Your search keyword '"Athar, MS"' showing total 6 results

1. Daycase trauma list: a safe and cost-effective service delivery

Author

Athar, MS, primary, Fazal, MA, additional, Ashwood, N, additional, Arealis, G, additional, Buchanan, D, additional, and Okoth, FH, additional

Published

2019

2. Acromioclavicular joint disruptions: A comparison of two surgical approaches ‘hook’ and ‘rope’

Author

Athar, MS, primary, Ashwood, Neil, additional, Arealis, Georgios, additional, Hamlet, Mark, additional, and Salt, Emma, additional

Published

2018

3. Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report, Volume 4 The DUNE Detectors at LBNF

Author

Acciarri, R, Acero, MA, Adamowski, M, Adams, C, Adamson, P, Adhikari, S, Ahmad, Z, Albright, CH, Alion, T, Amador, E, Anderson, J, Anderson, K, Andreopoulos, C, Andrews, M, Andrews, R, Anghel, I, Anjos, JD, Ankowski, A, Antonello, M, ArandaFernandez, A, Ariga, A, Ariga, T, Aristizabal, D, Arrieta-Diaz, E, Aryal, K, Asaadi, J, Asner, D, Athar, MS, Auger, M, Aurisano, A, Aushev, V, Autiero, D, Avila, M, Back, JJ, Bai, X, Baibussinov, B, Baird, M, Balantekin, AB, Baller, B, Ballett, P, Bambah, B, Bansal, M, Bansal, S, Barker, GJ, Barletta, WA, Barr, G, Barros, N, Bartoszek, L, Bashyal, A, Bass, M, Bay, F, Beacom, J, Behera, BR, Bellettini, G, Bellini, V, Beltramello, O, Benetti, PA, Bercellie, A, Bergevin, M, Berman, E, Berns, H, Bernstein, R, Bertolucci, S, Bhandari, B, Bhatnagar, V, Bhuyan, B, Bian, J, Biery, K, Bishai, M, Blackburn, T, Blake, A, Blaszczyk, FDM, Blaufuss, E, Bleakley, B, Blucher, E, Bocean, V, Boffelli, F, Boissevain, J, Bolognesi, S, Bolton, T, Bonesini, M, Boone, T, Booth, C, Bordoni, S, Borysova, M, Bourguille, B, Boyd, SB, Brailsford, D, Brandt, A, Bremer, J, Brice, S, Bromberg, C, Brooijmans, G, Brown, G, Brown, R, Brunetti, G, Bu, X, Buchanan, N, Budd, H, Bugg, B, Calafiura, P, Calligarich, E, Calvo, E, Camilleri, L, Campanelli, M, Cantini, C, Carls, B, Carr, R, Cascella, M, Castromonte, C, CatanoMur, E, Cavanna, F, Centro, S, CerveraVillanueva, A, Chandratre, VB, Chatterjee, A, Chattopadhyay, S, Chaussard, L, Chembra, S, Chen, H, Chen, K, Chen, M, Cherdack, D, Chi, C, Childress, S, Choubey, S, Choudhary, BC, Christodoulou, G, Christofferson, C, Church, E, Cianci, D, Cline, D, Coan, T, Cocco, A, Coelho, J, Cole, P, Collin, G, Conrad, JM, Convery, M, Corey, R, Corwin, L, Cranshaw, J, Crivelli, P, Cronin-Hennessy, D, Curioni, A, Cushing, J, Adams, DL, Dale, D, Das, SR, Davenne, T, Davies, GS, Davies, J, Dawson, J, De, K, deGouvea, A, deJong, JK, deJong, P, DeLurgio, P, Decowski, M, Delbart, A, Densham, C, Dharmapalan, R, Dhingra, N, DiLuise, S, Diamantopoulou, M, Diaz, JS, DiazBautista, G, Diwan, M, Djurcic, Z, Dolph, J, Drake, G, Duchesneau, D, Duvernois, M, Duyang, H, Dwyer, DA, Dye, S, Dytman, S, Eberly, B, Edgecock, R, Edmunds, D, Elliott, S, Elnimr, M, Emery, S, Endress, E, Eno, S, Ereditato, A, Escobar, CO, Evans, J, Falcone, A, Falk, L, Farbin, A, Farnese, C, Farzan, Y, Fava, A, Favilli, L, Felde, J, Felix, J, Fernandes, S, Fields, L, Finch, A, Fitton, M, Fleming, B, Forest, T, Fowler, J, Fox, W, Fried, J, Friedland, A, Fuess, S, Fujikawa, B, Gago, A, Gallagher, H, Galymov, S, Gamble, T, Gandhi, R, Garcia-Gamez, D, Gardiner, S, Garvey, G, Gehman, VM, Gendotti, A, Geronimo, GD, Ghag, C, Ghoshal, P, Gibin, D, Gil-Botella, I, Gill, R, Girardelli, D, Giri, A, Glavin, S, Goeldi, D, Golapinni, S, Gold, M, Gomes, RA, GomezCadenas, JJ, Goodman, MC, Gorbunov, D, Goswami, S, Graf, N, Graham, M, Gramelini, E, Gran, R, Grant, C, Grant, N, Greco, V, Greenlee, H, Greenler, L, Greenley, C, Groh, M, Grullon, S, Grundy, T, Grzelak, K, Guardincerri, E, Guarino, V, Guarnaccia, E, Guedes, GP, Guenette, R, Guglielmi, A, Habig, AT, Hackenburg, RW, Hackenburg, A, Hadavand, H, Haenni, R, Hahn, A, Haigh, MD, Haines, T, Hamernik, T, Handler, T, Hans, S, Harris, D, Hartnell, J, Hasegawa, T, Hatcher, R, Hatzikoutelis, A, Hays, S, Hazen, E, Headley, M, Heavey, A, Heeger, K, Heise, J, Hennessy, K, Hewes, J, Higuera, A, Hill, T, Himmel, A, Hogan, M, Holanda, P, Holin, A, Honey, W, Horikawa, S, Horton-Smith, G, Howard, B, Howell, J, Hurh, P, Huston, J, Hylen, J, Imlay, R, Insler, J, Introzzi, G, Ioanisyan, D, Ioannisian, A, Iwamoto, K, Izmaylov, A, Jackson, C, Jaffe, DE, James, C, James, E, Jediny, F, Jen, C, Jhingan, A, Jiménez, S, Jo, JH, Johnson, M, Johnson, R, Johnstone, J, Jones, BJ, Joshi, J, Jostlein, H, Jung, CK, Junk, T, Kaboth, A, Kadel, R, Kafka, T, Kalousis, L, Kamyshkov, Y, Karagiorgi, G, Karasavvas, D, Karyotakis, Y, Kaur, A, Kaur, P, Kayser, B, Kazaryan, N, Kearns, E, Keener, P, Kemboi, S, Kemp, E, Kettell, SH, Khabibullin, M, Khandaker, M, Khotjantsev, A, Kirby, B, Kirby, M, Klein, J, Kobilarcik, T, Kohn, S, Koizumi, G, Kopylov, A, Kordosky, M, Kormos, L, Kose, U, Kostelecky, A, Kramer, M, Kreslo, I, Kriske, R, Kropp, W, Kudenko, Y, Kudryavtsev, VA, Kulagin, S, Kumar, A, Kumar, G, Kumar, J, Kumar, L, Kutter, T, Laminack, A, Lande, K, Lane, C, Lang, K, Lanni, F, Learned, J, Lebrun, P, Lee, D, Lee, H, Lee, K, Lee, WM, LeiguideOliveira, MA, Li, Q, Li, S, Li, X, Li, Y, Li, Z, Libo, J, Lin, CS, Lin, S, Ling, J, Link, J, Liptak, Z, Lissauer, D, Littenberg, L, Littlejohn, B, Liu, Q, Liu, T, Lockwitz, S, Lockyer, N, Loew, T, Lokajicek, M, Long, K, Lopes, MDL, Lopez, JP, Losecco, J, Louis, W, Lowery, J, Luethi, M, Luk, K, Lundberg, B, Lundin, T, Luo, X, Lux, T, Lykken, J, Machado, AA, Macier, JR, Magill, S, Mahler, G, Mahn, K, Malek, M, Malhotra, S, Malon, D, Mammoliti, F, Mancina, S, Mandal, SK, Mandodi, S, Manly, SL, Mann, A, Marchionni, A, Marciano, W, Mariani, C, Maricic, J, Marino, A, Marshak, M, Marshall, C, Marshall, J, Marteau, J, Martin-Albo, J, Martinez, D, Matsuno, S, Matthews, J, Mauger, C, Mavrokoridis, K, Mayilyan, D, Mazzucato, E, McCauley, N, McCluskey, E, McConkey, N, McDonald, K, McFarland, KS, McGowan, AM, McGrew, C, McKeown, R, McNulty, D, McTaggart, R, Mefodiev, A, Mehrian, M, Mehta, P, Mei, D, Mena, O, Menary, S, Mendez, H, Menegolli, A, Meng, G, Meng, Y, Merritt, H, Mertins, D, Messier, M, Metcalf, W, Mewes, M, Meyer, H, Miao, T, Milincic, R, Miller, W, Mills, G, Mineev, O, Miranda, O, Mishra, CS, Mishra, SR, Mitrica, B, Mladenov, D, Mocioiu, I, Mohanta, R, Mokhov, N, Montanari, C, Montanari, D, Moon, J, Mooney, M, Moore, C, Morfin, J, Morgan, B, Morris, C, Morse, W, Moss, Z, Mossey, C, Moura, CA, Mousseau, J, Mualem, L, Muether, M, Mufson, S, Murphy, S, Musser, J, Musser, R, Nakajima, Y, Naples, D, Navarro, J, Navas, D, Nelson, J, Nessi, M, Newcomer, M, Ng, Y, Nichol, R, Nicholls, TC, Nikolics, K, Niner, E, Norris, B, Noto, F, Novakova, P, Novella, P, Nowak, J, Nunes, MS, O'Keeffe, H, Oldeman, R, Oliveira, R, Olson, T, Onishchuk, Y, Osta, J, Ovsjannikova, T, Page, B, Pakvasa, S, Pal, S, Palamara, O, Palazzo, A, Paley, J, Palomares, C, Pantic, E, Paolone, V, Papadimitriou, V, Park, J, Parke, S, Parsa, Z, Pascoli, S, Patterson, R, Patton, S, Patzak, T, Paulos, B, Paulucci, L, Pavlovic, Z, Pawloski, G, Peeters, S, Pennacchio, E, Perch, A, Perdue, GN, Periale, L, Perkin, JD, Pessard, H, Petrillo, G, Petti, R, Petukhov, A, Pietropaolo, F, Plunkett, R, Pordes, S, Potekhin, M, Potenza, R, Potukuchi, B, Poudyal, N, Prokofiev, O, Pruthi, N, Przewlocki, P, Pushka, D, Qian, X, Raaf, JL, Raboanary, R, Radeka, V, Radovic, A, Raffelt, G, Rakhno, I, Rakotondramanana, HT, Rakotondravohitra, L, Ramachers, YA, Rameika, R, Ramsey, J, Rappoldi, A, Raselli, G, Ratoff, P, Rebel, B, Regenfus, C, Reichenbacher, J, Reitzner, D, Remoto, A, Renshaw, A, Rescia, S, Richardson, M, Rielage, K, Riesselmann, K, Robinson, M, Rochester, L, Rodrigues, OB, Rodrigues, P, Roe, B, Rosen, M, Roser, RM, Ross-Lonergan, M, Rossella, M, Rubbia, A, Rubbia, C, Rucinski, R, RudolphvonRohr, C, Russell, B, Ruterbories, D, Saakyan, R, Sahu, N, Sala, P, Samios, N, Sanchez, F, Sanchez, M, Sands, B, Santana, S, Santorelli, R, Santucci, G, Saoulidou, N, Scaramelli, A, Schellman, H, Schlabach, P, Schmitt, R, Schmitz, D, Schneps, J, Scholberg, K, Schukraft, A, Schwehr, J, Segreto, E, Seibert, S, Sepulveda-Quiroz, JA, Sergiampietri, F, Sexton-Kennedy, L, Sgalaberna, D, Shaevitz, M, Shahi, J, Shahsavarani, S, Shanahan, P, Shankar, SU, Sharma, R, Sharma, RK, Shaw, T, Shrock, R, Shyrma, I, Simos, N, Sinev, G, Singh, I, Singh, J, Singh, V, Sinnis, G, Sippach, W, Smargianaki, D, Smy, M, Snider, E, Snopok, P, Sobczyk, J, Sobel, H, Soderberg, M, Solomey, N, Sondheim, W, Sorel, M, Sousa, A, Soustruznik, K, Spitz, J, Spooner, NJ, Stancari, M, Stancu, I, Stefan, D, Steiner, HM, Stewart, J, Stock, J, Stoica, S, Stone, J, Strait, J, Strait, M, Strauss, T, Striganov, S, Sulej, R, Sullivan, G, Sun, Y, Suter, L, Sutera, CM, Svoboda, R, Szczerbinska, B, Szelc, A, Söldner-Rembold, S, Talaga, R, Tamsett, M, Tariq, S, Tatar, E, Tayloe, R, Taylor, C, Taylor, D, Terao, K, Thiesse, M, Thomas, J, Thompson, LF, Thomson, M, Thorn, C, Thorpe, M, Tian, X, Tiedt, D, Timm, SC, Tonazzo, A, Tope, T, Topkar, A, Torres, FR, Torti, M, Tortola, M, Tortorici, F, Toups, M, Touramanis, C, Tripathi, M, Tropin, I, Tsai, Y, Tsang, KV, Tsenov, R, Tufanli, S, Tull, C, Turner, J, Tzanov, M, Tziaferi, E, Uchida, Y, Urheim, J, Usher, T, Vagins, M, Vahle, P, Valdiviesso, GA, Valerio, L, Vallari, Z, Valle, J, VanBerg, R, VandeWater, R, VanGemmeren, P, Varanini, F, Varner, G, Vasseur, G, Vaziri, K, Velev, G, Ventura, S, Verdugo, A, Viant, T, Vieira, TV, Vignoli, C, Vilela, C, Viren, B, Vrba, T, Wachala, T, Wahl, D, Wallbank, M, Walsh, N, Wang, B, Wang, H, Wang, L, Wang, T, Warburton, TK, Warner, D, Wascko, M, Waters, D, Watson, TB, Weber, A, Weber, M, Wei, W, Weinstein, A, Wells, D, Wenman, D, Wetstein, M, White, A, Whitehead, L, Whittington, D, Wilking, M, Willhite, J, Wilson, P, Wilson, RJ, Winslow, L, Wittich, P, Wojcicki, S, Wong, HH, Wood, K, Worcester, E, Worcester, M, Wu, S, Xin, T, Yanagisawa, C, Yang, S, Yang, T, Yarritu, K, Ye, J, Yeh, M, Yershov, N, Yonehara, K, Yu, B, Yu, J, Zalesak, J, Zalewska, A, Zamorano, B, Zang, L, Zani, A, Zavala, G, Zeller, G, Zhang, C, Zimmerman, ED, Zito, M, Zwaska, R, Institut de Physique Nucléaire de Lyon (IPNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), DUNE, Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)

Subjects

Condensed Matter::Soft Condensed Matter, High Energy Physics - Experiment (hep-ex), Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], FOS: Physical sciences, High Energy Physics::Experiment, Instrumentation and Detectors (physics.ins-det), Nonlinear Sciences::Pattern Formation and Solitons, Physics::Geophysics, High Energy Physics - Experiment

Abstract

A description of the proposed detector(s) for DUNE at LBNF

Published

2016

4. Multifunctional electrospun nanofibrous scaffold enriched with alendronate and hydroxyapatite for balancing osteogenic and osteoclast activity to promote bone regeneration.

Author

Anjum S, Arya DK, Saeed M, Ali D, Athar MS, Yulin W, Alarifi S, Wu X, Rajinikanth PS, and Ao Q

Abstract

Electrospun composite nanofiber scaffolds are well known for their bone and tissue regeneration applications. This research is focused on the development of PVP and PVA nanofiber composite scaffolds enriched with hydroxyapatite (HA) nanoparticles and alendronate (ALN) using the electrospinning technique. The developed nanofiber scaffolds were investigated for their physicochemical as well as bone regeneration potential. The results obtained from particle size, zeta potential, SEM and EDX analysis of HA nanoparticles confirmed their successful fabrication. Further, SEM analysis verified nanofiber's diameters within 200-250 nm, while EDX analysis confirmed the successful incorporation of HA and ALN into the scaffolds. XRD and TGA analysis revealed the amorphous and thermally stable nature of the nanofiber composite scaffolds. Contact angle, FTIR analysis, Swelling and biodegradability studies revealed the hydrophilicity, chemical compatibility, suitable water uptake capacity and increased in-vitro degradation making it appropriate for tissue regeneration. The addition of HA into nanofiber scaffolds enhanced the physiochemical properties. Additionally, hemolysis cell viability, cell adhesion and proliferation by SEM as well as confocal microscopy and live/dead assay results demonstrated the non-toxic and biocompatibility behavior of nanofiber scaffolds. Alkaline phosphatase (ALP) and tartrate-resistant acid phosphatase (TRAP) assays demonstrated osteoblast promotion and osteoclast inhibition, respectively. These findings suggest that developed HA and ALN-loaded PVP/PVA-ALN-HA nanofiber composite scaffolds hold significant promise for bone regeneration applications., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Anjum, Arya, Saeed, Ali, Athar, Yulin, Alarifi, Wu, Rajinikanth and Ao.)

Published

2023

5. Fabrication of Direct Z-Scheme CoNiWO 4 /Ph-gC 3 N 4 Heterocomposites: Enhanced Photodegradation of Bisphenol A and Anticancer Activity.

Author

Athar MS, Rasool Z, Muneer M, M Altass H, Althagafi II, and Ahmed SA

Abstract

Photocatalysis is realized by the design of a visible-light-active catalyst with robust redox capacity and broad absorption. In this study, a series of novel Z-scheme CoNiWO 4 /Ph-gC 3 N 4 photocatalysts are synthesized to improve their redox property and photocatalytic activity toward broad visible light absorption. An intimate stable heterojunction is made between cobalt-nickel tungstate (CoNiWO 4 ) and phenyl-doped graphitic carbon nitride (Ph-gC 3 N 4 ), and its physicochemical properties are studied. The bifunctional properties of all of the synthesized materials were assessed by studying the decomposition of bisphenol A (BPA) and methyl orange (MO) dye as model pollutants, followed by an evaluation of their anticancer activity on human lung cancer cell lines. The photocatalyst with 20 wt % CoNiWO 4 heterocomposite showed an enhanced response toward the removal of cancerous cells. The synthesized pristine CoNiWO 4 and Ph-gC 3 N 4 exhibit well-matched band structures and, hence, make it easier to create a Z-scheme heterocomposite. This may increase the lifetime of photoinduced charge carriers with a high redox power, thereby improving their photocatalytic and anticancer activity. An extensive analysis of the mechanism demonstrates that hydroxyl radicals ( • OH) and superoxide radical anions ( • O 2 - ) are responsible for the degradation of organic compounds via Z-scheme charge transfer approach. These findings point toward a new route for creating effective Co-Ni tungstate-based direct Z-scheme photocatalysts for various redox processes, particularly the mineralization of resistant organic molecules., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

6. Modification of Mathieu procedure to repair anterior hypospadias.

Author

Mehmood MT, Ahmed J, Athar MS, and Ashraf MS

Subjects

Child, Child, Preschool, Cohort Studies, Follow-Up Studies, Humans, Hypospadias diagnosis, Male, Postoperative Complications diagnosis, Risk Assessment, Suture Techniques, Treatment Outcome, Urologic Surgical Procedures, Male adverse effects, Hypospadias surgery, Surgical Flaps, Urologic Surgical Procedures, Male methods

Abstract

Objective: To assess the results of one-stage repair of anterior hypospadias using modified Mathieu procedure., Design: An interventional study., Place and Duration of Study: Department of Paediatric Surgery, Dow Medical College and Civil Hospital Karachi, from September 1997 to December 2003., Patients and Methods: All the patients with anterior hypospadias without or with minimal chordee were included. Patients with hypoplastic urethra or re-do surgery were excluded. Modified Mathieu repair was performed in all cases. The modifications used were interrupted inverting sutures of 5/0 polyglycolic acid for urethroplasty; neourethra covering with subcutaneous (dartos) pedicle flap, developed from the preputial or penile shaft skin and dorsal / anterior meatotomy for meatal stenosis., Results: A total of 69 patients with anterior hypospadias were operated using modified Mathieu s repair. Only two patients (2.89%) developed urethrocutaneous fistula. Five patients developed partial devitalisation of the covering skin while one patient had complete breakdown., Conclusion: Modified Mathieu s procedure is an effective method, to repair the anterior hypospadias without or with minimal chordee.

Published

2006