Total arch replacement and frozen elephant trunk for type A aortic dissection after Bentall procedure in Marfan syndrome.

Chen Y ，Ma WG ，Zheng J ，Liu YM ，Zhu JM ，Sun LZ ... -  《-》

Long-term outcomes of frozen elephant trunk for type A aortic dissection in patients with Marfan syndrome.

The use of the frozen elephant trunk (FET) technique for repair of type A aortic dissection (TAAD) in Marfan syndrome (MFS) is controversial. We seek to evaluate the efficacy of FET and total arch replacement (TAR) for TAAD in patients with MFS. The early and long-term outcomes were analyzed for 106 patients with MFS (mean age, 34.5 ± 9.7 years) undergoing FET + TAR for TAAD. Operative mortality was 6.6% (7 of 106). Spinal cord injury and stroke occurred in 1 patient each (0.9%), and reexploration for bleeding occurred in 6 patients (5.7%). Extra-anatomic bypass was the sole risk factor for operative mortality and morbidity (odds ratio [OR], 7.120; 95% confidence interval [CI], 1.018-49.790; P = .048). Follow-up was complete in 97.0% (96 of 99), averaging 6.3 ± 2.8 years. Late death occurred in 17 patients. Patients with acute TAAD were less prone to late death than those with chronic TAAD (OR, 0.112; 95% CI, 0.021-0.587; P = .048). Twelve patients required late reoperation, including thoracoabdominal aortic repair in 8, thoracic endovascular aortic repair for distal new entry in 3, and coronary anastomotic repair in 1. At 5 years, survival was 86.6% (95% CI, 77.9%-92.0%) and freedom from reoperation was 88.8% (95% CI, 80.1%-93.4%), and at 8 years, survival was 74.1% (95% CI, 61.9%-83.0%) and freedom from reoperation was 84.2% (95% CI, 72.4%-91.2%). In competing risks analysis, mortality was 4% at 5 years, 18% at 8 years, and 25% at 10 years; the respective rates of reoperation were 10%, 15%, and 15%; and the respective rates of survival without reoperation were 86%, 67%, and 60%. Survival was significantly higher in patients who underwent root procedures during FET + TAR (P = .047). Risk factors for reoperation were days from diagnosis to surgery (OR, 1.160; 95% CI, 1.043-1.289; P = .006) and Bentall procedure (OR, 12.012; 95% CI, 1.041-138.606; P = .046). The frozen elephant trunk and total arch replacement procedure can be safely performed for TAAD in MFS with low operative mortality, favorable long-term survival and freedom from reoperation. A concomitant Bentall procedure was predictive of better long-term survival and increased risk for late reoperation. These results argue favorably for the use of the FET + TAR technique in the management of TAAD in patients with MFS.

Ma WG ，Zhang W ，Zhu JM ，Ziganshin BA ，Zhi AH ，Zheng J ，Liu YM ，Elefteriades JA ，Sun LZ ... -  《-》

Extended repair for acute type A aortic dissection: long-term outcomes of the frozen elephant trunk technique beyond 10 years.

Ma WG ，Chen Y ，Zhang W ，Li Q ，Li JR ，Zheng J ，Liu YM ，Zhu JM ，Sun LZ ... -  《-》

Is the frozen elephant trunk technique justified for chronic type A aortic dissection in Marfan syndrome?

Chronic type A aortic dissection (cTAAD) in Marfan syndrome (MFS) is rare. Surgical experience is limited and the role of frozen elephant trunk (FET) technique remains undefined. We seek to evaluate the safety and efficacy of the total arch replacement (TAR) and FET technique for cTAAD in MFS. The clinical data of sixty-eight patients with MFS undergoing FET and TAR for cTAAD were analyzed. Mean age was 35.8±9.7 years and thirty-nine were male (57.4%). Operative mortality was 10.3% (7/68). Stroke occurred in one (1.5%), re-exploration for bleeding in five (7.3%), low cardiac output in four (5.9%), and acute renal failure in two (2.9%). Follow-up was complete in 100% (61/61) at mean 7.3±4.0 years. The false lumen was obliterated in 73.5% across FET and 50.0% in unstented descending aorta (DAo). Distal dilation occurred in twenty patients, six of whom underwent thoracoabdominal aortic replacement, one abdominal aortic replacement and one thoracic endovascular aortic repair (TEVAR). Late death occurred in five. At ten years, 59.8% were free from distal aortic dilation, and the incidences were 23.2% for death, 14.4% for distal reoperation, and 62.4% for reoperation-free survival. Predictors for operative mortality were extra-anatomic bypass [odds ratio (OR), 229.592; P=0.036], preoperative maximal size (DMax) of aortic sinuses (mm) (OR, 1.134; P=0.032) and cardiopulmonary bypass (CPB) time (minute) (OR, 1.061; P=0.041). Risk factors for aortic dilatation included patent false lumen at diaphragmatic hiatus [hazard ratio (HR), 5.374; P=0.008], preoperative DMax (mm) of proximal DAo (HR, 1.068; P=0.001) and renal arteries (HR, 1.102; P=0.005) which also predicted distal reoperation (HR, 1.149; P=0.001). The time from onset to operation (day) (HR, 1.002; P=0.004) and CPB time (minute) (HR, 1.032; P=0.036) predicted late death. This study shows that the TAR and FET technique is a safe and durable approach to cTAAD in patients with MFS. The operation should be performed as early as possible to optimize clinical outcomes.

Chen Y ，Ma WG ，Li JR ，Zheng J ，Liu YM ，Zhu JM ，Sun LZ ... -  《-》

Fate of distal aorta after frozen elephant trunk and total arch replacement for type A aortic dissection in Marfan syndrome.

The use of the frozen elephant trunk technique for type A aortic dissection in Marfan syndrome is limited by the lack of imaging evidence for long-term aortic remodeling. We seek to evaluate the changes of the distal aorta and late outcomes after frozen elephant trunk and total arch replacement for type A aortic dissection in patients with Marfan syndrome. Between 2003 and 2015, we performed frozen elephant trunk + total arch replacement for 172 patients with Marfan syndrome suffering from type A aortic dissection (94 acute; 78 chronic). Mean age was 34.6 ± 9.3 years, and 121 were male (70.3%). Early mortality was 8.1% (14/172), and follow-up was complete in 98.7% (156/158) at a mean of 6.2 ± 3.3 years. Aortic dilatation was defined as a maximal diameter of greater than 50 mm or an average growth rate of greater than 5 mm/year at any segment detected by computed tomographic angiography. Temporal changes in the false and true lumens and maximal aortic size were analyzed with linear mixed modeling. After surgery, false lumen obliteration occurred in 86%, 39%, 26%, and 21% at the frozen elephant trunk, unstented descending aorta, diaphragm, and renal artery, respectively. The true lumen expanded significantly over time at all segments (P < .001), whereas the false lumen shrank at the frozen elephant trunk (P < .001) and was stable at distal levels (P > .05). Maximal aortic size was stable at the frozen elephant trunk and renal artery (P > .05), but grew at the descending aorta (P = .001) and diaphragm (P < .001). Respective maximal aortic sizes before discharge were 40.2 mm, 32.1 mm, 31.6 mm, and 26.9 mm, and growth rate was 0.4 mm/year, 2.8 mm/year, 3.6 mm/year, and 2.6 mm/year. By the latest follow-up, distal maximal aortic size was stable in 63.5% (99/156), and complete remodeling down to the mid-descending aorta occurred in 28.8% (45/156). There were 22 late deaths and 23 distal reoperations. Eight-year incidence of death was 15%, reoperation rate was 20%, and event-free survival was 65%. Preoperative distal maximal aortic size (mm) predicted dilatation (hazard ratio, 1.11; P < .001) and reoperation (hazard ratio, 1.07; P < .001). A patent false lumen in the descending aorta predicted dilatation (hazard ratio, 3.88; P < .001), reoperation (hazard ratio, 3.36; P = .014), and late death (hazard ratio, 3.31; P = .045). The frozen elephant trunk technique can expand the true lumen across the aorta, decrease or stabilize the false lumen, and stabilize the distal aorta in patients with Marfan syndrome with type A aortic dissection, thereby inducing favorable remodeling in the distal aorta. This study adds long-term clinical and radiologic evidence supporting the use of the frozen elephant trunk technique for type A dissection in Marfan syndrome.

Chen Y ，Ma WG ，Zhi AH ，Lu L ，Zheng J ，Zhang W ，Liu YM ，Zhu JM ，Elefteriades JA ，Sun LZ ... -  《-》