DEV SITE
Brian Flynn, MD
Urogynecology & Reconstructive Pelvic Surgery
Locations
Practice Locations
UCHealth Urology Clinic - Anschutz Medical Campus
720-848-1800
Provider Expertise
Clinical Interest for Patients
I am interested in functional and reconstructive urology, robotic surgery, urodynamics with emphasis on female and male incontinence, pelvic organ prolapse, urethral stricture disease, genitourinary fistula surgery, ureteral and bladder reconstruction.
Care Philosophy
Treat all patients to the best of my ability, as I would want to be treated. Individualize each patient’s treatment based on his or her specific needs and desires. I tell our fellows, residents and students when faced with a clinical dilemma of what to recommend for a patent, "just put yourself in their shoes when possible and the decision should become very clear."
Specialties
- Urogynecology & Reconstructive Pelvic Surgery ( 2014 , 2014 )
- Urology ( 2004 )
Conditions & Treatments
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Kidneys and Urinary System
Bladder Disease, Incontinence, Reconstructive Pelvic Surgery, Reconstructive Urology
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Surgery
Robotic, Urologic
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Women's Health
Pelvic Organ Prolapse
Interests & Activities
Personal Interests
I enjoy electronics/technology/internet/history, trail running, hiking, skiing, mountain biking, crossfit and spending time with my family.
Volunteer Activities
Denver VA Hospital
Education & Training
Medical Schools
MD, Temple University School of Medicine (1995)
Undergraduate Schools
BS, University of Rochester (NY) (1991)
Internships
Geisinger Health System Program (1996)
Residency Program
Geisinger Health System Program (2001)
Fellowships
Duke University Hospital Program (2002)
Professional Memberships
American Urological Association, Member
American Urological Association, South Central Section, Past President
North American Robotic Urologic Surgeons, Member
Rocky Mountain Urological Society, Educational Chair
Society of Genitourinary Reconstructive Surgeons, Member
Society of Urodynamics, Female Pelvic Medicine and Urogenital Reconstruction, Member
Research & Grants
Grants
Cook Myosite Phase III 15-06-03-US: Adaptive Design Study of Autologous Muscle Derived Cells Compared to Placebo for Female Urinary Sphincter Repair (CELLEBRATE). Industrial sponsorship, multi-institutional study, Cook, Pittsburgh, Pennsylvania (2020)
Boston Scientific AUSCOS – U0669: Artificial Urinary Sphincter Clinical Outcomes and Safety. Clinical events committee member. Responsible for adjudication of pre-specified events as they occur (2020)
Uromedica ACT (2023)
Uromedica PAS (2023)
Research Interests for Patients
I am interested in clinical outcome research. I prospectively maintain a databank of cases from my practice with a special focus on urinary incontinence, pelvic organ prolapse, mesh removal, robotic surgery and urethral stricture disease. I have authored numerous clinical papers, instructional videos and textbook chapters and have presented nationally on various topics including urinary incontinence, pelvic organ prolapse, transvaginal mesh removal and urethral stricture disease. I have received funding for scientific research in the area of voiding dysfunction.
information for referring providers
Referral Contact Phone
(720) 848-1800
Referral Contact Fax
720-848-2609
Clinical Interests for Referring Providers
I am interested in functional and reconstructive urology, robotic surgery, urodynamics with emphasis on female and male incontinence, pelvic organ prolapse, urethral stricture disease, genitourinary fistula surgery, ureteral and bladder reconstruction.
Research Interest for Referring Providers
My research interest is an extension of my clinical practice and focuses primarily on urinary incontinence, pelvic organ prolapse, biomaterials for reconstructive pelvic surgery and urethral stricture disease. I have authored numerous clinical papers, instructional videos and textbook chapters and has presented nationally on various topics including urinary incontinence, pelvic organ prolapse, transvaginal mesh removal, urinary diversion and urethral stricture disease. I have received funding for scientific research in the area of voiding dysfunction and have published my experience with early molecular changes in bladder hypertrophy associated with partial bladder outlet obstruction in the rat animal model.