Who are you, in one plain sentence?
The Vascular Anomalies Program at University of Michigan Health C.S. Mott Children’s Hospital is described by its own institution as one of the leading multidisciplinary programs for comprehensive treatment of vascular anomalies in the country — the #1 children’s hospital in Michigan and the only children’s hospital in Michigan ranked in all 11 U.S. News & World Report specialty categories.
Who do you see?
Their published program treats the full range of vascular anomalies including hemangiomas, venous malformations, lymphatic malformations, arteriovenous malformations, port wine stains, and related conditions. Between 50-60% of children with vascular anomalies will require some form of treatment — medical, surgical, or laser — and the program explicitly advises seeking care at a center with a wide range of expertise across many types. Worth confirming when you contact them: whether adult care is available for your specific condition.
How do I get in?
Phone (toll-free nationally): 877-475-MOTT (877-475-6688). Address: 1540 E Hospital Dr, Ann Arbor, MI 48109. Program URL: uofmhealth.org/our-care/specialties-services/vascular-anomalies-program-pediatric. Physician referrals via M-Line: 800-962-3555. Worth confirming: current intake procedures and whether your insurance is accepted.
What makes you different?
C.S. Mott is the anchor academic medical center for the upper Midwest’s largest public university health system — University of Michigan Health. The institutional depth includes research programs, fellowship training, and the breadth of subspecialty services that only large academic medical centers carry. The toll-free national phone line reflects a program accustomed to receiving referrals from a broad geographic catchment. For families in Michigan, Ohio, Indiana, and surrounding states who want a high-volume academic program without traveling to Cincinnati or Boston, Mott is the natural regional anchor. The published program note that experience and volume are key determinants of quality of care is an honest signal of what they believe distinguishes their program.
In Their Own Voice
University of Michigan Health describes the C.S. Mott Vascular Anomalies Program as one of the leading multidisciplinary programs for comprehensive treatment of vascular anomalies in the country. Their published program explicitly notes that the large volume of conditions seen each year results in a unique level of expertise and ensures patients have access to the highest level of care and latest, most advanced therapies. The institution holds #1 ranking as the best children’s hospital in Michigan and the only Michigan children’s hospital ranked in all 11 U.S. News categories for 2024-25.
The program is part of University of Michigan Health, which operates a 1.1 million square foot facility housing C.S. Mott Children’s Hospital and the Von Voigtlander Women’s Hospital, co-located with the A. Alfred Taubman Health Care Center on Michigan Medicine’s main medical campus in Ann Arbor. The scale and integration of subspecialties within a single academic medical campus supports complex, multi-system vascular anomaly management.
Source: uofmhealth.org/our-care/specialties-services/vascular-anomalies-program-pediatric · ISSVA Multidisciplinary Teams Registry · CMTC Alliance directory. Verified: July 2026.
Pedigree
| Program | Vascular Anomalies Program |
| Address | 1540 E Hospital Dr, Ann Arbor, MI 48109 |
| Phone (National Toll-Free) | 877-475-MOTT (877-475-6688) |
| Physician Referral (M-Line) | 800-962-3555 |
| Program URL | uofmhealth.org/our-care/specialties-services/vascular-anomalies-program-pediatric |
| Patients | Children — adult scope confirm directly |
| ISSVA Registry | Listed — Multidisciplinary Teams |
| Rankings | #1 Children’s Hospital in Michigan · U.S. News ranked in all 11 pediatric categories (2024-25) |
| Institution | University of Michigan Health · 1.1M sq ft facility · Major academic medical campus |
Verification & Catalog Status
Catalog Cross-Reference: Pending — see Care4-Rare Compendium
