tawfik, M. A., M. M. Eltaweel, A. M. Fatouh, H. A. Shamsel-Din, and ahmed b ibrahim,
"Brain targeting of zolmitriptan via transdermal terpesomes: statistical optimization and in vivo biodistribution study by 99mTc radiolabeling technique",
Drug Delivery and Translational Research, vol. 13, issue 12, pp. 3059-3076, 2023.
Tawfik, M. A., M. M. Eltaweel, A. M. Fatouh, H. A. Shamsel-Din, and ahmed b ibrahim,
"Brain targeting of zolmitriptan via transdermal terpesomes: statistical optimization and in vivo biodistribution study by 99mTc radiolabeling technique",
Drug Delivery and Translational Research, vol. 13, issue 12, pp. 3059-3076, 2023.
Elsenosy, F. M., G. A. Abdelbary, A. H. Elshafeey, I. Elsayed, and A. R. Fares,
"Brain Targeting of Duloxetine HCL via Intranasal Delivery of Loaded Cubosomal Gel: In vitro Characterization, ex vivo Permeation, and in vivo Biodistribution Studies",
International Journal of Nanomedicine, vol. 15, pp. 9517-9537, 2020.
Elsenosy, F. M., G. A. Abdelbary, A. H. Elshafeey, I. Elsayed, and A. R. Fares,
"Brain targeting of duloxetine hcl via intranasal delivery of loaded cubosomal gel: In vitro characterization, ex vivo permeation, and in vivo biodistribution studies",
International Journal of Nanomedicine, vol. 15, pp. 9517 - 9537, 2020.
Abstractn/a
Sayed, S., F. M. Elsharkawy, M. M. Amin, H. A. Shamsel-Din, and ahmed b ibrahim,
"Brain targeting efficiency of intranasal clozapine-loaded mixed micelles following radio labeling with Technetium-99m",
Drug DeliveryDrug Delivery, vol. 28, issue 1: Taylor & Francis, pp. 1524 - 1538, 2021.
Abstractn/a
Morsi, N. M., D. M. Ghorab, and H. A. Badie,
"Brain targeted solid lipid nanoparticles for brain ischemia: preparation and in vitro characterization.",
Pharmaceutical development and technology, vol. 18, issue 3, pp. 736-44, 2013 May-Jun.
AbstractThis study aims at formulating solid lipid nanoparticles (SLNs) of Vinpocetine (VIN) to be used as a brain targeted sustained drug-delivery system. VIN is a derivative of vincamine alkaloid, used for chronic cerebral vascular ischemia. However, it suffers from low bioavailability and short half-life. Its oral bioavailability is recorded to be between 7 and 55%. Its elimination half-life is 1-2 h so it would be a good candidate for a sustained drug-delivery system. VIN SLNs were prepared using modified high shear homogenization followed by ultrasonication technique. The effect of incorporating different lipids at different concentrations of various surfactants was investigated. The VIN SLNs were characterized by entrapment efficiency percent (EE%), particle size distribution, zeta-potential, and cumulative released percent after 96 h. The EE% ranged between 83.34% ± 0.95-94.56% ± 0.11 due to the lipophilic character of VIN. The mean particle size measured ranged from 123 nm-464 nm. The cumulative released percent after 96 h ranged from 23.55% to 75.67% showing a controlled release profile. Formula (F32) composed of 5% glyceryl monostearate (GMS) and stabilized by 2% surfactant mixture [Tween 80, Pluronic F 68 (1:1)] was the most appropriate formula for brain delivery having EE% of 89.09% ± 1.49, zero-order release kinetics with cumulative released percent of 72.12% after 96 h, zeta-potential of -11.3 ± 0.97 mV. It showed a unimodal size distribution with particle size ≈ 90 nm and polydispersity index of 0.121. The formula of choice in this study exhibited a zero-order sustained release profile and met the requirement for a brain targeted SLN so it could be a promising formula to deliver VIN to the brain.
Abd-Elrasheed, E., S. N. El-Helaly, M. M. EL-Ashmoony, and S. Salah,
"Brain Targeted Intranasal Zaleplon Nano-Emulsion: In-Vitro Characterization and Assessment of Gamma Aminobutyric Acid Levels in Rabbits' Brain and Plasma at Low and High Doses",
Current drug delivery, vol. 15, no. 6: Bentham Science Publishers, pp. 898–906, 2018.
Abstractn/a
Murray, K., Y. Lin, M. M. Makary, P. G. Whang, and P. Geha,
"Brain Structure and Function of Chronic Low Back Pain Patients on Long-Term Opioid Analgesic Treatment: A Preliminary Study.",
Molecular pain, vol. 17, pp. 1744806921990938, 2021.
AbstractChronic low back pain (CLBP) is often treated with opioid analgesics (OA), a class of medications associated with a significant risk of misuse. However, little is known about how treatment with OA affect the brain in chronic pain patients. Gaining this knowledge is a necessary first step towards understanding OA associated analgesia and elucidating long-term risk of OA misuse. Here we study CLBP patients chronically medicated with opioids without any evidence of misuse and compare them to CLBP patients not on opioids and to healthy controls using structural and functional brain imaging. CLBP patients medicated with OA showed loss of volume in the nucleus accumbens and thalamus, and an overall significant decrease in signal to noise ratio in their sub-cortical areas. Power spectral density analysis (PSD) of frequency content in the accumbens' resting state activity revealed that both medicated and unmedicated patients showed loss of PSD within the slow-5 frequency band (0.01-0.027 Hz) while only CLBP patients on OA showed additional density loss within the slow-4 frequency band (0.027-0.073 Hz). We conclude that chronic treatment with OA is associated with altered brain structure and function within sensory limbic areas.
Nassar, N. N., and A. A. Abdel-Rahman,
"Brain stem adenosine receptors modulate centrally mediated hypotensive responses in conscious rats: A review.",
Journal of advanced research, vol. 6, issue 3, pp. 331-40, 2015 May.
AbstractAdenosine is implicated in the modulation of cardiovascular responses either at the peripheral or at central level in experimental animals. However, there are no dedicated reviews on the involvement of adenosine in mediating the hypotensive response of centrally administered clonidine in general and specifically in aortically barodenervated rats (ABD). The conscious ABD rat model exhibits surgically induced baroreflex dysfunction and exaggerated hypotensive response, compared with conscious sham-operated (SO) rats. The current review focuses on, the role of adenosine receptors in blood pressure (BP) regulation and their possible crosstalk with other receptors e.g. imidazoline (I1) and alpha (α2A) adrenergic receptor (AR). The former receptor is a molecular target for clonidine, whose hypotensive effect is enhanced approx. 3-fold in conscious ABD rats. We also discussed how the balance between the brain stem adenosine A1 and A2A receptors is regulated by baroreceptors and how such balance influences the centrally mediated hypotensive responses. The use of the ABD rat model yielded insight into the downstream signaling cascades following clonidine-evoked hypotension in a surgical model of baroreflex dysfunction.
Dkhil, M. A., F. A. Thagfan, E. M. Al-Shaebi, S. N. Maodaa, R. Abdel-Gaber, T. A. Hafiz, M. A. Mubaraki, and S. Al-Quraishy,
"Brain oxidative status and behavioral response of mice infected with Trypanosoma evansi",
Journal of King Saud University – Science, vol. 33, pp. 101544, 2021.
Jui, S. - L., S. Zhang, W. Xiong, F. Yu, M. Fu, D. Wang, A. E. Hassanien, and K. Xiao,
"Brain MRI Tumor Segmentation with 3D Intracranial Structure Deformation Features",
IEEE Intelligent Systems, vol. 31, no. 2: IEEE, pp. 66–76, 2016.
Abstractn/a
Mohammed, R. H. A., Y. Y. Sabry, and A. A. Nasef,
"Brain MRI screening showing evidences of early central nervous system involvement in patients with systemic sclerosis.",
Rheumatology international, vol. 31, issue 5, pp. 667-71, 2011 May.
AbstractSystemic sclerosis is a multisystem autoimmune collagen disease where structural and functional abnormalities of small blood vessels prevail. Transient ischemic attacks, ischemic stroke, and hemorrhage have been reported as primary consequence of vascular central nervous system affection in systemic sclerosis. Magnetic resonance imaging is considered to be the most sensitive diagnostic technique for detecting symptomatic and asymptomatic lesions in the brain in cases of multifocal diseases. The objective of this study is to detect subclinical as well as clinically manifest cerebral vasculopathy in patients with systemic sclerosis using magnetic resonance imaging. As much as 30 female patients with systemic sclerosis aged 27-61 years old, with disease duration of 1-9 years and with no history of other systemic disease or cerebrovascular accidents, were enrolled. Age-matched female control group of 30 clinically normal subjects, underwent brain magnetic resonance examination. Central nervous system (CNS) involvement in the form of white matter hyperintense foci of variable sizes were found in significantly abundant forms in systemic sclerosis patients on magnetic resonance evaluation than in age-related control group, signifying a form of CNS vasculopathy. Such foci showed significant correlation to clinical features of organic CNS lesion including headaches, fainting attacks and organic depression as well as to the severity of peripheral vascular disease with insignificant correlation with disease duration. In conclusion, subclinical as well as clinically manifest CNS ischemic vasculopathy is not uncommon in systemic sclerosis patients and magnetic resonance imaging is considered a sensitive noninvasive screening tool for early detection of CNS involvement in patients with systemic sclerosis.
Mohammed, R. H. A., Y. Y. Sabry, and A. A. Nasef,
"Brain MRI screening showing evidences of early central nervous system involvement in patients with systemic sclerosis.",
Rheumatology international, vol. 31, issue 5, pp. 667-71, 2011.
AbstractSystemic sclerosis is a multisystem autoimmune collagen disease where structural and functional abnormalities of small blood vessels prevail. Transient ischemic attacks, ischemic stroke, and hemorrhage have been reported as primary consequence of vascular central nervous system affection in systemic sclerosis. Magnetic resonance imaging is considered to be the most sensitive diagnostic technique for detecting symptomatic and asymptomatic lesions in the brain in cases of multifocal diseases. The objective of this study is to detect subclinical as well as clinically manifest cerebral vasculopathy in patients with systemic sclerosis using magnetic resonance imaging. As much as 30 female patients with systemic sclerosis aged 27-61 years old, with disease duration of 1-9 years and with no history of other systemic disease or cerebrovascular accidents, were enrolled. Age-matched female control group of 30 clinically normal subjects, underwent brain magnetic resonance examination. Central nervous system (CNS) involvement in the form of white matter hyperintense foci of variable sizes were found in significantly abundant forms in systemic sclerosis patients on magnetic resonance evaluation than in age-related control group, signifying a form of CNS vasculopathy. Such foci showed significant correlation to clinical features of organic CNS lesion including headaches, fainting attacks and organic depression as well as to the severity of peripheral vascular disease with insignificant correlation with disease duration. In conclusion, subclinical as well as clinically manifest CNS ischemic vasculopathy is not uncommon in systemic sclerosis patients and magnetic resonance imaging is considered a sensitive noninvasive screening tool for early detection of CNS involvement in patients with systemic sclerosis.