A
Amit Agrawal
Researcher at All India Institute of Medical Sciences
Publications - 1013
Citations - 13532
Amit Agrawal is an academic researcher from All India Institute of Medical Sciences. The author has contributed to research in topics: Medicine & Terahertz radiation. The author has an hindex of 47, co-authored 882 publications receiving 10465 citations. Previous affiliations of Amit Agrawal include University of California, San Diego & Maharishi Markandeshwar University, Mullana.
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Journal ArticleDOI
Estimating the global incidence of traumatic brain injury
Michael C. Dewan,Abbas Rattani,Saksham Gupta,Ronnie E. Baticulon,Ya-Ching Hung,Maria Punchak,Amit Agrawal,Amos Olufemi Adeleye,Mark G. Shrime,Andres M. Rubiano,Jeffrey V. Rosenfeld,Kee B. Park +11 more
TL;DR: The case burden of TBI across World Health Organization regions and World Bank income groups was sought to promote advocacy, understanding, and targeted intervention, and study quality was higher in the high-income countries (HICs) than in the low- and middle- Income countries (LMICs).
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Computationally Guided Photothermal Tumor Therapy Using Long-Circulating Gold Nanorod Antennas
Geoffrey von Maltzahn,Ji-Ho Park,Amit Agrawal,Nanda Kishor Bandaru,Sarit K. Das,Michael J. Sailor,Sangeeta N. Bhatia +6 more
TL;DR: An integrated approach to improved plasmonic therapy composed of multimodal nanomaterial optimization and computational irradiation protocol development is described and a single i.v. injection of PEG-NRs enabled destruction of all irradiated human xenograft tumors in mice.
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Electron Vortex Beams with High Quanta of Orbital Angular Momentum
Benjamin J. McMorran,Amit Agrawal,Amit Agrawal,Ian M. Anderson,Andrew A. Herzing,Henri J. Lezec,Jabez J. McClelland,John Unguris +7 more
TL;DR: It is described how the electrons can exhibit such orbital motion in free space in the absence of any confining potential or external field, and how these beams can be applied to improved electron microscopy of magnetic and biological specimens.
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Imaging and Tracking of Tat Peptide-Conjugated Quantum Dots in Living Cells: New Insights into Nanoparticle Uptake, Intracellular Transport, and Vesicle Shedding
TL;DR: The use of Tat peptide-conjugated quantum dots (Tat-QDs) is reported to examine the complex behavior of nanoparticle probes in live cells, a topic that is of considerable current interest in developing advanced nanoparticle agents for molecular and cellular imaging.
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Optics of photonic quasicrystals
TL;DR: The optical characteristics and applications of the quasicrystal, a special form of aperiodic engineered structure, are explored in this paper, where optical properties and applications are explored.