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Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly $\{$6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines$\}$", Tetrahedron, vol. 72, no. 5: Pergamon, pp. 712–719, 2016. Abstract
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Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly $\{$6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines$\}$", Tetrahedron, vol. 72, no. 5: Elsevier, pp. 712–719, 2016. Abstract
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Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly $\{$6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines$\}$", Tetrahedron, vol. 72, no. 5: Elsevier, pp. 712–719, 2016. Abstract
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Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly $\{$6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines$\}$", Tetrahedron, vol. 72, no. 5: Elsevier, pp. 712–719, 2016. Abstract
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Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly {6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines}", Tetrahedron, vol. 72, issue 5, pp. 712-719, 2016.
Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly {6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines}", Tetrahedron, vol. 72, issue 5: Pergamon, pp. 712-719, 2016. Abstract
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Salem, M. E., A. F. Darweesh, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl) ethanone: versatile precursors for novel mono-, bis-and poly {6-(1H-pyrazol-4-yl)-[1, 2, 4] triazolo [3, 4-b][1, 3, 4] thiadiazines}", Tetrahedron, vol. 72, issue 5: Elsevier, pp. 712-719, 2016. Abstract
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Salem, M. E., A. F. Darweesh, A. E. M. Mekky, A. M. Farag, and A. H. M. Elwahy, "2-Bromo-1-(1H-pyrazol-4-yl)ethanone: Versatile Precursor for Novel Mono- and Bis[pyrazolylthiazoles]", Journal of Heterocyclic Chemistry, vol. 54, no. 1, pp. 226-234, 2017. AbstractWebsite
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Deltenre, P., V. Canva, M. El Nady, C. François, S. Castelain, S. Dharancy, A. Louvet, L. Bocket, M. Lazrek, A. Hollebecque, et al., "A 2-log drop in viral load at 1 month is the best predictor of sustained response in HCV patients with normal ALT: a kinetic prospective study.", Journal of viral hepatitis, vol. 16, issue 7, pp. 500-5, 2009 Jul. Abstract

The most reliable predictor of a sustained virological response in patients with persistently normal ALT has not been identified. We analysed 17 patients with genotype 1 chronic HCV who underwent therapy with pegylated interferon alfa 2b and ribavirin for 48 weeks. Two patients discontinued therapy within 28 days because of side effects and the remaining 15 patients were analysed in detail. An analysis of on treatment virological response using area under the receiver operating characteristic analyses showed that a 2 log drop in HCV RNA at day 28 was the best predictor of a sustained virological response and a failure to reduce viral load by 2 logs correctly identified patients with a low (<15%) probability of achieving a sustained virological response. Introduction of this early discontinuation rule in patients with normal ALT would allow nearly half of the patients to discontinue futile therapy at an early stage.

Nazemi, A., H. Maarefi, B. {\c{C}}atlı, M. R. Ahmadi, S. Fallahi, T. Ali, M. Abdul-Latif, Y. Liu, J. Kim, A. Momtaz, et al., "A 2.8 mW/Gb/s quad-channel 8.5–11.4 Gb/s quasi-digital transceiver in 28 nm CMOS", 2013 Symposium on VLSI Circuits: IEEE, pp. C276–C277, 2013. Abstract
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Moustafa, H., A. Fawzy, S. El-Tobgi, and M. Abd El Ghani, "201Tl-reinjection-NTG as a predictor of myocardial viability", European Congress Nuclear Medicine, Glasgow, 23 - 27 August, Submitted.
ali, H. F., H. elkade, M. ADEL, A. fawze, and A. Saber, "22, 81-92. 2- Whole lung lavage in comparison with bronchoscopic lobar lavage using the rigid bronchoscope in patients with pulmonary alveolar proteinosis: Is it time to change strategy?", Journal of The Egyptian Society of Cardio-Thoracic Surgery., vol. 24, pp. 330- 337, 2016. proteinosis.pdf
ali, H. F., H. elkade, M. ADEL, A. fawze, and A. Saber, "22, 81-92. 2- Whole lung lavage in comparison with bronchoscopic lobar lavage using the rigid bronchoscope in patients with pulmonary alveolar proteinosis: Is it time to change strategy?", Journal of The Egyptian Society of Cardio-Thoracic Surgery., vol. 24, pp. 330- 337, 2016. proteinosis.pdf
Al-Nahas, Z., M. Fawzy, manal el menyawi, O. Shaker, and G. Ragab, "25-hydroxyvitamin D3 deficiency and vitamin D receptor polymorphisms in Egyptian patients with Behçet’s disease: a pilot study", International Journal of Clinical Rheumatology, vol. 12, pp. 20-27, 2017. Abstract
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Zhang, B., K. Khanoyan, H. Hatamkhani, H. Tong, K. Hu, S. Fallahi, M. Abdul-Latif, K. Vakilian, I. Fujimori, and A. Brewster, "A 28 Gb/s Multistandard Serial Link Transceiver for Backplane Applications in 28 nm CMOS", in Solid-State Circuits, IEEE Journal of, vol. 50, no. no.12: IEEE, pp. pp–3089, 2015. Abstract
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Nassar, A., K. Karam, A. El-Sayed, R. Ibrahim, G. Zayed, and S. Eltamimi, 2G & 3G Consistency Check Tool (SPOT), , Giza, Cairo University, 2013. Abstract

SPOT is a network optimization tool that performs Consistency Checks for both 2G and 3G Communication systems in mobile operators providing the ability to expand and work on new technologies such as the LTE based 4G system. The network optimization tool SPOT is done in cooperation with Vodafone Egypt, it aims at providing an automated tool that keeps hundreds of thousands of parameters under control all the time saving tons of precious working hours, saving manpower, and helping engineers to automatically keep track of the network at any time. It can also operate offline which makes it easy to be used anywhere. Having this tool in hands, engineers will no longer have to go through the long process of checks to conclude the network status in any area to get the defects, "SPOT" does this whole job in a few seconds and provides a simple way to store the results on the personal computer or even share them via e-mail. The tool doesn't just spot the defect and show it to the optimizer, but rather a future update of the tool will send a detailed report to the specialized team after generating the correct script needed to fix the errors in the network providing the ability to send the script through email easily. Apart from keeping track of such a massive amount of parameters, SPOT also performs many of the network optimizers' everyday jobs by providing 4 different relations checks for the 2G system with just a single click, and other 8 different relations mismatches for the 3G system and other fixed and customizable rules to prevent the errors caused by missing cell definitions and eventually improve the handover success rate and reduce the call drop rate, thus improving the GSM and CDMA network quality and the user experience. The tool is to be used by network optimizers in mobile operators on a daily basis, as it helps minimize the everyday repetitive work and keeps the system under control 24/7 spotting the errors anywhere on the system before experiencing a network failure, without the need for the dive testing process that takes time and consumes money. All results can be exported as Excel files to be sent to the proper sub-technology department responsible for taking action. The user-friendly frontend has been coded in java which makes it accessible for all kinds of computers. The tool is totally customizable giving the optimizer the space to check whichever rule he believes could better serve the network besides the built-in default settings. To conclude, simplicity and speed are what define "SPOT".

Nassar, A., K. Karam, A. El-Sayed, R. Ibrahim, G. Zayed, and S. Eltamimi, 2G & 3G Consistency Check Tool (SPOT), , Giza, Cairo University, 2013. Abstract

SPOT is a network optimization tool that performs Consistency Checks for both 2G and 3G Communication systems in mobile operators providing the ability to expand and work on new technologies such as the LTE based 4G system. The network optimization tool SPOT is done in cooperation with Vodafone Egypt, it aims at providing an automated tool that keeps hundreds of thousands of parameters under control all the time saving tons of precious working hours, saving manpower, and helping engineers to automatically keep track of the network at any time. It can also operate offline which makes it easy to be used anywhere. Having this tool in hands, engineers will no longer have to go through the long process of checks to conclude the network status in any area to get the defects, "SPOT" does this whole job in a few seconds and provides a simple way to store the results on the personal computer or even share them via e-mail. The tool doesn't just spot the defect and show it to the optimizer, but rather a future update of the tool will send a detailed report to the specialized team after generating the correct script needed to fix the errors in the network providing the ability to send the script through email easily. Apart from keeping track of such a massive amount of parameters, SPOT also performs many of the network optimizers' everyday jobs by providing 4 different relations checks for the 2G system with just a single click, and other 8 different relations mismatches for the 3G system and other fixed and customizable rules to prevent the errors caused by missing cell definitions and eventually improve the handover success rate and reduce the call drop rate, thus improving the GSM and CDMA network quality and the user experience. The tool is to be used by network optimizers in mobile operators on a daily basis, as it helps minimize the everyday repetitive work and keeps the system under control 24/7 spotting the errors anywhere on the system before experiencing a network failure, without the need for the dive testing process that takes time and consumes money. All results can be exported as Excel files to be sent to the proper sub-technology department responsible for taking action. The user-friendly frontend has been coded in java which makes it accessible for all kinds of computers. The tool is totally customizable giving the optimizer the space to check whichever rule he believes could better serve the network besides the built-in default settings. To conclude, simplicity and speed are what define "SPOT".

Nassar, A., K. Karam, A. El-Sayed, R. Ibrahim, G. Zayed, and S. Eltamimi, 2G & 3G Consistency Check Tool (SPOT), , Giza, Cairo University, 2013. Abstract

SPOT is a network optimization tool that performs Consistency Checks for both 2G and 3G Communication systems in mobile operators providing the ability to expand and work on new technologies such as the LTE based 4G system. The network optimization tool SPOT is done in cooperation with Vodafone Egypt, it aims at providing an automated tool that keeps hundreds of thousands of parameters under control all the time saving tons of precious working hours, saving manpower, and helping engineers to automatically keep track of the network at any time. It can also operate offline which makes it easy to be used anywhere. Having this tool in hands, engineers will no longer have to go through the long process of checks to conclude the network status in any area to get the defects, "SPOT" does this whole job in a few seconds and provides a simple way to store the results on the personal computer or even share them via e-mail. The tool doesn't just spot the defect and show it to the optimizer, but rather a future update of the tool will send a detailed report to the specialized team after generating the correct script needed to fix the errors in the network providing the ability to send the script through email easily. Apart from keeping track of such a massive amount of parameters, SPOT also performs many of the network optimizers' everyday jobs by providing 4 different relations checks for the 2G system with just a single click, and other 8 different relations mismatches for the 3G system and other fixed and customizable rules to prevent the errors caused by missing cell definitions and eventually improve the handover success rate and reduce the call drop rate, thus improving the GSM and CDMA network quality and the user experience. The tool is to be used by network optimizers in mobile operators on a daily basis, as it helps minimize the everyday repetitive work and keeps the system under control 24/7 spotting the errors anywhere on the system before experiencing a network failure, without the need for the dive testing process that takes time and consumes money. All results can be exported as Excel files to be sent to the proper sub-technology department responsible for taking action. The user-friendly frontend has been coded in java which makes it accessible for all kinds of computers. The tool is totally customizable giving the optimizer the space to check whichever rule he believes could better serve the network besides the built-in default settings. To conclude, simplicity and speed are what define "SPOT".

Ayyad, M., S. Amin, A. Samy, A. Tarek, A. Shalaby, M. Assem, and A. Farid, "2nd Iteration Cairo University Cube-Satellite", The 5th Nano-Satellite Symposium , Tokyo, Japan, 22 November, 2013.
Salem, M. E., A. F. Darweesh, A. E. M. Mekky, A. M. Farag, and A. H. M. Elwahy, "2‐Bromo‐1‐(1H‐pyrazol‐4‐yl) ethanone: Versatile Precursor for Novel Mono‐and Bis [pyrazolylthiazoles]", Journal of Heterocyclic Chemistry, vol. in press, 2016.
Salem, M. E., A. F. Darweesh, A. E. M. Mekky, A. M. Farag, and A. H. M. Elwahy, "2‐Bromo‐1‐(1H‐pyrazol‐4‐yl) ethanone: Versatile Precursor for Novel Mono‐and Bis [pyrazolylthiazoles]", Journal of Heterocyclic Chemistry, vol. 54, issue 1, pp. 226-234, 2017. farag-_j_het_chem-2017-1.pdf
Salem, M. E., A. F. Darweesh, A. E. M. Mekky, A. M. Farag, and A. H. M. Elwahy, "2‐Bromo‐1‐(1H‐pyrazol‐4‐yl) ethanone: Versatile Precursor for Novel Mono‐and Bis [pyrazolylthiazoles]", Journal of Heterocyclic Chemistry, vol. 54, issue 1, pp. 226-234, 2017. Abstract
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Salem, M. E., A. F. Darweesh, A. E. M. Mekky, A. M. Farag, and A. H. M. Elwahy, "2‐Bromo‐1‐(1H‐pyrazol‐4‐yl) ethanone: Versatile Precursor for Novel Mono‐and Bis [pyrazolylthiazoles]", Journal of Heterocyclic Chemistry, vol. 54, issue 1: Wiley Online Library, pp. 226-234, 2017. Abstract
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