D
Divya Balachandran Kurup
Researcher at Harvard University
Publications - 6
Citations - 648
Divya Balachandran Kurup is an academic researcher from Harvard University. The author has contributed to research in topics: Acute abdomen & Abdomen. The author has an hindex of 6, co-authored 6 publications receiving 558 citations.
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Journal ArticleDOI
Effect of pulsing in low-level light therapy.
Javad T. Hashmi,Ying-Ying Huang,Ying-Ying Huang,Sulbha K. Sharma,Divya Balachandran Kurup,Luis De Taboada,James D. Carroll,Michael R. Hamblin +7 more
TL;DR: Low level light (or laser) therapy is used to increase wound healing and tissue regeneration, to relieve pain and inflammation, to prevent tissue death, to mitigate degeneration in many neurological indications.
Journal ArticleDOI
Topical Antimicrobials for Burn Wound Infections
Tianhong Dai,Ying-Ying Huang,Sulbha K. Sharma,Javad T. Hashmi,Divya Balachandran Kurup,Michael R. Hamblin +5 more
TL;DR: This review will cover patented strategies that have been issued or filed with regard to new topical agents, preparations, and methods of combating burn infections.
Journal ArticleDOI
Photodynamic therapy with a cationic functionalized fullerene rescues mice from fatal wound infections.
Zongshun Lu,Tianhong Dai,Liyi Huang,Liyi Huang,Divya Balachandran Kurup,George P. Tegos,George P. Tegos,Ashlee A. Jahnke,Tim Wharton,Michael R. Hamblin +9 more
TL;DR: It is suggested that cationic fullerenes have clinical potential as an antimicrobial photosensitizer for superficial infections where red light is not needed to penetrate tissue.
Journal ArticleDOI
Synthesis and characterization of highly photoresponsive fullerenyl dyads with a close chromophore antenna–C60 contact and effective photodynamic potential
Long Y. Chiang,Prashant A. Padmawar,Joy E. Rogers-Haley,Grace So,Taizoon Canteenwala,Sammaiah Thota,Loon-Seng Tan,Kenneth P.H. Pritzker,Ying-Ying Huang,Ying-Ying Huang,Sulbha K. Sharma,Divya Balachandran Kurup,Michael R. Hamblin,Michael R. Hamblin,Brian J. Wilson,Augustine Urbas +15 more
TL;DR: The synthesis of a new class of photoresponsive C(60)-DCE-diphenylaminofluorene nanostructures and their intramolecular photoinduced energy and electron transfer phenomena is reported and interpreted in terms of the contributions by the extended π-conjugation and stronger electron-withdrawing capability associated with the 1,1-dicyanoethylenyl group compared to that of the keto group.