111 South 11th Street
Room G-302, Bodine Center
Philadelphia, PA 19107
(215) 955-6659
(215) 955-0412 fax
Room G-302, Bodine Center
Philadelphia, PA 19107
(215) 955-6659
(215) 955-0412 fax
Most Recent Peer-reviewed Publications
- Investigation of acoustic radiation force for radio-protecting normal tissues during radiation therapy
- Acoustic radiation force and optical spectroscopy for assessing tumor vessel normalization during anti-angiogenic therapy
- Acoustic radiation force and optical spectroscopy for assessing tumor vessel normalization during anti-angiogenic therapy.
- Investigation of acoustic radiation force for radio-protecting normal tissues during radiation therapy.
- Combination of Vandetanib, Radiotherapy, and Irinotecan in the LoVo Human Colorectal Cancer Xenograft Model
- Quercetin selectively inhibits bioreduction and enhances apoptosis in melanoma cells that overexpress tyrosinase
- VEGF Trap in Combination With Radiotherapy Improves Tumor Control in U87 Glioblastoma
- Epigenetic modulation of endogenous tumor suppressor expression in lung cancer xenografts suppresses tumorigenicity
- Effects of androgen suppression and radiation on prostate cancer s 1254 uggest a role for angiogenesis blockade
- Effect of the tumor vascular-damaging agent, ZD6126, on the radioresponse of U87 glioblastoma
- Improving tumor response to radiotherapy by targeting angiogenesis signaling pathways
- Acute extracellular acidification reduces intracellular pH, 42°C-induction of heat shock proteins and clonal survival of human melanoma cells grown at pH 6.7
- Quercetin sensitizes cells in a tumour-like low pH environment to hyperthermia
- Role of lipid-soluble complexes in targeted tumor therapy
- Tumor response to ionizing radiation combined with antiangiogenesis or vascular targeting agents: Exploring mechanisms of interaction
- Tumor oxygenation and acidification are increased in melanoma xenografts after exposure to hyperglycemia and meta-iodo-benzylguanidine
- Acute extracellular acidification increases nuclear associated protein levels in human melanoma cells during 42°C hyperthermia and enhances cell killing
- Hsp27 protects the cytoskeleton and nucleus from the effects of 42°C at pH 6.7 in CHO cells adapted to growth at pH 6.7
- Betulinic acid sensitization of low pH adapted human melanoma cells to hyperthermia
- Variability in glucose transporter-1 levels and hexokinase activity in human melanoma