Your search keyword '"Nasef, MM"' showing total 37 results

1. Correction: Aljabali, A.A.A.; et al. Albumin Nano-Encapsulation of Piceatannol Enhances Its Anticancer Potential in Colon Cancer via down Regulation of Nuclear p65 and HIF-1α. Cancers 2020, 12, 113

Author

Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Zoubi, MSA, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, and Tambuwala, MM

Subjects

1112 Oncology and Carcinogenesis

Abstract

The authors wish to make the following corrections to this paper [...].

Published

2020

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Author

Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Al Zoubi, MS, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, Tambuwala, MM, Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Al Zoubi, MS, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, and Tambuwala, MM

Published

2020

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Author

Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Zoubi, MSA, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, Tambuwala, MM, Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Zoubi, MSA, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, and Tambuwala, MM

Abstract

The authors wish to make the following corrections to this paper [...].

Published

2020

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Author

Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Zoubi, MSA, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, Tambuwala, MM, Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Zoubi, MSA, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, and Tambuwala, MM

Abstract

The authors wish to make the following corrections to this paper [...].

Published

2020

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Author

Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Al Zoubi, MS, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, Tambuwala, MM, Aljabali, AAA, Bakshi, HA, Hakkim, FL, Haggag, YA, Al-Batanyeh, KM, Al Zoubi, MS, Al-Trad, B, Nasef, MM, Satija, S, Mehta, M, Pabreja, K, Mishra, V, Khan, M, Abobaker, S, Azzouz, IM, Dureja, H, Pabari, RM, Dardouri, AAK, Kesharwani, P, Gupta, G, Dhar Shukla, S, Prasher, P, Charbe, NB, Negi, P, Kapoor, DN, Chellappan, DK, Webba da Silva, M, Thompson, P, Dua, K, McCarron, P, and Tambuwala, MM

Published

2020

6. Dietary Crocin is Protective in Pancreatic Cancer while Reducing Radiation-Induced Hepatic Oxidative Damage.

Author

Bakshi HA, Zoubi MSA, Faruck HL, Aljabali AAA, Rabi FA, Hafiz AA, Al-Batanyeh KM, Al-Trad B, Ansari P, Nasef MM, Charbe NB, Satija S, Mehta M, Mishra V, Gupta G, Abobaker S, Negi P, Azzouz IM, Dardouri AAK, Dureja H, Prasher P, Chellappan DK, Dua K, Silva MWD, Tanani ME, McCarron PA, M Tambuwala M, Bakshi HA, Zoubi MSA, Faruck HL, Aljabali AAA, Rabi FA, Hafiz AA, Al-Batanyeh KM, Al-Trad B, Ansari P, Nasef MM, Charbe NB, Satija S, Mehta M, Mishra V, Gupta G, Abobaker S, Negi P, Azzouz IM, Dardouri AAK, Dureja H, Prasher P, Chellappan DK, Dua K, Silva MWD, Tanani ME, McCarron PA, and M Tambuwala M

Abstract

Pancreatic cancer is one of the fatal causes of global cancer-related deaths. Although surgery and chemotherapy are standard treatment options, post-treatment outcomes often end in a poor prognosis. In the present study, we investigated anti-pancreatic cancer and amelioration of radiation-induced oxidative damage by crocin. Crocin is a carotenoid isolated from the dietary herb saffron, a prospect for novel leads as an anti-cancer agent. Crocin significantly reduced cell viability of BXPC3 and Capan-2 by triggering caspase signaling via the downregulation of Bcl-2. It modulated the expression of cell cycle signaling proteins P53, P21, P27, CDK2, c-MYC, Cyt-c and P38. Concomitantly, crocin treatment-induced apoptosis by inducing the release of cytochrome c from mitochondria to cytosol. Microarray analysis of the expression signature of genes induced by crocin showed a substantial number of genes involved in cell signaling pathways and checkpoints (723) are significantly affected by crocin. In mice bearing pancreatic tumors, crocin significantly reduced tumor burden without a change in body weight. Additionally, it showed significant protection against radiation-induced hepatic oxidative damage, reduced the levels of hepatic toxicity and preserved liver morphology. These findings indicate that crocin has a potential role in the treatment, prevention and management of pancreatic cancer.

Published

2020

7. Utilization of hydrogen gas production for electricity generation in fuel cell by Enterobacter aerogenes ADH 43 with many kinds of carbon sources in batch stirred tank reactor

Author

Rachman, MA, Eniya, LD, Liasari, Y, Nasef, MM, Ahmad, A, and Saidi, H

Subjects

Enterobacter aerogenes ADH-43, H2 production, molasses and fuel cell

Abstract

Enterobacter aerogenes ADH-43 is a hydrogen gas (H2) producing mutant bacterium and a facultative anaerobic microbe. This double mutant was obtained by classical mutagenetically treated in order to enhance H2 production. In addition, this mutant has ability to degrade molasses from sugar factory as well as other carbon sources. The main goals of this research were to use E. aerogenes ADH-43 for fermentation in order to decide the best carbon sources and optimum concentration from molasses, glucose, cassava sugar, glycerol and biodiesel waste media in vial bottle. Moreover, to stabilize H2 production, it was operated at 37°C and an initial pH 6.8. Performing the research in batch and fed-batch culture, utilizing it by converting to electricity using fuel cells in 50 ml vial bottle, 2% total sugar concentration of sugar cane molases was found to be the highest H2 production (9.38 L H2/L medium) during 24 h fermentation. It was also observed that in batch culture at 12 h fermentation, the volume, flow rate maximum, and the yield of H2 production were 1.6 L H2/L sugar molases, 73.4 ml H2/min, and 2.99 mol H2/mol sugar molases, respectively. Both sugar was consumed perfectly, colony count was 1.7 107 cfu/ml, pH was nearly constant at 6.0, and finally the H2 was drifted to fuel cell to generate electrical power until 4 V 0.25 A. Moreover, the volume, flow rate maximum, and the yield of H2 production were 2.12 L H2/L sugar molases, 107.7 ml H2/min, and 3.84 mol H2/mol sugar molases, respectively when the fed-batch culture was performed. This means nearly 1.3- fold yield of H2 as compared to batch culture was obtained by adding 0.5 L of 2% sugar cane molasses at 5 and 12 h of fermentation in order to reach 7.0 V, 5.3 W and 0.38 A by a fuel cell.Keywords: Enterobacter aerogenes ADH-43, H2 production, molasses and fuel cell

Published

2015

8. Preparation and characterization of carboxymethyl microcrystalline cellulose from pineapple leaf fibre.

Author

Fouad H, Jawaid M, Karim Z, Meraj A, Abu-Jdayil B, Nasef MM, and Sarmin SN

Abstract

Highly functional and robust biobased materials are still in research to produce valuable composites for various applications. The literature shows the gap of new raw biobased materials in market which can functionally tuned and structurally modified for development of 2d/3d architectures. Thus, in the present study, very cheap, easily available agricultural waste, pineapple leaf fiber (PL-raw) was used for the isolation of microcrystalline cellulose (PL-MCC) and further functionalized using upscaled chemical approach to carboxymethyl microcrystalline cellulose (PL-CMMCC). Very advanced techniques like Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), energy dispersive X-ray analysis (EDX), X-ray diffraction analysis (XRD), and differential scanning calorimetry (DSC) served to characterize the raw material, high crystalline PL-MCC, and modified carboxy methyl MCC. FTIR determined presence of different absorbed peak at approximately 1620.2 cm -1 , and at 1423.8 cm -1 , carboxyl groups were assigned to PL-CMMCC. On the other hand, the XRD findings verified that PL-CMMCC's crystalline structure has decreased. Analysis by SEM revealed a damaged surface morphology for PL-CMMCC. Following chemical treatments, the EDX analysis revealed that each fiber sample contained a highly pure cellulose elemental composition. Thus, results explain the utilization of agricultural waste, pineapple leaf fiber to high valuable products like highly crystalline PL-MCC, in addition further modification of PL-MCC could leads to formation of highly functional material that could be used for other applications too in future., (© 2024. The Author(s).)

Published

2024

9. Isolation and characterisation of lignin using natural deep eutectic solvents pretreated kenaf fibre biomass.

Author

Meraj A, Jawaid M, Singh SP, Nasef MM, Ariffin H, Fouad H, and Abu-Jdayil B

Subjects

Deep Eutectic Solvents, Biomass, Carbohydrates, Solvents chemistry, Carbon, Hydrolysis, Lignin chemistry, Hibiscus

Abstract

Extraction of lignin via green methods is a crucial step in promoting the bioconversion of lignocellulosic biomasses. In the present study, utilisation of natural deep eutectic solvent for the pretreatment of kenaf fibres biomass is performed. Furthermore, extracted lignin from natural deep eutectic solvent pretreated kenaf biomass was carried out and its comparative study with commercial lignin was studied. The extracted lignin was characterized and investigated through Infrared Fourier transform spectroscopy, X-ray Diffraction, thermogravimetric analysis, UV-Vis spectroscopy, and scanning electron microscopy. FTIR Spectra shows that all samples have almost same set of absorption bands with slight difference in frequencies. CHNS analysis of natural deep eutectic solvent pretreated kenaf fibre showed a slight increase in carbon % from 42.36 to 43.17% and an increase in nitrogen % from - 0.0939 to - 0.1377%. Morphological analysis of commercial lignin shows irregular/uneven surfaces whereas natural deep eutectic solvent extracted lignin shows smooth and wavy surface. EDX analysis indicated noticeable peaks for oxygen and carbon elements which are present in lignocellulosic biomass. Thermal properties showed that lignin is constant at higher temperatures due to more branching and production of extremely condensed aromatic structures. In UV-VIS spectroscopy, commercial lignin shows slightly broad peak between 300 and 400 nm due to presence of carbonyl bond whereas, natural deep eutectic solvent extracted lignin does not show up any peak in this range. XRD results showed that the crystallinity index percentage for kenaf and natural deep eutectic solvent treated kenaf was 70.33 and 69.5% respectively. Therefore, these innovative solvents will undoubtedly have significant impact on the development of clean, green, and sustainable products for biocatalysts, extraction, electrochemistry, adsorption applications., (© 2024. The Author(s).)

Published

2024

10. A highly-selective layer-by-layer membrane modified with polyethylenimine and graphene oxide for vanadium redox flow battery.

Author

Sha'rani SS, Nasef MM, Jusoh NWC, Isa EDM, and Ali RR

Abstract

A selective composite membrane for vanadium redox flow battery (VRFB) was successfully prepared by layer-by-layer (LbL) technique using a perfluorosulfonic sulfonic acid or Nafion 117 (N117). The composite membrane referred as N117-(PEI/GO) n , was obtained by depositing alternating layers of positively charged polyethylenimine (PEI) and negatively charged graphene oxide (GO) as polyelectrolytes. The physicochemical properties and performance of the pristine and composite membranes were investigated. The membrane showed an enhancement in proton conductivity and simultaneously exhibited a notable 90% reduction in vanadium permeability. This, in turn, results in a well-balanced ratio of proton conductivity to vanadium permeability, leading to high selectivity. The highest selectivity of the LbL membranes was found to be 19.2 × 10 4 S.min/cm 3 , which is 13 times higher than the N117 membrane ( n  = 0). This was translated into an improvement in the battery performance, with the n  = 1 membrane showing a 4-6% improvement in coulombic efficiency and a 7-15% improvement in voltage efficiency at current densities ranging from 40 to 80 mA/cm 2 . Furthermore, the membrane displays stable operation over a long-term stability at around 88% at a current density of 40 mA/cm 2 , making it an attractive option for VRFB applications using the LbL technique. The use of PEI/GO bilayers maintains high proton conductivity and VE of the battery, opening up possibilities for further optimization and improvement of VRFBs., Competing Interests: No potential conflict of interest was reported by the author(s)., (© 2024 The Author(s). Published by National Institute for Materials Science in partnership with Taylor & Francis Group.)

Published

2024

11. Nanoengineered, Pd-doped Co@C nanoparticles as an effective electrocatalyst for OER in alkaline seawater electrolysis.

Author

Ghouri ZK, Hughes DJ, Ahmed K, Elsaid K, Nasef MM, Badreldin A, and Abdel-Wahab A

Abstract

Water electrolysis is considered one of the major sources of green hydrogen as the fuel of the future. However, due to limited freshwater resources, more interest has been geared toward seawater electrolysis for hydrogen production. The development of effective and selective electrocatalysts from earth-abundant elements for oxygen evolution reaction (OER) as the bottleneck for seawater electrolysis is highly desirable. This work introduces novel Pd-doped Co nanoparticles encapsulated in graphite carbon shell electrode (Pd-doped CoNPs@C shell) as a highly active OER electrocatalyst towards alkaline seawater oxidation, which outperforms the state-of-the-art catalyst, RuO 2 . Significantly, Pd-doped CoNPs@C shell electrode exhibiting low OER overpotential of ≈213, ≈372, and ≈ 429 mV at 10, 50, and 100 mA/cm 2 , respectively together with a small Tafel slope of ≈ 120 mV/dec than pure Co@C and Pd@C electrode in alkaline seawater media. The high catalytic activity at the aforementioned current density reveals decent selectivity, thus obviating the evolution of chloride reaction (CER), i.e., ∼490 mV, as competitive to the OER. Results indicated that Pd-doped Co nanoparticles encapsulated in graphite carbon shell (Pd-doped CoNPs@C electrode) could be a very promising candidate for seawater electrolysis., (© 2023. The Author(s).)

Published

2023

12. CO 2 adsorption and CO 2 /CH 4 separation using fibrous amine-containing adsorbents: isothermal, kinetic, and thermodynamic behaviours.

Author

Mohamad NA, Nasef MM, Abdullah TAT, Ahmad A, and Ting TM

Subjects

Adsorption, Thermodynamics, Temperature, Spectroscopy, Fourier Transform Infrared, Triethylenephosphoramide, Kinetics, Hydrogen-Ion Concentration, Carbon Dioxide chemistry, Water Pollutants, Chemical chemistry

Abstract

A series of fibrous aminated adsorbents for CO 2 adsorption were prepared by covalent incorporation of poly (glycidyl methacrylate) (PGMA) by graft copolymerization of GMA onto electron beam (EB) irradiated polyethylenepolypropylene (PE/PP) fibrous sheets and subsequent amination with ethylenediamine (EDA), diethylenetriamine (DETA), or tetraethylenepentamine (TEPA). The physico-chemical properties of the adsorbents were evaluated using Fourier transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), thermogravimetric (TGA), X-ray diffraction (XRD), and Brunauer-Emmett-Teller (BET) analysis. All the adsorbents displayed typic primary and secondary amine features combined with a decrease in both of crystallinity and surface area of PE/PP, and such a decrease was higher in adsorbents with longer aliphatic chain of the amine. Of all adsorbents, TEPA-containing fibres showed the highest CO 2 adsorption capacity and thus was further investigated for CO 2 capture from CO 2 /CH 4 mixtures of different gas ratios under various pressures and temperatures. The selectivity of CO 2 over CH 4 and equilibrium isotherms, kinetics, and thermodynamics of the adsorption on the fibrous aminated adsorbent were all investigated. The Sips model was found to best fit the isotherm of CO 2 adsorption suggesting the presence of a combination of monolayer and multilayer adsorptions. The adsorption kinetic data was found to best fit Elovich model reflecting chemisorption. The ΔG°, ΔS°, and ΔH° showed positive values suggesting that the adsorption of CO 2 on the present fibrous adsorbent was non-spontaneous with an increase in randomness implying that the process was endothermic. Overall, it can be suggested that PE/PP-g-PGMA/TEPA adsorbent has a strong potential for separation of CO 2 from NG., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

13. Composite Proton-Conducting Membrane with Enhanced Phosphoric Acid Doping of Basic Films Radiochemically Grafted with Binary Vinyl Heterocyclic Monomer Mixtures.

Author

Sithambaranathan P, Nasef MM, Ahmad A, Abbasi A, and Ting TM

Abstract

A composite proton conducting membrane (PCM) was prepared by radiation-induced grafting (RIG) of binary mixtures of 4-vinyl pyridine (4-VP) and 1-vinylimidazole (1-VIm) onto poly(ethylene- co -tetrafluoroethylene) (ETFE) film followed by phosphoric acid (PA) doping. The grafting parameters such as absorbed dose, temperature, monomer concentration, time, and monomer ratio were varied to control the degree of grafting (DG%). The effect of the reactivity ratio of 4-VP and 1-VIm on the composition and degree of monomer unit alternation in the formed graft copolymer was investigated. The changes in the chemical and physical properties endowed by grafting and subsequent PA acid doping were monitored using analytical instruments. The mechanical properties and proton conductivity of the obtained membrane were evaluated and its performance was tested in H 2 /O 2 fuel cell at 120 °C under anhydrous and partially wet conditions. The acid doping level was affected by the treatment parameters and enhanced by increasing DG. The proton conductivity was boosted by incorporating the combination of pyridine and imidazole rings originating from the formed basic graft copolymer of 4-VP/1-VIm dominated by 4-VP units in the structure. The proton conductivity showed a strong dependence on the temperature. The membrane demonstrated superior properties compared to its counterpart obtained by grafting 4-VP alone. The membrane also showed a strong potential for application in proton exchange membrane fuel cells (PEMFC) operating at 120 °C.

Published

2023

14. Sulfur enriched slow-release coated urea produced from inverse vulcanized copolymer.

Author

Ghumman ASM, Shamsuddin R, Nasef MM, Yahya WZN, Abbasi A, and Almohamadi H

Subjects

Nitrogen chemistry, Polymers, Soil chemistry, Sulfur, Water, Fertilizers analysis, Urea chemistry

Abstract

Slow-release fertilizers are developed to enhance the nutrient use efficiency (NUE), by coating urea with less water soluble or hydrophobic material. Diverse range of materials have been utilized to coat urea, however, their inherit non-biodegradability, hydrophilicity, crystallinity, and high synthesis cost limits their scalability. Herein, we reported the preparation of a novel slow-release sulfur enriched urea fertilizers using sustainable hydrophobic, biodegradable, crosslinked copolymer made from sulfur and rubber seed oil (Poly(S-RSO)) through the use of dip coating method. Scanning electron microscopy (SEM) was employed to study the fertilizers morphology and estimate the coating film thickness. A nitrogen release test was carried out in distilled water, which revealed that the coated fertilizers with a coating thickness of 165 μm, 254 μm and 264 μm released only 65 % of its total nutrient content after 2, 19 and 43 days of incubation, respectively: hence, showing an excellent slow-release property. In soil, fertilizer with 264 μm coating thickness released only 17 % nitrogen after 20 days of incubation, in line with the European standard (EN 13266, 2001). The release kinetic data best fits the Ritger-Peppas model with a R 2 value of 0.99 and the n value of 0.65 indicated the release was mainly due to diffusion. Submerged cultivation (SmC) demonstrated the potential of poly(S-RSO) to enhance sulfur oxidation; it was observed that the copolymer oxidation was 50 % greater than that of elemental sulfur. A comparison between the newly developed fertilizers and existing coated fertilizers was also presented. On the whole, the results demonstrated outstanding slow-release characteristics and improved sulfur oxidation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

15. Bibliometrics of Functional Polymeric Biomaterials with Bioactive Properties Prepared by Radiation-Induced Graft Copolymerisation: A Review.

Author

Yusefi M, Nasef MM, Tareq MA, Gupta B, Shameli K, Ali RR, Ting TM, and El Enshasy HA

Abstract

Functional polymeric biomaterials (FPBMs) with bioactive characteristics obtained by radiation-induced graft copolymerisation (RIGC) have been subjected to intensive research and developed into many commercial products. Various studies have reported the development of a variety of radiation-grafted FPBMs. However, no reports dealing with the quantitative evaluations of these studies from a global bibliographic perspective have been published. Such bibliographic analysis can provide information to overcome the limitations of the databases and identify the main research trends, together with challenges and future directions. This review aims to provide an unprecedented bibliometric analysis of the published literature on the use of RIGC for the preparation of FPBMs and their applications in medical, biomedical, biotechnological, and health care fields. A total of 235 publications obtained from the Web of Science (WoS) in the period of 1985-2021 were retrieved, screened, and evaluated. The records were used to manifest the contributions to each field and underline not only the top authors, journals, citations, years of publication, and countries but also to highlight the core research topics and the hubs for research excellence on these materials. The obtained data overviews are likely to provide guides to early-career scientists and their research institutions and promote the development of new, timely needed radiation-grafted FPBMs, in addition to extending their applications.

Published

2022

16. TRAF3/p38-JNK Signalling Crosstalk with Intracellular-TRAIL/Caspase-10-Induced Apoptosis Accelerates ROS-Driven Cancer Cell-Specific Death by CD40.

Author

Ibraheem K, Yhmed AMA, Nasef MM, and Georgopoulos NT

Subjects

Humans, Caspase 10 metabolism, CD40 Ligand metabolism, MAP Kinase Kinase Kinase 5 metabolism, NADPH Oxidases metabolism, BH3 Interacting Domain Death Agonist Protein metabolism, Apoptosis, CD40 Antigens metabolism, Reactive Oxygen Species metabolism, TNF Receptor-Associated Factor 3 metabolism, TNF-Related Apoptosis-Inducing Ligand metabolism, p38 Mitogen-Activated Protein Kinases metabolism, MAP Kinase Kinase 4, Colorectal Neoplasms metabolism, Colorectal Neoplasms pathology

Abstract

The capacity to induce tumour-cell specific apoptosis represents the most unique feature of the TNF receptor (TNFR) family member CD40. Recent studies on the signalling events triggered by its membrane-presented ligand CD40L (mCD40L) in normal and malignant epithelial cells have started to unravel an exquisite context and cell type specificity for the functional effects of CD40. Here, we demonstrate that, in comparison to other carcinomas, mCD40L triggered strikingly more rapid apoptosis in colorectal carcinoma (CRC) cells, underpinned by its ability to entrain two concurrently operating signalling axes. CD40 ligation initially activates TNFR-associated factor 3 (TRAF3) and subsequently NADPH oxidase (NOX)/Apoptosis signal-regulating kinase 1 (ASK1)-signalling and induction of reactive oxygen species (ROS) to mediate p38/JNK- and ROS-dependent cell death. At that point, p38/JNK signalling directly activates the mitochondrial pathway, and triggers rapid induction of intracellular TNF-related apoptosis-inducing ligand (TRAIL) that signals from internal compartments to initiate extrinsic caspase-10-asscociated apoptosis, leading to truncated Bid (tBid)-activated mitochondrial signalling. p38 and JNK are essential both for direct mitochondrial apoptosis induction and the TRAIL/caspase-10/tBid pathway, but their involvement follows functional hierarchy and temporally controlled interplay, as p38 function is required for JNK phosphorylation. By engaging both intrinsic and extrinsic pathways to activate apoptosis via two signals simultaneously, CD40 can accelerate CRC cell death. Our findings further unravel the multi-faceted properties of the CD40/mCD40L dyad, highlighted by the novel TNFR crosstalk that accelerates tumour cell-specific death, and may have implications for the use of CD40 as a therapeutic target.

Published

2022

17. Crocin Inhibits Angiogenesis and Metastasis in Colon Cancer via TNF-α/NF-kB/VEGF Pathways.

Author

Bakshi HA, Quinn GA, Nasef MM, Mishra V, Aljabali AAA, El-Tanani M, Serrano-Aroca Á, Webba Da Silva M, McCarron PA, and Tambuwala MM

Subjects

Caco-2 Cells, Carotenoids pharmacology, Human Umbilical Vein Endothelial Cells metabolism, Humans, NF-kappa B metabolism, Neovascularization, Pathologic metabolism, Tumor Necrosis Factor-alpha pharmacology, Vascular Endothelial Growth Factor A metabolism, Carcinoma, Colonic Neoplasms drug therapy

Abstract

Angiogenesis and metastasis play pivotal roles in the progression of cancer. We recently discovered that crocin, a dietary carotenoid derived from the Himalayan crocus, inhibited the growth of colon cancer cells. However, the exact role of crocin on the angiogenesis and metastasis in colorectal cancer remains unclear. In the present study, we demonstrated that crocin significantly reduces the viability of colon cancer cells (HT-29, Caco-2) and human umbilical vein endothelial cells (HUVEC), but was not toxic to human colon epithelial (HCEC) cells. Furthermore, pre-treatment of human carcinoma cells (HT-29 and Caco-2) with crocin inhibited cell migration, invasion, and angiogenesis in concentration -dependent manner. Further studies demonstrated that crocin inhibited TNF-α, NF-κB and VEGF pathways in colon carcinoma cell angiogenesis and metastasis. Crocin also inhibited cell migration, invasion, and tube formation in human umbilical vein endothelial cells (HUVEC) in a concentration -dependent manner. We also observed that crocin significantly reduced the secretion of VEGF and TNF-α induced activation of NF-kB by human colon carcinoma cells. In the absence of TNF-α, a concentration-dependent reduction in NF-kB was observed. Many of these observations were confirmed by in vivo angiogenesis models, which showed that crocin significantly reduced the progression of tumour growth. Collectively, these finding suggest that crocin inhibits angiogenesis and colorectal cancer cell metastasis by targeting NF-kB and blocking TNF-α/NF-κB/VEGF pathways.

Published

2022

18. Fouling Prevention in Polymeric Membranes by Radiation Induced Graft Copolymerization.

Author

Zainol Abidin MN, Nasef MM, and Matsuura T

Abstract

The application of membrane processes in various fields has now undergone accelerated developments, despite the presence of some hurdles impacting the process efficiency. Fouling is arguably the main hindrance for a wider implementation of polymeric membranes, particularly in pressure-driven membrane processes, causing higher costs of energy, operation, and maintenance. Radiation induced graft copolymerization (RIGC) is a powerful versatile technique for covalently imparting selected chemical functionalities to membranes' surfaces, providing a potential solution to fouling problems. This article aims to systematically review the progress in modifications of polymeric membranes by RIGC of polar monomers onto membranes using various low- and high-energy radiation sources (UV, plasma, γ-rays, and electron beam) for fouling prevention. The feasibility of the modification method with respect to physico-chemical and antifouling properties of the membrane is discussed. Furthermore, the major challenges to the modified membranes in terms of sustainability are outlined and the future research directions are also highlighted. It is expected that this review would attract the attention of membrane developers, users, researchers, and scientists to appreciate the merits of using RIGC for modifying polymeric membranes to mitigate the fouling issue, increase membrane lifespan, and enhance the membrane system efficiency.

Published

2022

19. Therapeutic Potential of Cannabinoids on Tumor Microenvironment: A Molecular Switch in Neoplasia Transformation.

Author

Bakshi HA, Faruck HL, Ravesh Z, Ansari P, Hannan JMA, Hashimoto R, Takayama K, Farzand R, Nasef MM, Mensah A, Aljabali AAA, Mishra V, Charbe NB, Goyal R, Negi P, Serrano-Aroca Á, Bahar B, El-Tanani M, Courtenay AJ, McCarron P, Jack IG, and Tambuwala MM

Subjects

Endocannabinoids, Humans, Receptors, Cannabinoid, Tumor Microenvironment, Cannabinoids pharmacology, Cannabinoids therapeutic use, Cannabis, Neoplasms drug therapy

Abstract

The efficacy of chemotherapy depends on the tumor microenvironment. This microenvironment consists of a complex cellular network that can exert both stimulatory and inhibitory effects on tumor genesis. Given the increasing interest in the effectiveness of cannabis, cannabinoids have gained much attention as a potential chemotherapy drug. Cannabinoids are a group of marker compounds found in Cannabis sativa L., more commonly known as marijuana, a psychoactive drug used since ancient times for pain management. Although the anticancer potential of C. sativa , has been recognized previously, increased attention was generated after discovering the endocannabinoid system and the successful production of cannabinoid receptors. In vitro and in vivo studies on various tumor models have shown therapeutic efficiency by modifying the tumor microenvironment. However, despite extensive attention regarding potential therapeutic implications of cannabinoids, considerable clinical and preclinical analysis is needed to adequately define the physiological, pharmacological, and medicinal aspects of this range of compounds in various disorders covered in this review. This review summarizes the key literature surrounding the role of cannabinoids in the tumor microenvironment and their future promise in cancer treatment.

Published

2022

20. Anti-proliferative, Anti-angiogenic and Anti-inflammatory Effects of Moringa peregrina Leaf Extracts on Testosterone- Induced Benign Prostatic Hyperplasia in Rats.

Author

Al Zoubi MS, Al Khateeb W, El-Oqlah M, Migdady M, Abu Al-Arja MI, Bzour M, El-Oqlah A, Almubarak S, Al-Qudah MA, Al-Batayneh K, Mkhael M, Elokda A, Ansari P, Hannan J, Nasef MM, Tambuwala MM, and Bakshi HA

Subjects

Animals, Disease Models, Animal, Male, Plant Leaves, Prostatic Hyperplasia chemically induced, Rats, Testosterone, Angiogenesis Inhibitors pharmacology, Anti-Inflammatory Agents pharmacology, Cell Proliferation drug effects, Moringa, Plant Extracts pharmacology, Prostatic Hyperplasia drug therapy

Abstract

Aim: To investigate the potential anti-inflammatory and biochemical effects of Moringa peregrina leaf extracts on testosterone-induced benign prostatic hyperplasia (BPH) in rats., Methods: Six groups of rats (each group included 5 rats) were included in this study. The groups included: 1) the control group, 2) the testosterone-induced BPH group, 3) with 50 mg/kg bwt (bodyweight) oil-treated BPH, 4) with 100 mg/kg bwt. oil-treated BPH, 5) with 500mg/kg bwt. ethanol treated BPH and 6) with 1,000 mg/kg bwt. aqueous treated BPH group. Biochemical markers were measured to evaluate the effect of M. peregrina leaf extracts., Results: Our results showed a significant improvement in the thickness of epithelial cells of the BPH glandular tissues when treated with different M. peregrina extracts (p < 0.05). In addition, M. peregrina extracts showed anti-inflammatory, anti-proliferative and anti-angiogenesis effects on the BPH tissues by reduction of IL-6, PCNA and VEGF-A, respectively., Conclusion: Our preclinical study concluded that M. peregrina leaf extracts showed a significant effect on BPH by reducing inflammation, proliferation, and angiogenic processes with no signs of toxicity.

Published

2022

21. Poly(lactic acid)/poly(butylene succinate) dual-layer membranes with cellulose nanowhisker for heavy metal ion separation.

Author

Kian LK, Jawaid M, Nasef MM, Fouad H, and Karim Z

Subjects

Adsorption, Chemical Phenomena, Mechanical Phenomena, Nanocomposites ultrastructure, Porosity, Spectrum Analysis, Thermogravimetry, Butylene Glycols chemistry, Cellulose chemistry, Ions chemistry, Membranes, Artificial, Metals, Heavy chemistry, Nanocomposites chemistry, Polyesters chemistry, Polymers chemistry

Abstract

In this study, poly(lactic acid) (PLA)/poly(butylene succinate) (PBS) dual-layer membranes filled with 0-3 wt% cellulose nanowhisker (CNWs) were fabricated with aim to remove metal ions from wastewater. An integrated method was employed in the membrane fabrication process by combining water vapor-induced and crystallization-induced phase inversions. The membrane thickness was measured in between 11 and 13 μm, which did not pose significant flux deviation during filtration process. The 3% CNW filled membrane showed prominent and well-laminated two layers structure. Meanwhile, the increase in CNWs from 0 to 3% loadings could improve the membrane porosity (43-74%) but reducing pore size (2.45-0.54 μm). The heat resistance of neat membrane enhanced by 1% CNW but decreased with loadings of 2-3% CNWs due to flaming behavior of sulphated nanocellulose. Membrane with 3% CNW displayed the tensile strength (23.5 MPa), elongation at break (7.1%), and Young's modulus (0.75 GPa) as compared to other samples. For wastewater filtration performance, the continuous operation test showed that 3% CNW filled membrane exhibited the highest removal efficiency for both cobalt and nickel metal ions reaching to 83% and 84%, respectively. We concluded that CNWs filled dual-layer membranes have potential for future development in the removal of heavy metal ions from wastewater streams., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

22. Exploiting the Metabolism of the Gut Microbiome as a Vehicle for Targeted Drug Delivery to the Colon.

Author

Bakshi HA, Quinn GA, Aljabali AAA, Hakkim FL, Farzand R, Nasef MM, Abuglela N, Ansari P, Mishra V, Serrano-Aroca Á, and Tambuwala MM

Abstract

The prevalence of colon-associated diseases has increased significantly over the past several decades, as evidenced by accumulated literature on conditions such as Crohn's disease, irritable bowel syndrome, colorectal cancer, and ulcerative colitis. Developing therapeutics for these diseases is challenging due to physiological barriers of the colon, systemic side effects, and the intestinal environment. Therefore, in a search for novel methods to overcome some of these problems, researchers discovered that microbial metabolism by gut microbiotia offers a potential method for targeted drug delivery This overview highlights several drug delivery systems used to modulate the microbiota and improve colon-targeted drug delivery. This technology will be important in developing a new generation of therapies which harness the metabolism of the human gut microflora.

Published

2021

23. A Degradable Inverse Vulcanized Copolymer as a Coating Material for Urea Produced under Optimized Conditions.

Author

Ghumman ASM, Shamsuddin R, Nasef MM, Krivoborodov EG, Ahmad S, Zanin AA, Mezhuev YO, and Abbasi A

Abstract

Global enhancement of crop yield is achieved using chemical fertilizers; however, agro-economy is affected due to poor nutrient uptake efficacy (NUE), which also causes environmental pollution. Encapsulating urea granules with hydrophobic material can be one solution. Additionally, the inverse vulcanized copolymer obtained from vegetable oils are a new class of green sulfur-enriched polymer with good biodegradation and better sulfur oxidation potential, but they possess unreacted sulfur, which leads to void generations. In this study, inverse vulcanization reaction conditions to minimize the amount of unreacted sulfur through response surface methodology (RSM) is optimized. The copolymer obtained was then characterized using Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), and differential scanning calorimetry (DSC). FTIR confirmed the formation of the copolymer, TGA demonstrated that copolymer is thermally stable up to 200 °C temperature, and DSC revealed the sulfur conversion of 82.2% (predicted conversion of 82.37%), which shows the goodness of the model developed to predict the sulfur conversion. To further maximize the sulfur conversion, 5 wt% diisopropenyl benzene (DIB) as a crosslinker is added during synthesis to produce terpolymer. The urea granule is then coated using terpolymer, and the nutrient release longevity of the coated urea is tested in distilled water, which revealed that only 65% of its total nutrient is released after 40 days of incubation. The soil burial of the terpolymer demonstrated its biodegradability, as 26% weight loss happens in 52 days of incubation. Thus, inverse vulcanized terpolymer as a coating material for urea demonstrated far better nutrient release longevity compared with other biopolymers with improved biodegradation; moreover, these copolymers also have potential to improve sulfur oxidation.

Published

2021

24. Interaction Insight of Pullulan-Mediated Gamma-Irradiated Silver Nanoparticle Synthesis and Its Antibacterial Activity.

Author

Salleh MSN, Ali RR, Shameli K, Hamzah MY, Kasmani RM, and Nasef MM

Abstract

The production of pure silver nanoparticles (Ag-NPs) with unique properties remains a challenge even today. In the present study, the synthesis of silver nanoparticles (Ag-NPs) from natural pullulan (PL) was carried out using a radiation-induced method. It is known that pullulan is regarded as a microbial polysaccharide, which renders it suitable to act as a reducing and stabilizing agent during the production of Ag-NPs. Pullulan-assisted synthesis under gamma irradiation was successfully developed to obtain Ag-NPs, which was characterized by UV-Vis, XRD, TEM, and Zeta potential analysis. Pullulan was used as a stabilizer and template for the growth of silver nanoparticles, while gamma radiation was modified to be selective to reduce silver ions. The formation of Ag-NPs was confirmed using UV-Vis spectra by showing a surface plasmon resonance (SPR) band in the region of 410-420 nm. As observed by TEM images, it can be said that by increasing the radiation dose, the particle size decreases, resulting in a mean diameter of Ag-NPs ranging from 40.97 to 3.98 nm. The XRD analysis confirmed that silver metal structures with a face-centered cubic (FCC) crystal were present, while TEM images showed a spherical shape with smooth edges. XRD also demonstrated that increasing the dose of gamma radiation increases the crystallinity at a high purity of Ag-NPs. As examined by zeta potential, the synthesized Ag-NP/PL was negatively charged with high stability. Ag-NP/PL was then analysed for antimicrobial activity against Staphylococcus aureus , and it was found that it had high antibacterial activity. It is found that the adoption of radiation doses results in a stable and green reduction process for silver nanoparticles.

Published

2021

25. Engineered Bioactive Polymeric Surfaces by Radiation Induced Graft Copolymerization: Strategies and Applications.

Author

Nasef MM, Gupta B, Shameli K, Verma C, Ali RR, and Ting TM

Abstract

The interest in developing antimicrobial surfaces is currently surging with the rise in global infectious disease events. Radiation-induced graft copolymerization (RIGC) is a powerful technique enabling permanent tunable and desired surface modifications imparting antimicrobial properties to polymer substrates to prevent disease transmission and provide safer biomaterials and healthcare products. This review aims to provide a broader perspective of the progress taking place in strategies for designing various antimicrobial polymeric surfaces using RIGC methods and their applications in medical devices, healthcare, textile, tissue engineering and food packing. Particularly, the use of UV, plasma, electron beam (EB) and γ-rays for biocides covalent immobilization to various polymers surfaces including nonwoven fabrics, films, nanofibers, nanocomposites, catheters, sutures, wound dressing patches and contact lenses is reviewed. The different strategies to enhance the grafted antimicrobial properties are discussed with an emphasis on the emerging approach of in-situ formation of metal nanoparticles (NPs) in radiation grafted substrates. The current applications of the polymers with antimicrobial surfaces are discussed together with their future research directions. It is expected that this review would attract attention of researchers and scientists to realize the merits of RIGC in developing timely, necessary antimicrobial materials to mitigate the fast-growing microbial activities and promote hygienic lifestyles.

Published

2021

26. Fourth-generation glucose sensors composed of copper nanostructures for diabetes management: A critical review.

Author

Naikoo GA, Awan T, Salim H, Arshad F, Hassan IU, Pedram MZ, Ahmed W, Faruck HL, Aljabali AAA, Mishra V, Serrano-Aroca Á, Goyal R, Negi P, Birkett M, Nasef MM, Charbe NB, Bakshi HA, and Tambuwala MM

Abstract

More than five decades have been invested in understanding glucose biosensors. Yet, this immensely versatile field has continued to gain attention from the scientific world to better understand and diagnose diabetes. However, such extensive work done to improve glucose sensing devices has still not yielded desirable results. Drawbacks like the necessity of the invasive finger-pricking step and the lack of optimization of diagnostic interventions still need to be considered to improve the testing process of diabetic patients. To upgrade the glucose-sensing devices and reduce the number of intermediary steps during glucose measurement, fourth-generation glucose sensors (FGGS) have been introduced. These sensors, made using robust electrocatalytic copper nanostructures, improve diagnostic efficiency and cost-effectiveness. This review aims to present the essential scientific progress in copper nanostructure-based FGGS in the past 10 years (2010 to present). After a short introduction, we presented the working principles of these sensors. We then highlighted the importance of copper nanostructures as advanced electrode materials to develop reliable real-time FGGS. Finally, we cover the advantages, shortcomings, and prospects for developing highly sensitive, stable, and specific FGGS., Competing Interests: The authors declare no potential conflict of interest., (© 2021 The Authors. Bioengineering & Translational Medicine published by Wiley Periodicals LLC on behalf of American Institute of Chemical Engineers.)

Published

2021

27. Microstructural behavior of magnetorheological elastomer undergoing durability evaluation by stress relaxation.

Author

Johari MAF, Mazlan SA, Nasef MM, Ubaidillah U, Nordin NA, Aziz SAA, Johari N, and Nazmi N

Abstract

The widespread use of magnetorheological elastomer (MRE) materials in various applications has yet to be limited due to the fact that there are substantial deficiencies in current experimental and theoretical research on its microstructural durability behavior. In this study, MRE composed of silicon rubber (SR) and 70 wt% of micron-sized carbonyl iron particles (CIP) was prepared and subjected to stress relaxation evaluation by torsional shear load. The microstructure and particle distribution of the obtained MRE was evaluated by a field emission scanning electron microscopy (FESEM). The influence of constant low strain at 0.01% is the continuing concern within the linear viscoelastic (LVE) region of MRE. Stress relaxation plays a significant role in the life cycle of MRE and revealed that storage modulus was reduced by 8.7%, normal force has weakened by 27%, and stress performance was reduced by 6.88% along approximately 84,000 s test duration time. This time scale was the longest ever reported being undertaken in the MRE stress relaxation study. Novel micro-mechanisms that responsible for the depleted performance of MRE was obtained by microstructurally observation using FESEM and in-phase mode of atomic force microscope (AFM). Attempts have been made to correlate strain localization produced by stress relaxation, with molecular deformation in MRE amorphous matrix. Exceptional attention was focused on the development of molecular slippage, disentanglement, microplasticity, microphase separation, and shear bands. The relation between these microstructural phenomena and the viscoelastic properties of MRE was diffusely defined and discussed. The presented MRE is homogeneous with uniform distribution of CIP. The most significant recent developments of systematic correlation between the effects of microstructural deformation and durability performance of MRE under stress relaxation has been observed and evaluated.

Published

2021

28. Highly conductive anion exchange membranes based on polymer networks containing imidazolium functionalised side chains.

Author

Abouzari-Lotf E, Jacob MV, Ghassemi H, Zakeri M, Nasef MM, Abdolahi Y, Abbasi A, and Ahmad A

Abstract

Two novel types of anion exchange membranes (AEMs) having imidazolium-type functionalised nanofibrous substrates were prepared using the facile and potentially scalable method. The membranes' precursors were prepared by graft copolymerization of vinylbenzyl chloride (VBC) onto syndiotactic polypropylene (syn-PP) and polyamide-66 (PA-66) nanofibrous networks followed by crosslinking with 1,8-octanediamine, thermal treatment and subsequent functionalisation of imidazolium groups. The obtained membranes displayed an ion exchange capacity (IEC) close to 1.9 mmol g -1 and ionic (OH - ) conductivity as high as 130 mS cm -1 at 80 °C. This was coupled with a reasonable alkaline stability representing more than 70% of their original conductivity under accelerated degradation test in 1 M KOH at 80 °C for 360 h. The effect of ionomer binder on the performance of the membrane electrode assembly (MEA) in AEM fuel cell was evaluated with the optimum membrane. The MEA showed a power density of as high as 440 mW cm -2 at a current density is 910 mA cm -2 with diamine crosslinked quaternized polysulfone (DAPSF) binder at 80 °C with 90% humidified H 2 and O 2 gases. Such performance was 2.3 folds higher than the corresponding MEA performance with quaternary ammonium polysulfone (QAPS) binder at the same operating conditions. Overall, the newly developed membrane was found to possess not only an excellent combination of physico-chemical properties and a reasonable stability but also to have a facile preparation procedure and cheap ingredients making it a promising candidate for application in AEM fuel cell.

Published

2021

29. Correction: Aljabali, A.A.A.; et al. Albumin Nano-Encapsulation of Piceatannol Enhances Its Anticancer Potential in Colon Cancer via down Regulation of Nuclear p65 and HIF-1α. Cancers 2020, 12 , 113.

Author

Aljabali AAA, Bakshi HA, Hakkim FL, Haggag YA, Al-Batanyeh KM, Zoubi MSA, Al-Trad B, Nasef MM, Satija S, Mehta M, Pabreja K, Mishra V, Khan M, Abobaker S, Azzouz IM, Dureja H, Pabari RM, Dardouri AAK, Kesharwani P, Gupta G, Dhar Shukla S, Prasher P, Charbe NB, Negi P, Kapoor DN, Chellappan DK, Webba da Silva M, Thompson P, Dua K, McCarron P, and Tambuwala MM

Abstract

The authors wish to make the following corrections to this paper [...].

Published

2020

30. A Theoretical Approach for Correlating Proteins to Malignant Diseases.

Author

Elnemr R, Nasef MM, Elkafrawy P, Rafea M, and Jamal AT

Abstract

Malignant Tumors are developed over several years due to unknown biological factors. These biological factors induce changes in the body and consequently, they lead to Malignant Tumors. Some habits and behaviors initiate these biological factors. In effect, the immune system cannot recognize a Malignant Tumor as foreign tissue. In order to discover a fascinating pattern of these habits, behaviors, and diseases and to make effective decisions, different machine learning techniques should be used. This research attempts to find the association between normal proteins (environmental factors) and diseases that are difficult to diagnose and propose justifications for those diseases. This paper proposes a technique for medical data mining using association rules. The proposed technique overcomes some of the limitations in current association algorithms such as the Apriori algorithm and the Equivalence CLAss Transformation (ECLAT) algorithm. A modification to the Apriori algorithm has been proposed to mine Erythrocytes Dynamic Antigens Store (EDAS) data in a more efficient and tractable way. The experiments inferred that there is a relation between normal proteins as environment proteins, food proteins, commensal proteins, tissue proteins, and disease proteins. Also, the experiments show that habits and behaviors are associated with certain diseases. The presented tool can be used in clinical laboratories to discover the biological causes of malignant diseases., (Copyright © 2020 Elnemr, Nasef, Elkafrawy, Rafea and Jamal.)

Published

2020

31. Skeletal scintigraphy image enhancement based neutrosophic sets and salp swarm algorithm.

Author

Nasef MM, Eid FT, and Sauber AM

Subjects

Humans, Radionuclide Imaging, Algorithms, Image Enhancement

Abstract

Recently, several schemes are proposed for enhancing the dark regions of the skeletal scintigraphy image. Nevertheless, most of them are flawed by some performance problems. This paper presents an adaptive scheme based on Salp Swarm algorithm (SSA) and a neutrosophic set (NS) under multi-criteria to enhance the dark regions of the skeletal scintigraphy image efficiently. Enhancing the dark regions is first converted into an optimization problem. The SSA algorithm is used to find the best improvement for each image separately, and then the neutrosophic algorithm is used to find similarity score to each image with adaptive weight coefficients obtained by the SSA algorithm. The proposed algorithm is applied to an Egyptian medical dataset collected from Menoufia University Hospital and it is a no-reference image. The experiments are done using 3 different resolutions 512*512, 256*256, and 128*128 and compared with Gamma Correction, the NS algorithm and the local enhance algorithm. The results demonstrate that the proposed algorithm achieves superior performance in almost criteria fitness function, entropy, eumber of edges, nNaturalness image quality Evaluator, sharpness, sharpness index, and contrast-distorted images using contrast enhancement. The results showed the idea of integration between the falsity membership of the neutrosophic set and the Salp swarm algorithm can be used to Skeletal Scintigraphy enhancement. This paper proved that it can depend on falsity membership of the neutrosophic set in the Image Enhancement field., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

32. Correction: Frankincense essential oil suppresses melanoma cancer through down regulation of Bcl-2/Bax cascade signaling and ameliorates heptotoxicity via phase I and II drug metabolizing enzymes.

Author

Hakkim FL, Bakshi HA, Khan S, Nasef MM, Farzand R, Sam S, Rashan L, Al-Baloshi MS, Abdo Hasson SSA, Jabri AA, McCarron PA, and Tambuwala MM

Abstract

[This corrects the article DOI: 10.18632/oncotarget.26930.]., (Copyright: © 2020 Hakkim et al.)

Published

2020

33. Albumin Nano-Encapsulation of Piceatannol Enhances Its Anticancer Potential in Colon Cancer Via Downregulation of Nuclear p65 and HIF-1α.

Author

Aljabali AAA, Bakshi HA, Hakkim FL, Haggag YA, Al-Batanyeh KM, Al Zoubi MS, Al-Trad B, Nasef MM, Satija S, Mehta M, Pabreja K, Mishra V, Khan M, Abobaker S, Azzouz IM, Dureja H, Pabari RM, Dardouri AAK, Kesharwani P, Gupta G, Dhar Shukla S, Prasher P, Charbe NB, Negi P, Kapoor DN, Chellappan DK, Webba da Silva M, Thompson P, Dua K, McCarron P, and Tambuwala MM

Abstract

Piceatannol (PIC) is known to have anticancer activity, which has been attributed to its ability to block the proliferation of cancer cells via suppression of the NF-kB signaling pathway. However, its effect on hypoxia-inducible factor (HIF) is not well known in cancer. In this study, PIC was loaded into bovine serum albumin (BSA) by desolvation method as PIC-BSA nanoparticles (NPs). These PIC-BSA nanoparticles were assessed for in vitro cytotoxicity, migration, invasion, and colony formation studies and levels of p65 and HIF-1α. Our results indicate that PIC-BSA NPs were more effective in downregulating the expression of nuclear p65 and HIF-1α in colon cancer cells as compared to free PIC. We also observed a significant reduction in inflammation induced by chemical colitis in mice by PIC-BSA NPs. Furthermore, a significant reduction in tumor size and number of colon tumors was also observed in the murine model of colitis-associated colorectal cancer, when treated with PIC-BSA NPs as compared to free PIC. The overall results indicate that PIC, when formulated as PIC-BSA NPs, enhances its therpautice potential. Our work could prompt further research in using natural anticancer agents as nanoparticels with possiable human clinical trails. This could lead to the development of a new line of safe and effective therapeutics for cancer patients., Competing Interests: The authors declare no conflicts of interest.

Published

2020

34. Applying Machine Learning of Erythrocytes Dynamic Antigens Store in Medicine.

Author

Rafea M, Elkafrawy P, Nasef MM, Elnemr R, and Jamal AT

Abstract

Erythrocytes Dynamic Antigens Store (EDAS) is a new discovery. EDAS consists of self-antigens and foreign (non-self) antigens. In patients with infectious diseases or malignancies, antigens of infection microorganism or malignant tumor exist in EDAS. Storing EDAS of normal individuals and patients in a database has, at least, two benefits. First, EDAS can be mined to determine biomarkers representing diseases which can enable researchers to develop a new line of laboratory diagnostic tests and vaccines. Second, EDAS can be queried, directly, to reach a precise diagnosis without the need to do many laboratory tests. The target is to find the minimum set of proteins that can be used as biomarkers for a particular disease. A hypothetical EDAS is created. Hundred-thousand records are randomly generated. The mathematical model of hypothetical EDAS together with the proposed techniques for biomarker discovery and direct diagnosis are described. The different possibilities that may occur in reality are experimented. Biomarkers' proteins are identified for pathogens and malignancies, which can be used to diagnose conditions that are difficult to diagnose. The presented tool can be used in clinical laboratories to diagnose disease disorders.

Published

2019

35. Improved Methanol Barrier Property of Nafion Hybrid Membrane by Incorporating Nanofibrous Interlayer Self-Immobilized with High Level of Phosphotungstic Acid.

Author

Abouzari-lotf E, Nasef MM, Ghassemi H, Zakeri M, Ahmad A, and Abdollahi Y

Abstract

High level of phosphotungstic acid (PWA) was self-immobilized on electrospun nylon nanofiberous sheet to fabricate highly selective methanol barrier layer for sandwich structured proton conducting membranes. Simple tuning for the assembly conditions of central layer and thickness of outer Nafion layers allowed obtaining different composite membranes with superior methanol barrier properties (namely, P=3.59×10(-8) cm2 s(-1)) coupled with proton conductivities reaching 58.6 mS cm(-1) at 30 °C. Comparable activation energy for proton transport and more than 20 times higher selectivity than Nafion 115 confirm the effectiveness of the central layer and resulting membranes for application in direct methanol fuel cells (DMFCs). When tested in DMFC single cell, the performance of hybrid membrane was far better than Nafion 115 especially at higher methanol concentrations.

Published

2015

36. Mathematical modeling of a single stage ultrasonically assisted distillation process.

Author

Mahdi T, Ahmad A, Ripin A, Abdullah TA, Nasef MM, and Ali MW

Abstract

The ability of sonication phenomena in facilitating separation of azeotropic mixtures presents a promising approach for the development of more intensified and efficient distillation systems than conventional ones. To expedite the much-needed development, a mathematical model of the system based on conservation principles, vapor-liquid equilibrium and sonochemistry was developed in this study. The model that was founded on a single stage vapor-liquid equilibrium system and enhanced with ultrasonic waves was coded using MATLAB simulator and validated with experimental data for ethanol-ethyl acetate mixture. The effects of both ultrasonic frequency and intensity on the relative volatility and azeotropic point were examined, and the optimal conditions were obtained using genetic algorithm. The experimental data validated the model with a reasonable accuracy. The results of this study revealed that the azeotropic point of the mixture can be totally eliminated with the right combination of sonication parameters and this can be utilized in facilitating design efforts towards establishing a workable ultrasonically intensified distillation system., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

37. Radiation-grafted membranes for polymer electrolyte fuel cells: current trends and future directions.

Author

Nasef MM

Published

2014