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ARTIGO DE REVISÃO

Indicação do tratamento endovascular na dissecção de aorta do tipo B - Revisão da literatura

João Jackson DuarteI; José Carlos Dorsa Vieira PontesII; Ricardo Adala BenfattiI; Adriana Lugo FerrachiniIII; Walter Kegham KarakhanianIV; Álvaro Razuk FilhoIV

DOI: 10.5935/1678-9741.20140076

INTRODUCTION

Aortic dissection is a cardiovascular event of high mortality if not early diagnosed and properly treated. In Stanford type A aortic dissection there is the involvement of the ascending aorta, whereas in type B, the dissection is restricted to the descending aorta.

The treatment of Type A aortic dissection is mainly surgical. The hospital mortality of surgical treatment of Type B aortic dissection is about 20%, while medical therapy is 10%, therefore the recommendation for intervention in these cases shall be reserved for complicated cases, that are characterized by persistent pain, presence of ischemic complications, uncontrolled hypertension and aortic dilatation[1]. However, half of patients who are discharged after medical treatment, evolves with aortic complications in the following years, and the mortality in three to five years can reach 20% to 50%[2]. Furthermore, the surgical treatment of aortic complications after medical treatment, has also a significant mortality.

Endovascular Treatment

The endovascular approach in aortic diseases was introduced by Volodos et al.[3] in 1986 and Parodi et al.[4], in 1991, it is the correction of aortic diseases with self expandable prosthesis implantation inside the aorta, starting from catheters introduced through the femoral artery.

The endovascular treatment of descending aortic dissections was first described by Dake et al.[5] in 1994.

In 1997, the group of the Paulista School of Medicine led by Dr. Honorio Palma and Dr. Ernie Buffolo described, in a series of seventy patients with aortic dissection type B treated with the elephant trunk technique, two cases where the tube Dacron was replaced by anterograde released stent graft during total circulatory arrest of five minutes[6].

In 1999 Dake et al.[7] in 19 patients with complicated type b aortic dissection who underwent endovascular treatment, reported hospital mortality of 16% for aortic rupture and 79% for false lumen thrombosis. Nienaber et al.[8], in 1999, comparing patients with chronic or subacute dissection endovascular treated with patients who underwent conventional surgery, reported technical success in 100% of cases, with 83.3% of immediate thrombosis of the false lumen.

The EUROSTAR registry[9], described in 2004, introduced the first wider case series of patients treated with thoracic aortic stent graft. This registry included patients with aortic dissection, aortic aneurysm, pseudoaneurysm and traumatic aortic lesions. Despite the heterogeneity of the patients, it demonstrated primary technical success of 89%, with 30-day mortality of 6.5%, the one-year survival was 90% in cases of aortic dissection type B, and paraplegia occurred in 0 8%.

In Brazil, Fonseca et al.[10], in 1998, present the endovascular treatment of 4 cases of acute type B dissection with stent graft interposition, obtaining success in all the cases with total occlusion of the slot with thrombosis of the false lumen.

The premature occlusion of the false lumen entrance seems to improve the prognosis of patients in long-term. Atsuku et al.[11] followed the late evolution (ten years) of patients with type B aortic dissection medically treated. These authors showed that in the group of patients that had thrombosis of the false lumen during medical treatment, the mortality associated with the dissection was 5.6 times lower than in the group of patients in whom the false lumen remained patent, concluding that the patency the false lumen was an independent risk factor for dissection, death or events related to the dissection.

Tsai et al.[12] have shown that after discharge from hospital, patients who presented partial thrombosis of the false lumen had higher mortality than patients with complete patency of the false lumen. This happens with the higher incidence of rupture of the aneurysm sac expansion for not having distal reentry and end up in "dead end", leading to greater subsequent pressurization of the false lumen.

In the initial evaluation of acute type B aortic dissection, prognostic indicators of severity as the patency of the false lumen and aortic diameter greater than 40 mm as it should be considered in the choice of the appropriate therapy[13]. Loewe et al.[14] demonstrated a higher incidence of complications in acute type B aortic dissection in which the location of the entrance hole is in the small aortic curvature and recommended that these patients should be considered as high risk and with indication of premature endovascular treatment.

Eggebrecht et al.[15], in a meta-analysis of 39 published studies from 1999 to 2005, which involved 609 patients, proved the technical success in 98.2% of patients; hospital mortality of 5.3%, presence of neurological complications of 3.1 %, 1% of paraplegia and 2.1% of ischemic stroke. During follow-up, there was 2.3% of aortic rupture. Xiong et al.[16], also from meta-analysis of 39 studies published from 2001 to 2007 in China, involving 1304 patients, showed a hospital mortality of 2.6±0.1%, and a 5-year survival of 95.2%. The low mortality rate for endovascular treatment in a significant number of patients with type B aortic dissection complicated[15,16] allowed to question the indication of medical treatment as an approach to uncomplicated type B aortic dissections.

The INSTEAD[17] was the first prospective, randomized, multicenter trial that compared endovascular treatment added to optimal medical treatment exclusively in uncomplicated type B aortic dissections in the subacute and chronic stage.

After two years of follow up, there was no difference in mortality from all causes and events related to the aorta between the two groups, although the aortic remodeling, defined as an increase of the true lumen and false lumen thrombosis was higher in patients undergoing endovascular treatment, 91.3% versus 19.4% in the group of medical treatment[18].

At late follow-up of these patients, between 2-5 years, the group of patients randomized to endovascular and optimized medical treatment showed lower mortality due to events related to the aorta, 6.9% versus 19.3% in the group that was selected for exclusive optimized medical treatment[19]. Furthermore, patients of the endovascular treatment also presented reduced disease progression of 27% against 46.1% in the medical treatment[19].

The efficacy of endovascular treatment of type B aortic dissections is conditioned to occlusion of the entrance and complete thrombosis of the false lumen.

The literature describes a variation in the rate of complete thrombosis of the false lumen in the descending thoracic aorta, between 22.2% and 100%[7,8,20-24]. This wide variation is related to the stage of the disease presentation in which it was proposed the treatment as well as the studied segment of the descending thoracic aorta.

Shimono et al.[22], in a late follow-up of 24.5 months after endovascular repair, reported that the complete thrombosis of the false lumen was more frequent in patients treated in the acute phase 66.7% than those treated during the chronic phase 38.5%. According to these authors the persistent false lumen perfusion was correlated with late complications such as aortic dilation and rupture with subsequent death.

Kusagawa et al.[25] reported that after two years of follow-up after endovascular repair of type B aortic dissection, the false lumen thrombosis occurred in 76% of patients undergoing repair in the acute phase of the disease and in 36% of those who have corrected in the chronic phase. They also reported that after treatment of acute cases, the average diameter of the false lumen in the descending aorta early reduced, between one and six months. In the cases treated in the chronic phase, this reduction occurred later, between six and twelve months, confirming that the false lumen thrombosis is more likely when treatment is instituted in the acute phase.

Fioranelli et al.[26] reported that the presence of reentry thoracic aorta was correlated with the patency of the false lumen in the postoperative follow-up and agreed with the findings of Kato et al.[23]; Shimono et al.[22] and Kusagawa et al.[25] who stated that the delamination, sometimes fragile in the acute phase, becomes more fibrotic and stable in the chronic phase thereby decreasing the potential for aortic remodeling in this stage. Lopera et al.[27], also reported that the presence of reentry at the level of the descending thoracic aorta associated with fibrosis in chronic cases, contribute to the reduced chance of sealing the intimal-middle layer and consequent reduction of thrombosis of the thoracic false lumen. Dias et al.[28], despite the small number of patients studied, concluded that the endovascular treatment of type B aortic dissection, in the chronic phase, did not decrease the diameter of the descending aorta and showed persistence of the false lumen in the descending segment of the thoracic aorta in 27.3% and abdominal aorta of 81.8%.

Kusagawa et al.[25], in a 6-year experience with endovascular treatment for acute and chronic dissection, reported that the presence of reentry in the thoracic and abdominal aorta were correlated with the maintenance of the false lumen diameter in the thoracic aorta. The presence of abdominal visceral level reentry allowed the reduction or thrombosis of the false lumen of the thoracic aorta, demonstrating that the presence of reentry into the descending thoracic aorta is the limiting factor in this segment of the aortic remodeling.

Schoder et al.[29] demonstrated that endovascular treatment determined the false lumen thrombosis at the level of the stent graft in 90% of cases, 60% in the most distal segment of the stent graft and 22% in the segment of the abdominal aorta. It was justified by the presence of distal reentries.

Eggebrecht et al.[24], in 38 patients with complicated type B dissection underwent endovascular treatment, 10 patients in the acute phase and 28 in the chronic phase, reported early mortality of 11%, all of them occurring in patients treated in the acute phase.

Böckler et al.[30], studying 37 patients with complicated dissection, also demonstrated a 19% incidence of early mortality in patients treated during the acute phase of dissection and no deaths in patients treated in the chronic phase. These authors considered that this high mortality rate is due to the selection of patients, the severity of the case that requires immediate intervention. Given that these patients, despite the technical success of the occlusion of the false lumen by the stent graft, evolve with systemic complications from previous clinical condition. Thus, the cause of early death in the present study was mostly due to multiple organ failure and mesenteric ischemia, and other causes not related to the aorta. Therefore, in relation to the developmental stage of the disease in which the endovascular treatment is indicated, it seems that the incidence of false lumen thrombosis is higher in acute cases, despite early mortality also being higher in these patients, although it is determined by the previous clinical severity of these patients.

The retrograde dissection has also been described in the literature in up to 8% of cases[31].

According to Rubin et al.[32], this complication can take place early or even at a later period of the treatment.

The possible causes for retrograde dissection are inherent to the technical procedure, and as with intimal injury of the aortic wall by the tip of super-hard guide wires, or the ends of the stent delivery systems. It has also been linked to retrograde dissection. The proximal balloon inflating for accommodation can also lead to intimal injury[26]. The choice of prosthesis with much larger diameters than the lap anchor, which presented higher radial force against the aortic wall, is also an important cause of retrograde dissection or even rupture of the aortic wall[33].

According to Pamler et al.[34], Kasirajan et al.[33] and Rubin et al.[32] The presence of free proximal stent, "Free Flo", in close and direct contact with the weakened aortic wall, may also cause intimal injury. Bortone et al.[35], in 43 studied cases, reported 7.0% of early mortality because of retrograde dissection due to the use of stent graft with proximal free stent.

Dialetto et al.[36], in 28 patients treated with complicated Stanford type B dissection, presented 10.7% (03 patients) of early mortality, and the causes of death were retrograde dissection and rupture of the false lumen in two cases.

Recently, Fattori et al.[37] published data from 1995 to 2012 from the international registry of aortic dissection. 1129 consecutive patients with type B acute aortic dissection were monitored. Uncomplicated patients were medically treated (75.6%) and those with complicated dissection were indicated for the endovascular procedure (24.4%). The hospital mortality between the two groups was similar, but at a 5 year follow-up, the group that underwent endovascular treatment had a lower mortality of 15.5% compared to 29% of death in patients who were medically treated.

As a conclusion, we can say that the best current scientific evidence suggests that in complicated cases, endovascular therapy is the best treatment option, in the subacute and chronic uncomplicated cases, the endovascular treatment and the clinical treatment have similar short-term results, however in the long-term evaluation, the endovascular treatment has lower mortality rate, lower incidence of complications related to the aorta and lower disease progression. Regarding the treatment of this disease in its acute phase, future comparative and randomized studies are needed to define the best treatment to be indicated.

REFERÊNCIAS

1. Hagan PG, Nienaber CA, Isselbacher EM, Bruckman D, Karavite DJ, Russman PL, et al. The International Registry of Acute Aortic Dissection (IRAD): new insights into an old disease. JAMA. 2000;283(7):897-903. [MedLine]

2. Fann JI, Smith JA, Miller DC, Mitchell RS, Moore KA, Grunkemeier G, et al. Surgical management of aortic dissection during a 30-year period. Circulation. 1995;92(9 Suppl):II113-21. [MedLine]

3. Volodos' NL, Shekhanin VE, Karpovich IP, Troian VI, Gur'ev luA. [A self-fixing synthetic blood vessel endoprosthesis]. Vestn Khir Im I I Grek. 1986;137(11):123-5. [MedLine]

4. Parodi JC, Palmaz JC, Barone HD. Transfemoral intraluminal graft implantation for abdominal aortic aneurysms. Ann Vasc Surg. 1991;5(6):491-9. [MedLine]

5. Dake MD, Miller DC, Semba CP, Mitchell RS, Walker PJ, Liddell RP. Transluminal placement of endovascular stent-grafts for the treatment of descending thoracic aortic aneurysms. N Engl J Med. 1994;331(26):1729-34. [MedLine]

6. Palma JH, Almeida DR, Carvalho AC, Andrade JC, Buffolo E. Surgical treatment of acute type B aortic dissection using an endoprosthesis (elephant trunk). Ann Thorac Surg. 1997;63(4):1081-4. [MedLine]

7. Dake MD, Kato N, Mitchell RS, Semba CP, Razavi MK, Shimono T, et al. Endovascular stent-graft placement for the treatment of acute aortic dissection. N Engl J Med. 1999;340(20):1546-52. [MedLine]

8. Nienaber CA, Fattori R, Lund G, Dieckmann C, Wolf W, von Kodolitsch Y, et al. Nonsurgical reconstruction oh thoracic aortic dissection by stent-graft placement. N Engl J Med. 1999;340(20):1539-45. [MedLine]

9. Leurs LJ, Bell R, Degrieck Y, Thomas S, Hobo R, Lundbom J; UK Thoracic Endograft Registry collaborators. Endovascular treatment of thoracic aortic diseases: combined experience from the EUROSTAR and United Kingdom Thoracic Endograft registries. J Vasc Surg. 2004;40(4):670-9.

10. Fonseca JHP, Buffolo E, Carvalho AC, Geisthvel N, Almeida DR, Souza JA, et al. Utilização de endoprótese auto-expansível introduzida através da artéria femoral para tratamento de dissecção da aorta descendente. Arq Bras Cardiol. 1998;70(6):389-92.

11. Akutsu K, Nejima J, Kiuchi K, Sasaki K, Ochi M, Tanaka K, et al. Effects of the patent false lumen on the long-term outcome of type B acute aortic dissection. Eur J Cardiothorac Surg. 2004;26(2):359-66. [MedLine]

12. Tsai TT, Evangelista A, Nienaber CA, Myrmel T, Meinhardt G, Cooper JV, et al; International Registry of Acute Aortic Dissection. Partial thrombosis of the false lumen in patients with acute type B aortic dissection. N Engl J Med. 2007;357(4):349-59. [MedLine]

13. Onitsuka S, Akashi H, Tayama K, Okazaki T, Ishihara K, Hiromatsu S, et al. Long-term outcome and prognostic predictors of medically treated acute type B aortic dissections. Ann Thorac Surg. 2004;78(4):1268-73. [MedLine]

14. Loewe C, Czerny M, Sodeck GH, Ta J, Schoder M, Funovics M, et al. A new mechanism by which an acute type B aortic dissection is primarily complicated, becomes complicated, or remains uncomplicated. Ann Thorac Surg. 2012;93(4):1215-22. [MedLine]

15. Eggebrecht H, Nienaber CA, Neuhäuser M, Baumgart D, Kische S, Schmermund A, et al. Endovascular stent-graft placement in aortic dissection: a meta-analysis. Eur Heart J. 2006;27(4):489-98. [MedLine]

16. Xiong J, Jiang B, Guo W, Wang SM, Tong XY. Endovascular stent graft placement in patients with type B aortic dissection: a meta-analysis in China. J Thorac Cardiovasc Surg. 2009;138(4):865-72. [MedLine]

17. Nienaber CA, Zanetti S, Barbieri B, Kische S, Schareck W, Rehders TC; INSTEAD study collaborators. INvestigation of STEnt grafts in patients with type B Aortic Dissection: design on the INSTEAD trial--a prospective, multicenter, European randomized trial. Am Heart J. 2005;149(4):592-9. [MedLine]

18. Nienaber CA, Rousseau H, Eggebrecht H, Kische S, Fattori R, Rehders TC, et al; INSTEAD Trial. Randomized comparison of strategies for type B aortic dissection: the INvestigation of STEnt Grafts in Aortic Dissection (INSTEAD) trial. Circulation. 2009;120(25):2519-28. [MedLine]

19. Nienaber CA, Kische S, Rousseau H, Eggebrecht H, Rehders TC, Kundt G, et al; INSTEAD-XL trial. Endovascular repair of type B aortic dissection: long-term results of the randomized investigation of stent grafts in aortic dissection trial. Circ Cardiovasc Interv. 2013;6(4):407-16. [MedLine]

20. Czermak BV, Waldenberger P, Fraedrich G, Dessl AH, Roberts KE, Bale RJ, et al. Treatment of Stanford type B aortic dissection with stent-grafts: preliminary results. Radiology. 2000;217(2):544-50. [MedLine]

21. Bortone AS, Schena S, D'Agostino D, Dialetto G, Paradiso V, Mannatrizio G, et al. Immediate versus delayed endovascular treatment of post-traumatic aortic pseudoaneurysms and type B dissections: retrospective analysis and premises to the upcoming European trial. Circulation. 2002;106(12 Suppl 1):1234-40.

22. Shimono T, Kato N, Yasuda F, Suzuki T, Yuasa U, Onoda K, et al. Transluminal stent-graft placements for the treatment of acute onset and chronic aortic dissections. Circulation. 2002;106(12 Suppl.):1241-7.

23. Kato N, Hirano T, Ishida M, Shimono T, Cheng SH, Yada I, et al. Acute and contained rupture of the descending thoracic aorta: treatment with endovascular stent grafts. J Vasc Surg. 2003;37(1):100-5. [MedLine]

24. Eggebrecht H, Herold U, Kuhnt O, Schmermund A, Bartel T, Martini S, et al. Endovascular stent-graft treatment of aortic dissection: determinants of post-interventional outcome. Eur Heart J. 2005;26(5):489-97. [MedLine]

25. Kusagawa H, Shimono T, Ishida M, Suzuki T, Yasuda F, Yuasa U, et al. Changes in false lumen after transluminal stent-graft placement in aortic dissections: six years' experience. Circulation. 2005;111(22):2951-7. [MedLine]

26. Fioranelli A, Razuk Filho A, Castelli Júnior V, Karakhanian W, Godoy JM, Caffaro RA. Mortality within the endovascular treatment in Stanford type B aortic dissections. Rev Bras Cir Cardiovasc. 2011;26(2):250-7. [MedLine] Visualizar artigo

27. Lopera J, Patiño JH, Urbina C, García G, Alvarez LG, Upegui L, et al. Endovascular treatment of complicated type-B aortic dissection with stent-grafts:: midterm results. J Vasc Interv Radiol. 2003;14(2 Pt 1):195-203. [MedLine]

28. Dias RR, Judas G, Oliveira MA, Malbouisson LM, Fiorelli AI, Stolf NA. Is the endovascular procedure an option for treatment of cronic type B aortic dissections? Rev Bras Cir Cardiovasc. 2007;22(4):441-7. [MedLine] Visualizar artigo

29. Schoder M, Czerny M, Cejna M, Rand T, Stadler A, Sodeck GH, et al. Endovascular repair of acute type B aortic dissection: long-term follow-up of true and false lumen diameter changes. Ann Thorac Surg. 2007;83(3):1059-66. [MedLine]

30. Böckler D, Schumacher H, Ganten M, Von Tengg-Kobligk H, Schwartzbach M, Fink C, et al. Complications after endovascular repair of acute symptomatic and chronic expanding Stanford type B aortic dissections. J Thorac Cardiovasc Surg. 2006;132(2):361-8. [MedLine]

31. Neuhauser B, Greiner A, Jaschke W, Chemelli A, Fraedrich . Serious complications following endovascular thoracic aortic stent-graft repair for type B dissection. Eur J Cardiothorac Surg. 2008;33(1):58-63. [MedLine]

32. Rubin S, Bayle A, Poncet A, Baehrel B. Retrograde aortic dissection after a stent graft repair of a type B dissection: how to improve the endovascular technique. Interact Cardiovasc Thorac Surg. 2006;5(6):746-8. [MedLine]

33. Kasirajan K. Re: "extension of dissection in stent-graft treatment of type B aortic dissection: lessons learned from endovascular experience". J Endovasc Ther. 2005;12(5):620-1. [MedLine]

34. Pamler RS, Kotsis T, Görich J, Kapfer X, Orend KH, Sunder-Plassmann L. Complications after endovascular repair of type B aortic dissection. J Endovasc Ther. 2002;9(6):822-8. [MedLine]

35. Bortone AS, De Cillis E, D'Agostino D, de Luca Tupputi Schinosa L. Endovascular treatment of thoracic aortic disease: four years of experience. Circulation. 2004;110(11 Suppl 1):II262-7. [MedLine]

36. Dialetto G, Covino FE, Scognamiglio G, Manduca S, Della Corte A, Giannolo B, et al. Treatment of type B aortic dissection: endoluminal repair or conventional medical therapy? Eur J Cardiothorac Surg. 2005;27(5):826-30. [MedLine]

37. Fattori R, Montgomery D, Lovato L, Kische S, Di Eusanio M, Ince H, et al. Survival after endovascular therapy in patients with type B aortic dissection: a report from the International Registry of Acute Aortic Dissection (IRAD). JACC Cardiovasc Interv. 2013;6(8):876-82. [MedLine]

No financial support.

Authors' roles & responsibilities

JJD: Final approval of the manuscript, drafting the manuscript; review it critically

JCDVP: Drafting of the manuscript; review it critically

RAB: Final approval of the manuscript, drafting the manuscript; review it critically

ALF: Drafting of the manuscript; review it critically

WKK: Drafting of the manuscript; review it critically

ARF: Final approval of the manuscript

Article receive on quarta-feira, 5 de fevereiro de 2014

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