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Douglas S. Scherr (born January 7, 1967) is an American surgeon and specialist in Urologic Oncology. He is currently the Clinical Director of Urologic Oncology at Weill Cornell Medicine.[1] He also holds an appointment at the Rockefeller University as a Visiting Associate Physician. Scherr was the first physician at Cornell to perform a robotic prostatectomy as well as a robotic cystectomy.[2][3]
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A native of New York, Scherr studied at Cornell University and received an undergraduate degree in government. Scherr spent a year abroad in Shenyang, China, after which he attended medical school at the George Washington University School of MedicineWashington, D.C. Subsequently, he completed a 6-year residency in Urology at the New York-Presbyterian Hospital and a Fellowship in Urologic Oncology at Memorial Sloan Kettering Cancer Center for two years. He is married to Jennifer Scherr and they have three children.
Scherr specializes in treating urologic malignancies. His focus is on the treatment of prostate cancer, bladder cancer, kidney cancer, testicular cancer, and genitourinary and retroperitoneal sarcomas. He performs robotic assisted removal of bladders with total bladder reconstructions, along with colleague Shahrokh Shariat.
He sits on several advisory boards in companies involved in urologic technology development. He has been influential in the ergonomics of robotic technology. He has been active in the development of optical coherence tomography and its application to urologic imaging.
Also active in the Laboratory of Urologic Oncology, Scherr has been instrumental in defining the hormonal regulation of bladder cancer and is currently developing a novel class of compounds that utilize the innate immune system to fight urologic tumors. He is working on the development of a non-invasive means to assess human tissue at the microscopic level. To this end, he has patented and developed the concept of “multiphoton endoscopy” which utilizes high speed laser energy to create high quality microscopic images of human tissue. This breakthrough has vast applications in cystoscopy, colonoscopy and bronchoscopy.
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