OBJECTIVE: Our aim was to describe the MRI appearance of myocutaneous flaps and to determine whether postoperative radiation therapy affects imaging. MATERIALS AND METHODS: We retrospectively reviewed 30 myocutaneous flaps in 27 patients (n = 165 examinations; mean, 6.1 examinations per patient). Examinations were analyzed for flap type, location, degree of atrophy, signal intensity, and enhancement. RESULTS: Sixty-three percent (19/30) of the flaps developed high T1-weighted signal (mean, 15 months); 83% (25/30) developed high T2-weighted signal (mean, 10 months). This occurred sooner in those patients with postoperative radiation therapy (9 vs 12 months). T2-weighted signal returned to baseline in 32% (8/25) of the flaps (mean, 21 months); this occurred sooner in flaps not exposed to postoperative radiation (10 months vs 38 months). Seventy-one percent (20/28) of the flaps enhanced greater than the background musculature. Enhancement was seen more frequently in patients treated with postoperative radiation therapy than those not treated with radiation (83% vs 63%). All flaps atrophied; however, the two functional latissimus dorsi flaps atrophied less. Although increased T2-weighted signal and enhancement were seen in flaps after postoperative radiation therapy as compared with those without, this was not significant (p = 0.35 and p = 0.40, respectively). CONCLUSION: Myocutaneous flaps used in orthopedic reconstructive surgery typically show increased signal intensity on T2-weighted images and contrast enhancement initially, followed by some degree of atrophy and increased signal intensity on T1-weighted images. Postoperative radiation therapy may increase the likelihood that the flap will exhibit increased T2-weighted signal and enhancement.
OBJECTIVE: Our aim was to describe the MRI appearance of myocutaneous flaps and to determine whether postoperative radiation therapy affects imaging. MATERIALS AND METHODS: We retrospectively reviewed 30 myocutaneous flaps in 27 patients (n = 165 examinations; mean, 6.1 examinations per patient). Examinations were analyzed for flap type, location, degree of atrophy, signal intensity, and enhancement. RESULTS: Sixty-three percent (19/30) of the flaps developed high T1-weighted signal (mean, 15 months); 83% (25/30) developed high T2-weighted signal (mean, 10 months). This occurred sooner in those patients with postoperative radiation therapy (9 vs 12 months). T2-weighted signal returned to baseline in 32% (8/25) of the flaps (mean, 21 months); this occurred sooner in flaps not exposed to postoperative radiation (10 months vs 38 months). Seventy-one percent (20/28) of the flaps enhanced greater than the background musculature. Enhancement was seen more frequently in patients treated with postoperative radiation therapy than those not treated with radiation (83% vs 63%). All flaps atrophied; however, the two functional latissimus dorsi flaps atrophied less. Although increased T2-weighted signal and enhancement were seen in flaps after postoperative radiation therapy as compared with those without, this was not significant (p = 0.35 and p = 0.40, respectively). CONCLUSION:Myocutaneous flaps used in orthopedic reconstructive surgery typically show increased signal intensity on T2-weighted images and contrast enhancement initially, followed by some degree of atrophy and increased signal intensity on T1-weighted images. Postoperative radiation therapy may increase the likelihood that the flap will exhibit increased T2-weighted signal and enhancement.
Authors: J L McCarty; A S Corey; M W El-Deiry; H M Baddour; B M Cavazuti; P A Hudgins Journal: AJNR Am J Neuroradiol Date: 2018-11-08 Impact factor: 3.825