Division Laboratories
Attardi Lab
Academic Profile
Phone: (650) 725-8424
Fax: (650) 723-7382
Email: attardi@stanford.edu
Research Emphasis
Defining the pathways of p53-mediated apoptosis and tumor suppression, using a combination of biochemical, cell biological, and mouse genetic approaches.
Diehn Lab
Academic Profile
Phone: (650) 721-1550
Fax: (650) 725-8231
Email: diehn@stanford.edu
Research Emphasis
To develop a better understanding of the initiation, maintenance, progression, and treatment response of carcinomas.
Esfahani Lab
Academic Profile
Email: shahrokh@stanford.edu
Research Emphasis
To decipher the complexities of cancer, from initiation to progression, by developing and applying novel machine learning (ML) and artificial intelligence (AI) algorithms.
Frock Lab
Academic Profile
Phone: (650) 736-4757
Fax: (650) 723-4757
Email: frock@stanford.edu
Research Emphasis
The genome-wide fate of various forms of double-stranded DNA breaks (DSBs).
Rankin Lab
Academic Profile
Phone: (650) 497-8742
Fax: (650) 723-7254
Email: erankin@stanford.edu
Research Emphasis
The role of hypoxia-inducible factors in tumorigenesis.
Sheltzer Lab
Academic Profile
Phone: (650) 721-8685
Email: sheltzer@stanford.edu
Research Emphasis
The genetic changes that drive cancer progression and cause developmental disabilities
Ye Lab
Academic Profile
Phone: (650) 497-8742
Fax: (650) 723-7254
Email: yej1@stanford.edu
Research Emphasis
Metabolic reprogramming in cancer.
Affiliated Laboratories
| Lab | Department | Research Emphasis |
| Binkley | Radiation Oncology | Characterization of patient specific biomarkers to inform clinical decisions |
| Graves | Radiation Oncology | Applications of emerging functional and molecular imaging techniques in radiation therapy of cancer. |
| Kalbasi | Radiation Oncology | Re-engineering molecular conversations between cancer cells for immunotherapy and radiation therapy |
| Le | Radiation Oncology | Identification of serum markers for tumor hypoxia and for prognosis in patients with head and neck or lung cancers |
| Li | Radiation Oncology | Development and application of machine learning approaches for medical imaging analysis and precision oncology |
| Loo | Radiation Oncology | Radiation treatment of lung cancer and head & neck cancers. 4-D multimodality imaging of tumor and organ motion using CT, PET, and MR; novel functional/metabolic imaging of tumor hypoxia. |
| Moding | Radiation Oncology | Non-invasively investigating the therapeutic response of human cancers |
| Pratx | Radiation Oncology | Imaging of radionuclides with single-cell resolution, x-ray molecular imaging and high-performance medical computing. |
| Ross | Radiation Oncology | Investigation of normal, dysfunctional, and malignant stem cells in aging, cancer, and chronic disease |
| Radiation Oncology | Image-guided intervention, MR spectroscopic imaging (MRSI) and radionuclide imaging (PET/CT, SPECT/CT), biologically conformable radiation threapy (BCRT), intensity modulated radiation therapy (IMRT), application of molecular imaging to radiation oncology. |