OBJECTIVE: Accurate pre-operative evaluation of renal vascular anatomy is essential for successful renal harvest in live donor transplantation. Non-contrast renal MR angiographic (MRA) techniques are potentially well suited to the screening of donors; however, their restricted imaging field of view (FOV) has previously been an important limitation. We sought to assess whether the addition of a large FOV balanced fast field echo (BFFE) steady-state free precession (SSFP) sequence to non-contrast SSFP MRA could overcome this problem. Comparison with contrast-enhanced MRA (CE MRA) and findings at surgery were performed. METHODS: 22 potential renal donors each underwent SSFP and CE MRA. 11 out of 22 potential donors subsequently underwent a donor nephrectomy. RESULTS: All images were diagnostic. Both SSFP MRA and CE MRA identified an equal number of arteries. Surgery confirmed two accessory renal arteries, both demonstrated with both imaging techniques. A third accessory vessel was identified with both techniques on a kidney contralateral to the donated organ. 6 out of 11 procured kidneys demonstrated early branch arteries at surgery, 5 out of 6 of which had been depicted on both SSFP and CE MRA. The median grading of image quality for main renal arteries was slightly better for CE MRA (p=0.048), but for accessory vessels it was better for SSFP MRA. CONCLUSION: This pilot study indicates that by combining free-breathing SSFP MRA with large-FOV bFFE images, an accurate depiction of renal vascular anatomy without the need for intravenous contrast administration can be obtained, as compared with surgical findings and CE MRA.
OBJECTIVE: Accurate pre-operative evaluation of renal vascular anatomy is essential for successful renal harvest in live donor transplantation. Non-contrast renal MR angiographic (MRA) techniques are potentially well suited to the screening of donors; however, their restricted imaging field of view (FOV) has previously been an important limitation. We sought to assess whether the addition of a large FOV balanced fast field echo (BFFE) steady-state free precession (SSFP) sequence to non-contrast SSFP MRA could overcome this problem. Comparison with contrast-enhanced MRA (CE MRA) and findings at surgery were performed. METHODS: 22 potential renal donors each underwent SSFP and CE MRA. 11 out of 22 potential donors subsequently underwent a donor nephrectomy. RESULTS: All images were diagnostic. Both SSFP MRA and CE MRA identified an equal number of arteries. Surgery confirmed two accessory renal arteries, both demonstrated with both imaging techniques. A third accessory vessel was identified with both techniques on a kidney contralateral to the donated organ. 6 out of 11 procured kidneys demonstrated early branch arteries at surgery, 5 out of 6 of which had been depicted on both SSFP and CE MRA. The median grading of image quality for main renal arteries was slightly better for CE MRA (p=0.048), but for accessory vessels it was better for SSFP MRA. CONCLUSION: This pilot study indicates that by combining free-breathing SSFP MRA with large-FOV bFFE images, an accurate depiction of renal vascular anatomy without the need for intravenous contrast administration can be obtained, as compared with surgical findings and CE MRA.
Authors: Rolf Wyttenbach; Antonio Braghetti; Michael Wyss; Mario Alerci; Lukas Briner; Paolo Santini; Luca Cozzi; Marcello Di Valentino; Marcus Katoh; Claudio Marone; Peter Vock; Augusto Gallino Journal: Radiology Date: 2007-08-23 Impact factor: 11.105
Authors: Ulrich Kramer; Jakub Wiskirchen; Michael C Fenchel; Achim Seeger; Gerhard Laub; Gunnar Tepe; J Paul Finn; Claus D Claussen; Stephan Miller Journal: Radiology Date: 2008-02-12 Impact factor: 11.105
Authors: T A Bley; C J François; M L Schiebler; O Wieben; N Takei; J H Brittain; A Munoz Del Rio; T M Grist; S B Reeder Journal: Eur Radiol Date: 2015-05-28 Impact factor: 5.315
Authors: Fernanda Garozzo Velloni; Patrícia Prando Cardia; Ulysses Dos Santos Torres; Marco Antonio Haddad Pereira; Thiago José Penachim; Larissa Rossini Favaro; Miguel Ramalho; Giuseppe D'Ippolito Journal: Radiol Bras Date: 2020 Jul-Aug