| Effect of magnetic dipolar interactions on nanoparticle heating efficiency: Implications for cancer hyperthermia LC Branquinho, MS Carriăo, AS Costa, N Zufelato, MH Sousa, R Miotto, ... Scientific reports 3 (1), 2887, 2013 | 401 | 2013 |
| Physics of heat generation using magnetic nanoparticles for hyperthermia CL Dennis, R Ivkov International Journal of Hyperthermia 29 (8), 715-729, 2013 | 377 | 2013 |
| Magnetic hyperthermia therapy for the treatment of glioblastoma: a review of the therapy’s history, efficacy and application in humans K Mahmoudi, A Bouras, D Bozec, R Ivkov, C Hadjipanayis International Journal of Hyperthermia 34 (8), 1316-1328, 2018 | 343 | 2018 |
| Nearly complete regression of tumors via collective behavior of magnetic nanoparticles in hyperthermia CL Dennis, AJ Jackson, JA Borchers, PJ Hoopes, R Strawbridge, ... Nanotechnology 20 (39), 395103, 2009 | 334 | 2009 |
| Development of Tumor Targeting Bioprobes (111In-Chimeric L6 Monoclonal Antibody Nanoparticles) for Alternating Magnetic Field Cancer Therapy SJ DeNardo, GL DeNardo, LA Miers, A Natarajan, AR Foreman, ... Clinical cancer research 11 (19), 7087s-7092s, 2005 | 279 | 2005 |
| Heating technology for malignant tumors: A review HP Kok, ENK Cressman, W Ceelen, CL Brace, R Ivkov, H Grüll, ... International Journal of Hyperthermia 37 (1), 711-741, 2020 | 269 | 2020 |
| Cancer therapy with iron oxide nanoparticles: Agents of thermal and immune therapies F Soetaert, P Korangath, D Serantes, S Fiering, R Ivkov Advanced drug delivery reviews 163, 65-83, 2020 | 264 | 2020 |
| Colloid stability: The forces between charged surfaces in an electrolyte JP Valleau, R Ivkov, GM Torrie The Journal of chemical physics 95 (1), 520-532, 1991 | 261 | 1991 |
| Application of high amplitude alternating magnetic fields for heat induction of nanoparticles localized in cancer R Ivkov, SJ DeNardo, W Daum, AR Foreman, RC Goldstein, VS Nemkov, ... Clinical cancer research 11 (19), 7093s-7103s, 2005 | 241 | 2005 |
| Thermal dosimetry predictive of efficacy of 111In-ChL6 nanoparticle AMF–induced thermoablative therapy for human breast cancer in mice SJ DeNardo, GL DeNardo, A Natarajan, LA Miers, AR Foreman, ... Journal of Nuclear Medicine 48 (3), 437-444, 2007 | 216 | 2007 |
| Synthesis and antibody conjugation of magnetic nanoparticles with improved specific power absorption rates for alternating magnetic field cancer therapy C Grüttner, K Müller, J Teller, F Westphal, A Foreman, R Ivkov Journal of Magnetism and Magnetic Materials 311 (1), 181-186, 2007 | 194 | 2007 |
| Magnetic nanoparticle heating efficiency reveals magneto-structural differences when characterized with wide ranging and high amplitude alternating magnetic fields DE Bordelon, C Cornejo, C Grüttner, F Westphal, TL DeWeese, R Ivkov Journal of Applied Physics 109 (12), 2011 | 180 | 2011 |
| Therapy via targeted delivery of nanoscale particles R Ivkov, W Daum, A Foreman, D Gwost US Patent App. 10/696,399, 2005 | 160 | 2005 |
| Thermotherapy via targeted delivery of nanoscale magnetic particles ES Handy, R Ivkov, D Ellis-Busby, A Foreman, SJ Braunhut, DU Gwost, ... US Patent 6,997,863, 2006 | 157 | 2006 |
| Thermotherapy via targeted delivery of nanoscale magnetic particles ES Handy, R Ivkov, D Ellis-Busby, A Foreman US Patent 7,074,175, 2006 | 152 | 2006 |
| Size invariance of polyelectrolyte dendrimers G Nisato, R Ivkov, EJ Amis Macromolecules 33 (11), 4172-4176, 2000 | 151 | 2000 |
| Magnetic nanoparticle hyperthermia enhances radiation therapy: A study in mouse models of human prostate cancer A Attaluri, SK Kandala, M Wabler, H Zhou, C Cornejo, M Armour, ... International Journal of Hyperthermia 31 (4), 359-374, 2015 | 143 | 2015 |
| NanoFerrite particle based radioimmunonanoparticles: binding affinity and in vivo pharmacokinetics A Natarajan, C Gruettner, R Ivkov, GL DeNardo, G Mirick, A Yuan, ... Bioconjugate chemistry 19 (6), 1211-1218, 2008 | 137 | 2008 |
| Nanoparticle interactions with immune cells dominate tumor retention and induce T cell–mediated tumor suppression in models of breast cancer P Korangath, JD Barnett, A Sharma, ET Henderson, J Stewart, SH Yu, ... Science advances 6 (13), eaay1601, 2020 | 128 | 2020 |
| Internal magnetic structure of nanoparticles dominates time‐dependent relaxation processes in a magnetic field CL Dennis, KL Krycka, JA Borchers, RD Desautels, J Van Lierop, NF Huls, ... Advanced Functional Materials 25 (27), 4300-4311, 2015 | 124 | 2015 |
Theodore DeWeeseJohns Hopkins UniversityVerified email at jhmi.edu
