. “Aortic Arch Surgery: Principles, Strategies and Outcomes” Wiley-Blackwell | 2008-09-29 | ISBN: 1405133619 | 400 pages | PDF. Aortic Arch Surgery: Principles, Strategies and Outcomes gives practicing and prospective. . the surgical adjuncts for aortic surgery were in. has greatly improved contemporary survival rates and outcomes after open aortic arch. Aortic arch surgery: principles, strategies, and outcomes.
Evolution of Aortic Arch Repair. Tex Heart Inst J. Denton A. Cooley, MD, Section Editor and Scott A. Le. Maire, MD, Section Editor. Division of Cardiothoracic Surgery, Michael E. De. Bakey Department of Surgery, Baylor College of Medicine; and Texas Heart Institute at St. Luke's Episcopal Hospital; Houston, Texas 7.
Key words: Aneurysm, dissecting/surgery; aorta, thoracic/surgery; aortic aneurysm/surgery; blood vessel prosthesis implantation/methods; brachiocephalic trunk/surgery; prosthesis design; stents; vascular surgical procedures/methods. Copyright © 2. 00. Texas Heart® Institute, Houston. This article has been cited by other articles in PMC. By the mid- 1. 95. The aortic arch had been particularly challenging to repair, largely because one had to somehow interrupt the natural flow of blood both to the brain and to the downstream organs. At that time, the surgical adjuncts for aortic surgery were in their infancy, and techniques commonly used in modern practice—namely, hypothermia and cardiopulmonary bypass—were so primitive as to be barely recognizable today.
Arch repair with aortic replacement was first attempted by Schafer and Hardin in 1. In 1. 95. 5, Cooley, Mahaffey, and De. Bakey. 2 used moderate hypothermia and bypass shunts together in an ultimately unsuccessful attempt at arch repair. What was notable about this case is that, although ventricular fibrillation occurred early in the repair (after aortic clamping), it spontaneously corrected itself. Regrettably, the patient did not regain consciousness and died on postoperative day 6. It was not until another emerging technique, cardiopulmonary bypass (which included an early form of antegrade cerebral perfusion), was added that De. Bakey and colleagues.
In the late 1. 96. Despite these advances, arch- replacement operations were relatively infrequent and continued to have high rates of mortality and neurologic complications. In the mid- 1. 97. Griepp and colleagues' introduction of hypothermic circulatory arrest (HCA)5 was a major advance that greatly enhanced the safety of arch- replacement procedures, although visualization of the distal anastomosis, hemorrhage, embolization, and the threshold for acceptable durations of cerebral ischemia remained concerns. Evolution of Open Aortic Arch Repair.
Although Griepp's original arch strategy eliminated cannulation of the brachiocephalic vessels, the use of cerebral perfusion was reconsidered by Frist and colleagues. Subsequent advances focused on improving brain protection by defining an approximately 3. RCP) or antegrade cerebral perfusion (ACP). Although cerebral perfusion has been investigated since the mid- 1. Regardless, selective antegrade cerebral perfusion via axillary artery cannulation appears to be the superior approach, on the basis of decreased oxygen saturation during RCP,8 decreased neurocognitive function after RCP (when compared with circulatory arrest alone. ACP (unlike RCP) appears to neutralize the impact of extended circulatory arrest time on rates of death and stroke. The development of softer and more flexible perfusion catheters (to clear the operative field and to minimize cannulation injury)—in addition to the improvement of cerebral monitoring—has greatly improved contemporary survival rates and outcomes after open aortic arch repair.
One of the most promising recent innovations in aortic arch repair is the trifurcated graft technique. In this approach, a trifurcated graft is anastomosed to the branch vessels and ultimately is anastomosed anterolaterally to the newly replaced ascending aorta, which avoids overmanipulation of diseased or atherosclerotic arch vessels and minimizes cerebral ischemia by enabling straightforward antegrade cerebral perfusion.
This can be modified as an elephant trunk technique, either for traditional open completion or for “hybrid” endovascular completion. A benefit of this approach to elephant trunk repair is that the distal anastomosis can be brought forward (because it is no longer anatomically limited by the left subclavian artery); this enables better visualization and enhances hemostasis of the distal anastomosis while simultaneously expediting repair and reducing the period of circulatory arrest (Fig.
Fig. 1 A completed aortic arch replacement using a trifurcated graft technique modified as an elephant trunk repair. With this technique, the brachiocephalic vessels are rerouted, and the distal anastomosis is created proximal to the origin of the left..
Evolution of Endovascular Aortic Arch Repair. Current options for aortic arch repair have grown to encompass several distinct endovascular strategies, including both purely endovascular and “hybrid” endovascular and surgical approaches. Purely endovascular approaches are largely experimental and range from using single- branched endovascular devices (designed to incorporate the left subclavian artery) to using triple- branched or triple- fenestrated stent- grafts to repair the aortic arch.
These techniques are performed only in highly specialized centers. Hybrid repairs, which are in wider use at more centers, involve “debranching” some or all of the brachiocephalic arteries—thereby essentially lengthening the branchless aorta—and then using standard “tube” stent- grafts to exclude the diseased portion of the aortic arch. Theoretically, hybrid and purely endovascular aortic arch repairs should have lower short- term mortality and morbidity rates than does open surgery.
However, these repairs are reserved for high- risk patients, so it is difficult to compare the results of these procedures with the results of traditional open operations. Although short- term morbidity appears to be reduced in hybrid repairs, it is not clear that early death is reduced. In addition to the uncertain long- term functionality and durability of endovascular devices,1. The process of debranching the aortic arch and rerouting the brachiocephalic circulation enables great flexibility. In general, however, the complexity of repair increases as more vessels are incorporated into the repair and as the repair moves proximally to incorporate the brachiocephalic trunk. To limit the number of rerouted vessels, many centers selectively occlude the left subclavian artery, but this carries some risk of ischemic complications.
Recently, highly specialized arch- debranching grafts have been developed specifically for use in hybrid repairs. These grafts have an extra branch that serves as a conduit for antegrade stent- graft deployment in single- stage hybrid repair. In theory, using antegrade deployment reduces the risk of embolization and stroke. As an additional option, the surgeon may transpose the native left subclavian and left common carotid arteries onto the brachiocephalic trunk to lengthen the proximal landing zone for subsequent endovascular repair. The endovascular stage of repair can be performed either simultaneously or later, and either antegrade or retrograde.
Among the newly evolving hybrid approaches is the “frozen elephant trunk” procedure, in which a hybrid device containing a Dacron graft attached to a stent- graft is deployed in an antegrade fashion under direct vision: the stent- graft covers the distal portion of the repair, and the proximal graft portion replaces the arch. Predictions for Future Aortic Arch Repair. The future of aortic arch repair will no doubt encompass the latest developments in both open and endovascular repair. In most centers, purely endovascular repair will remain a highly selective, infrequently used approach. However, hybrid repairs will continue to combine the most innovative aspects of open and endovascular repair. We foresee the trifurcated graft approach as the dominant mode of open arch repair, yet there will remain a need for continuing innovation in cerebral- protection techniques.
The development of new custom and commercial debranching grafts, with and without conduit channels, will be a valuable advance. Current guidelines reserve hybrid repair for patients who are unable to withstand open repair, but if hybrid results improve, one would expect these procedures to be extended to low- risk patients as a direct alternative to open arch repair.
Moreover, in part because our aging population is prone to atherosclerosis, we envision that greater numbers of arch repairs will be performed on high- risk elderly patients, with better results than previously could have been imagined. Acknowledgments. The authors thank Scott A. Weldon, MA, CMI, for creating the medical illustration, and Stephen N.
Palmer, Ph. D, ELS, for invaluable editorial support. Footnotes. Address for reprints: Joseph S. Coselli, MD, Division of Cardiothoracic Surgery, Michael E. De. Bakey Department of Surgery, Baylor College of Medicine, MS: BCM 3. Baylor Plaza, Houston, TX 7. E- mail: ude. mcb@illesocj. Presented at the 1.
International Symposium of the Denton A. Cooley Cardiovascular Surgical Society, Galveston, Texas, 4–7 June 2. References. 1. Schafer PW, Hardin CA.
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