Stanford B type aortic dissection (TBAD) is the type of dissection in which the first tear is located in the descending aortic. When the spinal cord, intercostal artery, gastrointestinal artery, renal artery, lower extremity artery, etc., are involved by the false lumen created by the dissection, the corresponding organs may be seriously affected due to loss of blood supply [1]. Currently, Thoracic Endovascular Aortic Repair (TEVAR) is considered the main therapy for the treatment of TBAD; however, the postoperative incidence of paraplegia is around 2–10% [2, 3]. Even in early clinical trials, some experts suggested that the stent's length should not exceed 205 mm to prevent postoperative spinal ischemic events. Although the risk of postoperative paraplegia could be reduced with the graft with limited length, continued false lumen flow due to the presence of distal reentry tear may result in true lumen collapse and may increase the likelihood of aortic adverse events.

Considering the above listed findings, a new stent graft (Talos stent, Shanghai Endovastec. Co., LTD., Fig. 1) was designed. The stent-graft with maximum 260 mm graft length can extend more distally so as to improve the remodeling of the distal true lumen. Also, the distal multi-perforated graft design ensures the blood supply to the intercostal arteries and spinal arteries, reducing postoperative paraplegia risk. The tapered size in diameter of the Talos stent conforms to the vessel's anatomy so as to reduce the stimulation to the blood vessel wall and avoid new tears caused by excessive expansion of the distal end of the stent.

In the present study, we retrospectively analyzed the clinical data of 20 TBAD patients treated with Talos stent in the Vascular Surgery Department of Yan 'an Hospital affiliated to Kunming Medical University between December 2017 and October 2019 to verify the short-term safety and efficacy of Talos stent.

Clinically, TBAD patients with a large false lumen and a compressed narrow true lumen are at high risk of dying due to rupture of the aorta or severe ischemia of the internal organs [1]. At present, TEVAR has become the accepted mainstream treatment for acute TBAD due to the advantages, such as minimal invasion, fast recovery, and fewer complications [2]. However, due to the wide extension of dissection and limitation related to stent length, patients with dissection involving the distal thoracic aorta often do not benefit from TEVAR. In their study, Kammam et al. [8] have confirmed that complete thrombosis of the false lumen is associated with improved 5-year survival rate postoperatively. Some experts [9, 10] pointed out that an incomplete seal of the distal tear and postoperative endoleak will lead to the incomplete remolding of the true lumen. With the increase of cases of TBAD treated by TEVAR, issues related to the incomplete thrombosis of the distal false lumen and persistent narrow in the true distal lumen are getting increasing clinical attention. He et al. [11] have shown that distal implantation of restricted bare stents can effectively expand the true lumen and promote the false lumen's thrombosis. Nevertheless, adverse events of bare stents also limit its further application. Melissano et al. [12, 13] reported a case of aneurysm rupture due to bare-metal stents. Hofferberth et al. [14] reported a case with bare-metal stent migration, which eventually resulted in re-intervention and death. Moreover, the bare stents currently available in the market have a relatively large diameter (36–46 cm), which may cause new distal aortic injuries [15].

Talos stent aims to improve the remodeling of the true distal lumen by extending the length of the stent-graft. Also, the distal part of the graft is multi-perforated in order to decrease the paraplegia rate, which the longer coving length may cause by graft. The change in diameter of the true and false lumen at six months and 12 months showed that sustained enlargement in the true lumen and the shrinkage in the false lumen were statistically significant after stent implantation, thus indicating satisfactory remodeling of the true lumen (Fig. 6). Six patients (30%) achieved the disappearance or complete thrombosis of the false lumen; 13 (65%) patients had complete thrombosis of the false lumen in the descending aorta covered by the stent-graft. Among the 20 patients, 14 patients still had tears in the abdominal aorta, which could not be covered by stent-graft and remain to be resolved. Nonetheless, the changes in the diameter of the whole aorta and true lumen in the celiac trunk of the 14 patients achieved statistical significance (Fig. 4), thus confirming the effectiveness of the Talos stent in aortic remodeling. The distal thoracic true lumen remodeling helps to provide more blood flow to the abdominal aorta and viscera, thus decreasing the relevant complications, including acute renal failure, intestinal ischemia, and similar. In our study, CTA review at postoperative 12 months showed no significant changes in abdominal lesions, while the incidence of complications caused by the remaining tears and dissection in the abdominal aorta was 0%, which requires close observation and follow-up.

It has been proved that the extended coverage of the descending aorta is one of the critical risk factors for spinal cord ischemia after TEVAR [16‐18]. Feezor et al.[19] reported that the coverage length with spinal cord ischemia was 17.3 ± 21.8 cm (P = 0.0006). Amabile et al. [3] reported that 20.5 cm was the threshold of aortic covering length, which may lead to increased risk of spinal cord ischemia after TEVAR. The above results limit the application of longer stent-graft length in TEVAR. In order to solve the problem of too many spinal arteries being covered, Talos stents innovatively developed a stent structure with distal perforation, which ensured the blood supply from the distal thoracic aorta to the spinal artery with sufficient reopening of the true lumen.

The Adamkiewiecz artery is the most critical artery supplying the 4th spinal segment, 75% of which originates from T9 to T12 [20]. In our study, Talos stents selected for the 20 patients were 232 mm in the whole length with an average 164 mm in graft length and an average 68 mm in distal multi-perforated graft length. Based on the observation of the relative positions of the markers, which identified the starting position of the multi-perforated segment and thoracic vertebrae in 20 cases, 40% of the markers were in line with T9, 55% of the markers were in line with T8, and 5% (1 case) were at the level of T10. The position of the multi-perforated segment was between T8 and T10, which can help reduce the incidence of postoperative paraplegia by avoiding covering the Adamkiewiecz artery. Postoperative angiography showed that average of 4.9 intercostal arteries was preserved in 20 patients, and 2 patients experienced chest pain, which was relieved before discharge. The incidence of paraplegia was 0% at 12 months follow-up. We hope that future studies will recruit more patients to further verify the clinical efficacy of Talos stent in reconstructing intercostal arteries and preventing spinal cord ischemia events.

All the selected stents are tapered in diameter, whose distal diameter is 6 mm smaller than the proximal one. For acute TBAD, the proximal diameter of the stent is usually 5–10% larger than the proximal diameter of the aorta [21], while for chronic TBAD, the increase rate in diameter should be 20% [22], which makes the distal diameter of the stent-graft much larger than the true distal lumen, and the ratio is often higher than 120% [23], resulting in unreasonably higher radial force to the fragile aortic wall of dissection and causing a new tear or pseudoaneurysm at the distal thoracic aorta [23]. The tapered size in diameter (Fig. 1) may improve the conformability to the anatomy and reduce relative complications.

Talos stent-graft with distal multi-perforated graft in design has achieved satisfactory clinical treatment results for TBAD within 12 months, especially in promoting the remolding of the true distal lumen and preserving the distal intercostal arteries and spinal arteries, which can help provide sufficient blood flow to the abdominal aorta, visceral organ, and lower extremity and decrease the incidence of paraplegia. Nonetheless, the safety and effectiveness in the medium and long term need further follow-up, and more cases should be enrolled.