Dr. James Scanlon

Vascular SurgeryMale22+ years of experience
Dr. James Scanlon is a vascular surgeon in Naples, Florida. He graduated from George Washington University School of Medicine in 2000 and has been in practice for 22+ years.
LocationEducationRatingsAbout MeHospitalsConditions TreatedSpecialtySimilar

Location

Dr. James Scanlon
130 9Th St North
Suite 120
Naples, Florida 34102

Education

Medical school

Dr. Scanlon attended George Washington University School of Medicine and graduated in 2000 (22 years ago). George Washington University School of Medicine is ranked #61 number in the "Best Medical Schools" by U.S. News.

About Me

Dr. Scanlon works at Naples Vascular Specialists LLC, which has 1 other health providers.

Primary specialty
Vascular Surgery
Years of experience
22+ years
Gender
Male
NPI
1265528319

Hospital Affiliations

Dr. Scanlon is affiliated with the following hospitals.

Naples Community Hospital

Conditions Treated

As a vascular surgery, Dr. Scanlon may see patients with the following conditions. Please check with Dr. Scanlon what conditions he treats. Dr. Scanlon may treat additional conditions not listed.

  • Abdominal aortic aneurysm
  • Aneurysm
  • Aortic dissection
  • Atherosclerosis
  • Bleeding varices
  • Blood clots
  • Chronic venous insufficiency
  • Claudication
  • Embolism
  • Ischemia
Show more +

Specialties

Dr. Scanlon is a vascular surgeon.

Vascular Surgery

Vascular surgery is a surgical subspecialty in which diseases of the vascular system, or arteries, veins and lymphatic circulation, are managed by medical therapy, minimally-invasive catheter procedures and surgical reconstruction. The specialty evolved from general and cardiac surgery and includes treatment of the body's other major and essential veins and arteries. Open surgery techniques, as well as endovascular techniques are used to treat vascular diseases. The vascular surgeon is trained in the diagnosis and management of diseases affecting all parts of the vascular system excluding the coronaries and intracranial vasculature.