Complicated Acute Type B Dissection: Is Surgery Still the Best Option?A Report From the International Registry of Acute Aortic Dissection
Rossella Fattori, MD*,*,
Thomas T. Tsai, MD ,
Truls Myrmel, MD, PhD||,
Arturo Evangelista, MD, FESC¶,
Jeanna V. Cooper, MS,
Santi Trimarchi, MD ,
Jin Li, MS,
Luigi Lovato, MD*,
Stephan Kische, MD ,
Kim A. Eagle, MD,
Eric M. Isselbacher, MD#,
Christoph A. Nienaber, MD, FACC, FESC
* University Hospital S. Orsola, Bologna, Italy
University of Michigan Medical Center, Ann Arbor, Michigan
Istituto Policlinico San Donato, Milano, Italy
University of Rostock, Rostock, Germany
|| University Hospital of Tromsø, Tromsø, Norway
¶ Hospital General Universitario Vall d'Hebron, Barcelona, Spain
# Massachusetts General Hospital, Boston, Massachusetts.
 |
Abstract
|
|---|
Objectives: Impact on survival of different treatment strategies was analyzed in 571 patients with acute type B aortic dissection enrolled from 1996 to 2005 in the International Registry of Acute Aortic Dissection.
Background: The optimal treatment for acute type B dissection is still a matter of debate.
Methods: Information on 290 clinical variables were compared, including demographics; medical history; clinical presentation; physical findings; imaging studies; details of medical, surgical, and endovascular management; in-hospital clinical events; and in-hospital mortality.
Results: Of the 571 patients with acute type B aortic dissection, 390 (68.3%) were treated medically, 59 (10.3%) with standard open surgery and 66 (11.6%) with an endovascular approach. Patients who underwent emergency endovascular or open surgery were younger (mean age 58.8 years, p < 0.001) than their counterparts treated conservatively, and had male preponderance and hypertension in 76.9%. Patients submitted to surgery presented with a wider aortic diameter than patients treated by interventional techniques or by medical therapy (5.36 ± 1.7 cm vs. 4.62 ± 1.4 cm vs. 4.47 ± 1.4 cm, p = 0.003). In-hospital complications occurred in 20% of patients subjected to endovascular technique and in 40% of patients after open surgical repair. In-hospital mortality was significantly higher after open surgery (33.9%) than after endovascular treatment (10.6%, p = 0.002). After propensity and multivariable adjustment, open surgical repair was associated with an independent increased risk of in-hospital mortality (odds ratio: 3.41, 95% confidence interval: 1.00 to 11.67, p = 0.05).
Conclusions: In the International Registry of Acute Aortic Dissection, the less invasive nature of endovascular treatment seems to provide better in-hospital survival in patients with acute type B dissection; larger randomized trials or comprehensive registries are needed to access impact on outcomes.
Key Words: aorta • survival • surgery • stent-graft
|
Abbreviations and Acronyms
| | CI = confidence interval | | CVA = cerebrovascular accident | | OR = odds ratio |
|
Optimal therapeutic management of patients with acute type B dissection is controversial. The effective use of medical therapy and gradual improvement of surgical techniques may have resulted in better prognosis in patients with acute ascending aortic dissection, whereas for many years no substantial therapeutic concept has emerged for improved management of type B dissection. Because of high morbidity and mortality associated with surgery of the descending aorta, medical treatment is generally advocated for uncomplicated cases. However, about 30% of acute type B dissections at clinical presentation are complicated by peripheral vascular ischemia or hemodynamic instability, with a subsequent high risk of spontaneous death (1–9).
Recently, endovascular techniques have provided additional opportunities in the treatment of descending aortic diseases (10–12). Initial studies demonstrated technical feasibility of endovascular approaches even to tackle the difficult clinical scenario of type B dissection (13–20). We utilize the resources of the IRAD (International Registry of acute Aortic Dissection) to analyze clinical characteristics, imaging findings, and in-hospital outcomes of patients with type B dissection submitted on an emergency basis to operative intervention, both endovascular and conventional open surgery.
|
Methods
|
|---|
The IRAD is a multinational registry of 20 referral centers in 9 countries designed to provide an unbiased representative population of patients with acute aortic dissection. Full details of the IRAD methods and structure of IRAD have been previously described (21–25). Data were obtained from hospital records of 1,554 patients enrolled in IRAD with acute aortic dissection between 1996 and 2005, 571 of whom were classified as acute type B aortic dissection.
Study population.
We examined data on all patients with acute type B aortic dissection enrolled in IRAD who were treated medically or underwent emergency intervention in the acute phase. Acute type B aortic dissection was defined as any spontaneously occurring nontraumatic dissection involving the descending aorta diagnosed within 14 days of symptom onset (26). Patients were identified prospectively at the time of presentation or retrospectively from discharge diagnosis, and from imaging and surgical databases. Diagnosis was based upon confirmatory imaging, surgical visualization, or autopsy. Surgical repair was performed by open thoracotomy with interposition grafting or open surgical excision of the intimal layer while endovascular techniques consisted of stent-graft placement in the descending aorta using commercially available stent-graft or percutaneous fenestration with or without vessel stenting, according to standard methods.
Data collection.
Data were collected on standardized forms with standard IRAD definitions. Information on 290 clinical variables was collected including patient demographics; medical history; clinical presentation; physical findings; imaging studies; details of medical, surgical, and endovascular management; in-hospital clinical events; length of stay; and in-hospital mortality. Data forms were reviewed for internal consistency and validity and then scanned electronically into an Access database by the IRAD coordinating center at the University of Michigan.
Statistical analysis.
Data are shown as frequencies and percentages, and mean ± SD. Missing data were not defaulted to negative, and denominators reflect only reported cases. Associations of death among nominal variables were compared using the chi-square test or Fisher exact test when appropriate, and among continuous variables using the Student t test.
Because surgery or endovascular treatment was not randomly assigned in this population, potential confounding and selection biases were addressed by developing a propensity score for surgical treatment. Bivariate and multivariate analyses of clinical variables were used to generate the probability of receiving surgery. Multivariate logistic regression was used to determine the independent risk of surgery for in-hospital mortality after maximal adjustment. Initial modeling used variables marginally suggestive of an unadjusted association to in-hospital mortality (p < 0.20). Multistage logistic regression analysis modeled the association between in-hospital death and surgery to assess the incremental impact of propensity, multivariate, and both adjustment methods on the odds of death. The probability was also used to divide the population according to quartiles of propensity score and to compare in-hospital mortality in this selected cohort. Odds ratios (ORs), 95% confidence intervals (CIs), and p values are reported. SPSS 14.0 software (SPSS Inc., Chicago, Illinois) and SAS Version 8.2 (SAS Institute, Cary, North Carolina) were used for all analyses.
|
Results
|
|---|
Demographics and patients' history.
Of the 1,554 patients with acute aortic dissection enrolled in IRAD, 571 (36.7%) suffered an acute type B aortic dissection. Of these, 390 patients were treated medically and 125 were managed with either open surgery (59 patients), or an endovascular approach (66 patients). All patients were initially treated with aggressive antihypertensive and anti-impulse therapy; the subset with complicated type B dissection eventually subjected to emergency care were younger than those treated with medical therapy alone, with a mean age of 58.8 years with stent-graft treatment, and 61.9 years with open surgery versus 65.5 years for the remainder (p < 0.001). Male patients were preponderant among cases with complicated dissection (Table 1). No significant difference was observed with respect to etiology of dissection; however, even though the small number does not allow statistical significance, in 15 patients with Marfan syndrome and type B dissection, 9 (60%) were considered complicated during the acute phase and received endovascular or open surgical treatment.
View this table:
[in this window]
[in a new window]
|
Table 1 Demographics and History of Patients With Acute Type B Dissection, Treated Medically (390 Patients) and Treated in Emergency (125 Patients)
|
|
Clinical presentations, signs, and diagnostic imaging results.
Pain characteristics of patients submitted to emergency treatment was described as worst ever, migrating and with abdominal location (Table 2). Most patients were hypertensive on admission, but symptoms associated with malperfusion, such as limb and visceral ischemia, were more common in patients treated by percutaneous fenestration (p = 0.001). Initial diagnostic tools, such as chest X-ray or electrocardiogram, did not reveal significant difference between stable and unstable patients. In patients who underwent endovascular treatment, an angiographic or magnetic resonance imaging evaluation of the thoracic aorta was used more often than in patients treated medically or with conventional surgery (p = 0.01 and p < 0.001, respectively). Clear localization of the entry site in the descending aorta (p < 0.001) and involvement of abdominal vessels (p = 0.02) were more common in patients treated with endovascular techniques. The widest aortic diameter (5.36 ± 1.7 cm) was observed in patients subjected to open surgery, while the endovascular group (4.62 ± 1.3 cm) and the medically treated patients (4.47± 1.4 cm) had smaller aortic diameters (p = 0.003).
Indications for treatment and treatment modalities (surgical and endovascular).
The 59 open surgical procedures included interposition grafting in 56 patients and surgical fenestration in the remaining 3 by open thoracotomy. Patients submitted to open surgery were treated early compared with patients subjected to endovascular techniques (81.6 ± 114.9 h vs. 217.0 ± 191.6 h, p < 0.001) (Table 3). In the open surgery subset of patients, the most common reason for treatment was extension of dissection (47%, p = 0.003), but a significant proportion also had recurrent and refractory pain (22.0% and 15.3%, respectively), visceral ischemia 18.6%, and limb ischemia 11.9% (Table 3). Endovascular techniques consisted of stent-graft placement in the descending aorta in 43 patients and percutaneous fenestration in 23 patients. The most frequent reasons for treatment were recurrent (46.3%) or refractory pain (19.5%) in the stent-graft group while limb (42.9%) and visceral ischemia (42.9%) were the most common indications for patients treated with percutaneous fenestration. However, extension of dissection was seen as a frequent indicator of disease progression and instability in the endovascular stent-graft and fenestration groups (11 [26.8%] and 2 [9.5%] patients, respectively).
In-hospital complications and mortality.
In-hospital complications occurred in 21% of patients subjected to an endovascular technique and in 40% of patients undergoing open interposition grafting or fenestration (p = 0.04) (Table 4). Acute renal failure and cerebrovascular accident (CVA) were frequent complications in both groups. Conversely, paraplegia was observed in 3 patients treated with open surgery, and 1 patient each after stent-graft and fenestration. Relief of visceral and limb ischemia was observed in 9 of 18 patients subjected to percutaneous fenestration, in 16 of 17 patients after stent-graft, and in 4 of 14 patients after conventional open surgery (Tables 3 and 4). In-hospital mortality was significantly higher after open surgery (interposition grafting and open fenestration, 20 of 59 patients, 33.9%) than after endovascular treatment (stent-graft placement and percutaneous fenestration, 7 of 66 patients, 10.6%, p = 0.002).
View this table:
[in this window]
[in a new window]
|
Table 4 In-Hospital Complications and Mortality of Repair of the Descending Aorta by Percutaneous Techniques (Stent-Graft or Fenestration, 66 Patients), and Open Surgical Techniques (Surgical Interposition Grafting or Fenestration, 59 Patients)
|
|
After multivariate adjustment, surgery versus endovascular treatment in patients with complicated acute type B aortic dissection was independently associated with in-hospital mortality (OR: 3.89; 95% CI: 1.27 to 11.91; p = 0.02) (Table 5). In multistage logistic regression, the association between surgery and in-hospital mortality remained significant with propensity adjustment alone and multivariate adjustment including propensity score. Furthermore, quartiles 2 and 3 (Fig. 1) of propensity matched quartiles were used for further analysis because of the balance of surgical and endovascular patients in this group. Mortality was significantly higher in patients treated with surgery versus patients treated with endovascular therapy (43.8% vs. 6.9%, p = 0.006). Patients treated with stent-graft placement in the descending aorta showed the lowest mortality (4 of 43 patients, 9.3%), which is similar to the mortality of patients treated medically (34 of 390 patients, 8.7%). CVA and persistent visceral ischemia were the main causes of death after stent-graft placement and fenestration, while aortic rupture was the most frequent cause of death in patients submitted to open surgery, reported in 13 of 19 patients (Fig. 2). Kaplan-Meier overall in-hospital survival estimates were significantly better for medical and endovascular patients with respect to patients submitted to open surgery (Fig. 3) (medical vs. surgical p < 0.001, endovascular vs. surgical p = 0.001).
View this table:
[in this window]
[in a new window]
|
Table 5 Association Between Surgery and In-Hospital Mortality in Patients With Acute Complicated Type B Aortic Dissection: Effect of Multivariate Adjustment (Endovascular Treatment in the Reference Group)
|
|
View larger version (15K):
[in this window]
[in a new window]
[Download PPT slide]
|
Figure 1 Propensity-Matched Quartiles
In quartiles 1 and 4, the patients are less well matched and are treated predominantly with endovascular therapy in quartile 1 and surgery in quartile 2. Quartiles 2 and 3 are well matched and balanced with regard to therapy (16 surgery and 29 endovascular therapy).
|
|
|
Discussion
|
|---|
The appropriate treatment strategy for descending aortic dissection has long been a matter of debate and continues to be a challenge. There is a general agreement that patients with an initially uncomplicated type B aortic dissection should not receive open surgery but rather medical therapy focusing on beta-blockers to decrease the force of cardiac contraction on the aortic wall and reducing blood pressure in patients with aortic medial disease (27,28). Meanwhile, rapid diagnosis, intensive monitoring, and aggressive blood pressure management are factors likely to improve outcome. However, in about one-third of patients, specific initial findings such as refractory hypertension, recurrent pain, or malperfusion indicate instability, which may require a more aggressive approach (4). Unfortunately, despite significant improvement in anesthesia, surgical techniques, and post-operative care, mortality of emergent open surgical repair of acute type B dissection remains high (25% to 50%) in many reports, and only a few single-center series have reported more favorable results (8,9).
Recently, the advent of endovascular techniques has provided new therapeutic options to the treatment of thoracic aortic diseases (13,14). Initial series and subsequent multicenter trials demonstrated technical feasibility and a low rate of complications even in high-risk patients with type B dissection unfit for open surgery (11,12). First applied in the treatment of abdominal and thoracic aneurysm, results of stent-graft treatment on thoracic aortic dissection showed the potential for improved survival with respect to open surgery, especially in unstable patients with impending rupture. However, a direct comparison between stent-graft and conventional open surgery is scarce. The IRAD database offers a unique opportunity to analyze outcomes in large numbers of consecutive patients treated for aortic dissection in 20 referral centers around the world. The IRAD analysis, which reflects the "real-word" scenario, supports the premise of potential advantages in survival of endovascular compared with open surgical strategies. While endovascular reconstruction of complicated type B dissection lowered short-term mortality to the level of uncomplicated type B dissection with medical treatment, conventional surgery confirmed the high mortality associated with the open approach. Of course, since our study is not randomized, part of this association may be related to selection bias in treatment modality and may reflect different treatment strategy in different institutions. It is important to note that in the first years of IRAD enrollment (1996 to 2000), stent-graft treatment was possible only in few referral centers; therefore, it was not reflecting of common practice at community hospitals. Nowadays technical evolution and wider diffusion of aortic stent-graft allow immediate emergency treatment of complicated type B dissection in many centers. On the contrary, in the first years of IRAD, the extended period (from 4 to 7 days) necessary for providing a custom-made stent-graft may have contributed to clinical selection bias. Patients treated with conventional surgical approach had a widest aortic diameter and periaortic hematoma and were treated earlier than patients submitted to endovascular repair, suggesting a subset of patients at a greatest risk. However, potential confounding and selection biases were minimized by developing a propensity score for surgical treatment to balance the covariates in the surgical and endovascular groups. After propensity adjustment alone and propensity with regression adjustment, the point estimate remained significant for an increased mortality with open surgery versus endovascular treatment. Furthermore, when evaluating mortality in quartiles 2 and 3, which represents a balanced treatment and covariate mix, mortality is highest in the surgically treated cohort (Table 6). There remain methodological concerns when using propensity and regression adjustments, which are only as "good" as the measured covariates and the decision to perform urgent open surgery versus endovascular therapy may not be easily captured. The evolution of stent-grafts to cover the primary tear and expanded indications for surgery from centers around the world make heterogeneity between surgical versus endovascular indications a significant issue. Nonetheless, propensity with covariate adjustment attempts to minimize this selection bias.
Imaging modalities have evolved in recent years to allow more rapid, detailed, and noninvasive diagnosis in aortic dissection; nevertheless, from 390 patients deemed stable and treated medically, 34 died during in-hospital course, emphasizing how recognition of an unstable condition remains a challenge. Malperfusion from aortic branch-vessel obstruction is one of the most important causes of morbidity and mortality in type B dissection, with mortality rate for patients with compromised visceral perfusion ranging from 43% to 50% (29). The mechanisms may involve a static narrowing of the vessel lumen by means of aortic wall hematoma or dynamic obstruction by means of the dissection flap prolapsing into the side branch orifice. Surgical fenestration, despite a wide array of open surgical strategies, showed a high mortality even in recent series (29–32). Because of more rapid access and limited blood loss, percutaneous techniques provided better results, with overall technical success exceeding 90%, and 30-day mortality of 25% (33–35). In the series reported from IRAD, mortality of patients submitted to endovascular fenestration was very low (3 of 23 patients, 13%), and in all cases the cause of death was determined by persistent visceral ischemia despite the technical success of fenestration. The purpose of both surgical and percutaneous fenestration techniques is to create a communication between the 2 aortic lumens in order to equalize pressure and flow in both of the lumens and in their branch vessels. However, both intimal flap excision and enlargement of re-entry site by balloon inflation may fail to stabilize for aortic rupture or late lumen dilation (36). Conversely, by the physiologic effect of stent-graft closure of the entry site, flow is directed exclusively toward the true lumen improving branch vessel perfusion with a less traumatic approach. In the present series, a relief of visceral ischemia was observed in 16 of 17 patients with malperfusion syndrome submitted to stent-graft placement, in 9 of 18 treated with percutaneous fenestration, and in just 4 of 14 patients treated with open surgery.
Study limitations.
Some considerations are important in interpreting the results of this study. First, the IRAD cohort is referred to patients treated at centers specialized in aortic disease, and therefore may not reflect management of patients treated at community hospitals. Second, in IRAD, patient entries were not randomized to a pre-determined treatment strategy and rather reflect a retrospective observation, and results may partially be related to selection bias. Furthermore, even after maximal adjustment with the aid of propensity and multivariate models, the full clinical picture that determines the decision for surgery versus endovascular therapy may not be fully adjusted for. Third, as all retrospective observational studies, the database is subject to referral and ascertainment bias and information on complications and cause of death may reflect different data interpretation.
|
Conclusions
|
|---|
Complicated acute and subacute type B dissection remains a clinical challenge. Patients with complicated type B dissection and signs of clinical instability at presentation have a high risk of in-hospital mortality. With recognition of clinical and imaging findings of instability, the choice of endovascular stent-graft placement may offer a strategy to optimize management and improve in-hospital prognosis. In IRAD, endovascular treatment seems to offer better short-term outcome in terms of mortality and associated complications than open surgical repair. Long-term follow-up is necessary to assess late outcomes and establish the ultimate treatment strategy.
|
Appendix
|
|---|
For a complete list of investigators, please see the online version of this article.
|
Footnotes
|
|---|
The International Registry of Acute Aortic Dissection (IRAD) is supported by grants from the University of Michigan Health System and the Varbedian Fund for Aortic Research.
* Reprint requests and correspondence: Dr. Rossella Fattori, Cardiothoracovascular Department, University Hospital S. Orsola, Via Massarenti 9, 40138 Bologna, Italy. (Email: rossella.fattori{at}unibo.it).
Manuscript received December 17, 2007;
revised manuscript received March 31, 2008,
accepted April 30, 2008.
|
REFERENCES
|
|---|
- Glower DD, Fann JI, Speier RH, et al. Comparison of medical and surgical therapy for uncomplicated descending aortic dissection Circulation 1990;82:39-46.
- Masuda Y, Yamada Z, Morooka N, Watanabe S, Inagaki Y. Prognosis of patients with medically treated aortic dissections Circulation 1991;84:7-13.[Web of Science]
- Umana JP, Lai DT, Mitchell RS, et al. Is medical therapy still the optimal treatment strategy for patients with acute type B aortic dissections? J Thorac Cardiovasc Surg 2002;124:896-910.[Abstract/Free Full Text]
- Elefteriades JA, Hartleroad J, Gusberg RJ, et al. Long-term experience with descending aortic dissection: the complication-specific approach Ann Thorac Surg 1992;53:11-21.[Abstract]
- Gysi J, Schaffner T, Mohacsi P, Aeschbacher B, Althaus U, Carrel T. Early and late outcome of operated and nonoperated acute dissection of the descending aorta Eur J Cardiothorac Surg 1997;11:1163-1168.[Abstract]
- Safi HJ, Miller 3rd CC, Reardon MJ, et al. Operations for acute and chronic dissection: recent outcomes in regard to neurological deficit and early death Ann Thorac Surg 1998;66:401-411.
- Marui A, Mochizuki T, Mitsui N, Koyama T, Kimura F, Horibe M. Toward the best treatment for uncomplicated patients with type B acute aortic dissection: a consideration for sound surgical indication Circulation 1999;100:II275-II280.[Medline]
- Schor JS, Yerlioglu E, Galla JD, Lansman SL, Ergin MA, Griepp RB. Selective management of acute type B aortic dissection: long-term follow-up Ann Thorac Surg 1996;61:1339-1341.[Abstract/Free Full Text]
- Gaze J, Schaffner T, Mohacsi P, Aeschbacher B, Althaus U, Carrel T. Early and late outcome of operated and non-operated acute dissection of the descending aorta Eur J Cardiothorac Surg 1997;11:1163-1170.[Abstract]
- 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;331:1729-1734.[Abstract/Free Full Text]
- Leurs LJ, Bell R, Degrieck Y, Thomas S, Hobo R, Lundbom J, EUROSTAR and the 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;40:670-680.[CrossRef][Web of Science][Medline]
- Fattori R, Nienaber CA, Rousseau H, et al. Talent Thoracic Retrospective Registry Results of endovascular repair of the thoracic aorta with the Talent Thoracic stent graft: the Talent Thoracic Retrospective registry J Thorac Cardiovasc Surg 2006;132:332-339.[Abstract/Free Full Text]
- Dake MD, Kato N, Mitchell RS, et al. Endovascular stentgraft placement for the treatment of acute aortic dissection N Engl J Med 1999;340:1546-1552.[Abstract/Free Full Text]
- Nienaber CA, Fattori R, Lund G, et al. Nonsurgical reconstruction of thoracic aortic dissection by stent-graft placement N Engl J Med 1999;340:1539-1545.[Abstract/Free Full Text]
- Hausegger KA, Tiesenhausen K, Schedlbauer P, Oberwalder P, Tauss J, Rigler B. Treatment of acute aortic type B dissection with stent-grafts Cardiovasc Intervent Radiol 2001;24:306-312.[CrossRef][Web of Science][Medline]
- Tiesenhausen K, Amann W, Koch G, Hausegger KA, Oberwalder P, Rigler B. Endovascular stent-graft repair of acute thoracic aortic dissection—early clinical experiences J Thorac Cardiovasc Surg 2001;49:16-20.[CrossRef]
- Hutschala D, Fleck T, Czerny M, et al. Endoluminal stent-graft placement in patients with acute aortic dissection type B Eur J Cardiothorac Surg 2002;21:964-969.[Abstract/Free Full Text]
- Lopera J, Patino JH, Urbina C, et al. Endovascular treatment of complicated type-B aortic dissection with stent-grafts: midterm results J Vasc Interv Radiol 2003;14:195-203.[Web of Science][Medline]
- Eggebrecht H, Herold U, Kuhnt O, et al. Endovascular stent-graft treatment of aortic dissection: determinants of post-interventional outcome Eur Heart J 2005;26:489-497.[Abstract/Free Full Text]
- Fattori R, Lovato L, Buttazzi K, Russo V. Evolving experience of percutaneous management of type B aortic dissection Eur J Vasc Endovasc Surg 2006;31:115-122.[CrossRef][Web of Science][Medline]
- Hagan PG, Nienaber CA, Isselbacher EM, et al. The International Registry of Acute Aortic Dissection (IRAD): new insights into an old disease JAMA 2000;283:897-903.[Abstract/Free Full Text]
- Suzuki T, Mehta RH, Ince H, et al. International Registry of Aortic Dissection Clinical profiles and outcomes of acute type B aortic dissection in the current era: lessons from the International Registry of Aortic Dissection (IRAD) Circulation 2003;108(Suppl 1):II312-II317.[Medline]
- Tsai TT, Evangelista A, Nienaber CA, et al. International Registry of Acute Aortic Dissection (IRAD) Long-term survival in patients presenting with type A acute aortic dissection: insights from the International Registry of Acute Aortic Dissection (IRAD) Circulation 2006;114(Suppl 1):I350-I356.[Medline]
- Tsai TT, Fattori R, Trimarchi S, et al. International Registry of Acute Aortic Dissection Long-term survival in patients presenting with type B acute aortic dissection: insights from the International Registry of Acute Aortic Dissection Circulation 2006;114:2226-2231.[Abstract/Free Full Text]
- Rampoldi V, Trimarchi S, Eagle KA, et al. International Registry of Acute Aortic Dissection (IRAD) Investigators Simple risk models to predict surgical mortality in acute type A aortic dissection: the International Registry of Acute Aortic Dissection score Ann Thorac Surg 2007;83:55-61.[Abstract/Free Full Text]
- Svensson LG, Crawford ES. Aortic dissectionIn: Svensson LG, Crawford ES, editors. Cardiovascular and Vascular Disease of the Aorta. Philadelphia, PA: W.B. Saunders Company; 1997. pp. 42-83.
- Wheat Jr MW, Palmer RF, Bartley TD, Seelman RC. Treatment of dissecting aneurysms of the aorta without surgery J Thorac Cardiovasc Surg 1965;50:364-366.[Web of Science][Medline]
- Estrera AL, Miller CC, Goodrick J, et al. Update on outcomes of acute type B aortic dissection Ann Thorac Surg 2007;83:S842-S845.[Abstract/Free Full Text]
- Cambria RP, Brewster DC, Gertler J, et al. Vascular complications associated with spontaneous aortic dissection J Vasc Surg 1988;7:199-209.[CrossRef][Web of Science][Medline]
- Shaw RS. Acute dissecting aortic aneurysm. Treatment by fenestration of the internal wall of the aneurysm. N Engl J Med 1955;253:331-333.[Web of Science][Medline]
- DeBakey ME, McCollum CH, Crawford ES, Morris Jr GC, Howell J, Noon GP. Dissection and dissecting aneurysms of the aorta: twenty-year follow-up of five hundred twenty-seven patients treated surgically Surgery 1982;92:1118-1134.[Web of Science][Medline]
- Elefteriades JA, Hammond GL, Gusberg RJ, Kopf GS, Baldwin JC. Fenestration revisited. A safe and effective procedure for descending aortic dissection. Arch Surg 1990;125:786-790.[Abstract/Free Full Text]
- Williams DM, Brothers TE, Messina LM. Relief of mesenteric ischemia in type III aortic dissection with percutaneous fenestration of the aortic septum Radiology 1990;174:450-452.[Abstract/Free Full Text]
- Slonim SM, Miller DC, Mitchell RS, Semba CP, Razavi MK, Dake, MD. Percutaneous balloon fenestration and stenting for lifethreatening ischemic complications in patients with acute aortic dissection J Thorac Cardiovasc Surg 1999;117:1118-1126.[Abstract/Free Full Text]
- Williams DM, Lee DY, Hamilton BH, et al. The dissected aorta: percutaneous treatment of ischemic complications—principles and results J Vasc Interv Radiol 1997;8:605-625.[Web of Science][Medline]
- Lookstein RA, Mitty H, Falk A, Guller J, Nowakowski A. Aortic intimal dehiscence: a complication of percutaneous balloon fenestration for aortic dissection J Vasc Intervent Radiol 2001;12:1347-1350.[Web of Science][Medline]
Related Article
-
Once Dissected Always Dissected! Can Stent Grafts Change the Natural History of Type B Dissections?: A Report From the International Registry of Acute Aortic Dissection
- Alan B. Lumsden and Michael J. Reardon
J. Am. Coll. Cardiol. Intv. 2008 1: 403-404.
[Full Text]
[PDF]
This article has been cited by other articles:
|
|
|
|
 
L. Botta, V. Russo, C. La Palombara, M. Rosati, R. Di Bartolomeo, and R. Fattori
Stent graft repair of descending aortic dissection in patients with Marfan syndrome: An effective alternative to open reoperation?
J. Thorac. Cardiovasc. Surg.,
November 1, 2009;
138(5):
1108 - 1114.
[Abstract]
[Full Text]
[PDF]
|
|
|
|
|
|
|
D. Y. Sze, M. A.A.J. van den Bosch, M. D. Dake, D. C. Miller, L. V. Hofmann, R. Varghese, S. C. Malaisrie, P. J.A. van der Starre, J. Rosenberg, and R. S. Mitchell
Factors Portending Endoleak Formation After Thoracic Aortic Stent-Graft Repair of Complicated Aortic Dissection
Circ Cardiovasc Intervent,
April 1, 2009;
2(2):
105 - 112.
[Abstract]
[Full Text]
[PDF]
|
|
|
|
|
|
|
C. A. Nienaber, I. Akin, R. Erbel, and A. Haverich
CHAPTER 31 Diseases of the Aorta and Trauma to the Aorta and the Heart
ESC Textbook of Cardiovascular Medicine,
January 1, 2009;
2(1):
med-9780199566990-chapter - med-9780199566990-chapter.
[Abstract]
[Full Text]
[PDF]
|
|
|
|
|
|
|
A. B. Lumsden and M. J. Reardon
Once Dissected Always Dissected! Can Stent Grafts Change the Natural History of Type B Dissections?: A Report From the International Registry of Acute Aortic Dissection
J. Am. Coll. Cardiol. Intv.,
August 1, 2008;
1(4):
403 - 404.
[Full Text]
[PDF]
|
|
|
|
Top
Abstract
Methods
