Dr. Marples
Dr. Marples
My CV: Brian Marples, Ph.D.
Grants
- 1RO1CA227493-01 NIH/NCI "Targeting SMPDL3b to Prevent Radiation-Induced Nephrotoxicity.” The project investigates the molecular and cellular pathways of radiation nephropathy, and focuses on an enzyme sphingomyelin-phosphodiesterase acid-like-3b (SMPDL3b) in cell culture and animal models. (PIs Marples and Fornoni)
- 5U19AI067773-17: G16051 "Mitigating Viral Impact on Lung Radiosensitivity.” NIH Centers for Medical Countermeasures Against Radiation Consortium (CMCRC). The project investigates the molecular regulation of radiation-induced damage in the lung, and how these events affect the susceptibility and severity to pulmonary viral infections. (PI Marples)
- DOD GR531829 "A Novel Targeted Therapy for Metastases from TNBC.” To test a novel engineered macrophage that directly targets triple negative breast cancer to prevent and treat their metastasis in lung, bone, and brain. (PI-Yao, Co-I-Marples)
- 1S10OD021548-01 "SARRP 200 Platform for Image Guided Micro Irradiation.” (PI Marples)
- Wilmot Cancer Institute's Research Development Funding Program "Elucidating the Role of the Renin-Angiotensin Pathway in Development of Hemorrhagic Radiation Cystitis." (PIs Kerns and Marples)
Research
Radiobiology of Normal Tissues
- Collaborative project with Dr. Alessia Fornoni at the University of Miami
- Defining mechanisms of renal injury in cancer patients treated with radiotherapy.
- Assessing the role of sphingomyelinase in mediating radiation injury.
Radiation-Induced Bladder Injury
- Defining the molecular response of bladder injury.
- Characterizing of biomarkers of bladder injury and tissue recovery.
- Evaluation of medications targeting the angiotensin pathway as radioprotectors.
Radiation-Induced Lung Injury
- Defining gene expression changes in response to irradiation and role in acute and late toxicity.
- Investigating the role of macrophages in tissue remodeling after pulmonary irradiation.
- Functional studies to identify the risks of combined viral and radiation injury to the lungs.
Collaborative Studies
- Targeting triple negative breast cancer to prevent and treat their metastasis in lung, bone, brain
- Neural damage and neuroinflammation, microglial and preservation of cognitive function.
Staff & Student Researchers
- Angela Groves, Ph.D.
- Carl Johnston, Ph.D.
- Nicole Paris, Ph.D.
- Eric Hernady, M.S.
- William Leyman, U of R undergraduate student