Aortic root replacement for children with Loeys-Dietz syndrome

ND Patel, D Alejo, T Crawford, N Hibino… - The Annals of Thoracic …, 2017 - Elsevier
ND Patel, D Alejo, T Crawford, N Hibino, HC Dietz, DE Cameron, LA Vricella
The Annals of Thoracic Surgery, 2017Elsevier
Background Loeys-Dietz syndrome (LDS) is an aggressive aortopathy with a proclivity for
aortic aneurysm rupture and dissection at smaller diameters than other connective tissue
disorders. We reviewed our surgical experience of children with LDS to validate our
guidelines for prophylactic aortic root replacement (ARR). Methods We reviewed all children
(younger than 18 years) with a diagnosis of LDS who underwent ARR at our institution. The
primary endpoint was mortality, and secondary endpoints included complications and the …
Background
Loeys-Dietz syndrome (LDS) is an aggressive aortopathy with a proclivity for aortic aneurysm rupture and dissection at smaller diameters than other connective tissue disorders. We reviewed our surgical experience of children with LDS to validate our guidelines for prophylactic aortic root replacement (ARR).
Methods
We reviewed all children (younger than 18 years) with a diagnosis of LDS who underwent ARR at our institution. The primary endpoint was mortality, and secondary endpoints included complications and the need for further interventions.
Results
Thirty-four children with LDS underwent ARR. Mean age at operation was 10 years, and 15 (44%) were female. Mean preoperative root diameter was 4 cm. Three children (9%) had composite ARR with a mechanical prosthesis, and 31 (91%) underwent valve-sparing ARR. Concomitant procedures included arch replacement in 2 (6%), aortic valve repair in 1 (3%), and patent foramen ovale closure in 16 (47%). There was no operative mortality. Two children (6%) required late replacement of the ascending aorta, 5 (15%) required arch replacement, 1 (3%) required mitral valve replacement, and 2 (6%) had coronary button aneurysms/pseudoaneurysms requiring repair. Three children required redo valve-sparing ARR after a Florida sleeve procedure, and 2 had progressive aortic insufficiency requiring aortic valve replacement after a valve-sparing procedure. There were 2 late deaths (6%).
Conclusions
These data confirm the aggressive aortopathy of LDS. Valve-sparing ARR should be performed when feasible to avoid the risks of prostheses. Serial imaging of the arterial tree is critical, given the rate of subsequent intervention.
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