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Case Report
Catheter-Induced Left Main Coronary Artery Dissection Resulting in Abrupt Closure and Cardiac Arrest: Successful Stenting during
April 2007
Left main coronary artery (LMCA) dissection is a rare but potentially life-threatening complication of percutaneous coronary intervention (PCI). LMCA dissection is the harbinger of catastrophic vessel closure. It can be precipitated by the manipulation of interventional hardware in the LMCA ostium. Sharp angulation at the LMCA-LAD (left anterior descending artery) junction appears to be a risk factor for LMCA dissections.1 The usual management of LMCA injury is coronary artery bypass grafting surgery (CABG); however, bailout stenting has also been shown to be safe and feasible, and may be life-saving in cases of acute LMCA occlusion.2
We present here a case of a guide catheter-induced LMCA dissection that resulted in abrupt closure and cardiac arrest and subsequent successful stent implantation during cardiopulmonary resuscitation (CPR).
Case Report. A 70-year-old female with hypertension, diabetes mellitus, and a 2-month history of exertional angina presented to the emergency department with long-lasting, severe retrosternal chest pain. Electrocardiography demonstrated ST-segment elevation in the anterior leads consistent with acute anterior myocardial infarction (MI). Thus, t-PA (tissue plasminogen activator) was administered 5 hours after the patient first experienced the pain. On the third day of her admission, coronary angiography was performed due to post-MI angina.
Coronary angiography showed a mild stenosis at the mid-portion of a nondominant right coronary artery. There was severe stenosis at the proximal LAD (Figure 1). The decision was made to proceed with an intervention on the LAD. First, a 6 Fr left Judkins guide catheter (JL4) (Medtronic, Inc., Minneapolis, Minnesota) was used in an attempt to cannulate the LMCA, but due to high takeoff, the catheter could not be engaged coaxially. Consequently, a 6 Fr left Amplatz (AL2) guide catheter (Medtronic) was used, and after engaging, angiography revealed staining in the body of the LMCA with TIMI (thrombosis in myocardial infarction) 0 flow distally. The patient developed cardiopulmonary arrest within seconds and CPR was initiated with endotracheal intubation and manual chest compression.
While resuscitating the patient, the AL2 guide catheter was removed and a 6 Fr FL5 guide catheter (Medtronic) was engaged in the LMCA. A floppy guidewire (Asahi Intecc, Japan) was crossed to the LMCA and the circumflex (Cx) artery (Figure 2), and a 22 x 4 mm bare-metal stent (Gendyl, Blue Medical, The Netherlands) was implanted in the LMCA and proximal Cx. Angiography demonstrated visualization of the Cx artery, but TIMI 0 flow to the LAD (Figure 3). Multiple episodes of ventricular fibrillation requiring repeated defibrillation (total of 18) occurred, which reverted to asystole again after shocks were administered. Amiodarone was administered. We attempted to cross to the LAD with an intermediate guidewire (Asahi Intecc, Japan) through the stent struts while manual cardiac massage was ongoing. After successfully crossing the guidewire to the LAD, the angiogram revealed TIMI 1–2 flow to the LAD, and subsequent defibrillation reverted to sinus rhythm after 45 minutes of CPR. An intra-aortic balloon pump (IABP) was immediately placed. Stent struts were dilated with a 3 x 15 mm balloon (Troya, Nemed, Turkey) at 8 atm, and a 2.75 x 25 mm stent (Aachen Flex Force, Germany) was implanted in the proximal LAD (Figure 4). Final injection revealed brisk TIMI 3 flow (Figure 5) and the patient was transferred to the coronary care unit. She was extubated and had the IABP removed within 24 hours. She developed nonoliguric renal failure with a maximum creatinine level of 4.6 mg/dl, which completely resolved with intravenous hydration. She was discharged on postoperative day-14. At her 6-month follow up she was free of angina.
Discussion. Catheter-induced LMCA dissection is an uncommon but devastating complication of coronary angiography and percutaneous coronary intervention.3 The incidence of iatrogenic LMCA dissections is 0.02–0.035%.4,5,7,8 Risk factors associated with this complication are calcification of the LMCA, atherosclerotic disease of the left main stem, and anatomical distortion such as sharp angulation at the LMCA-LAD junction.1,6,9
The etiology of LMCA dissections can be classified as: (1) iatrogenic;4,7 (2) spontaneous;5,8 and (3) a complication of aortic root dissection.6,9
Extensive dissection of the coronary artery induced by a mechanical device may precipitate abrupt vessel closure. The management of left main dissections can be conservative, percutaneous intervention, or bypass surgery.2,10–12 Since the natural history of left main dissections are not well documented and largely unknown, treatment should be individualized on a case-by-case basis. Alfonso et al10 suggested watchful waiting for hemodynamically stable patients with a low-grade dissection. The presence of hemodynamic instability is a clear indication for intervention. Aortic involvement of 40 mm or more from the coronary ostium was considered a clear indication for surgical intervention.13 Lee at al2 reported that in a small number of patients with catheter-induced LMCA dissections, bailout stenting was safe and feasible.
In our case, an acute coronary occlusion developed at the LMCA after engaging an Amplatz (AL2) guide catheter, which resulted in cardiopulmonary arrest. The unique features of this report are the successful bailout stenting of the LMCA during the 45-minute long CPR period, and the patient’s complete recovery.
In conclusion, catheter-induced LMCA dissections are rare, but do occur. Emergency bailout stenting could be life-saving.
We present here a case of a guide catheter-induced LMCA dissection that resulted in abrupt closure and cardiac arrest and subsequent successful stent implantation during cardiopulmonary resuscitation (CPR).
Case Report. A 70-year-old female with hypertension, diabetes mellitus, and a 2-month history of exertional angina presented to the emergency department with long-lasting, severe retrosternal chest pain. Electrocardiography demonstrated ST-segment elevation in the anterior leads consistent with acute anterior myocardial infarction (MI). Thus, t-PA (tissue plasminogen activator) was administered 5 hours after the patient first experienced the pain. On the third day of her admission, coronary angiography was performed due to post-MI angina.
Coronary angiography showed a mild stenosis at the mid-portion of a nondominant right coronary artery. There was severe stenosis at the proximal LAD (Figure 1). The decision was made to proceed with an intervention on the LAD. First, a 6 Fr left Judkins guide catheter (JL4) (Medtronic, Inc., Minneapolis, Minnesota) was used in an attempt to cannulate the LMCA, but due to high takeoff, the catheter could not be engaged coaxially. Consequently, a 6 Fr left Amplatz (AL2) guide catheter (Medtronic) was used, and after engaging, angiography revealed staining in the body of the LMCA with TIMI (thrombosis in myocardial infarction) 0 flow distally. The patient developed cardiopulmonary arrest within seconds and CPR was initiated with endotracheal intubation and manual chest compression.
While resuscitating the patient, the AL2 guide catheter was removed and a 6 Fr FL5 guide catheter (Medtronic) was engaged in the LMCA. A floppy guidewire (Asahi Intecc, Japan) was crossed to the LMCA and the circumflex (Cx) artery (Figure 2), and a 22 x 4 mm bare-metal stent (Gendyl, Blue Medical, The Netherlands) was implanted in the LMCA and proximal Cx. Angiography demonstrated visualization of the Cx artery, but TIMI 0 flow to the LAD (Figure 3). Multiple episodes of ventricular fibrillation requiring repeated defibrillation (total of 18) occurred, which reverted to asystole again after shocks were administered. Amiodarone was administered. We attempted to cross to the LAD with an intermediate guidewire (Asahi Intecc, Japan) through the stent struts while manual cardiac massage was ongoing. After successfully crossing the guidewire to the LAD, the angiogram revealed TIMI 1–2 flow to the LAD, and subsequent defibrillation reverted to sinus rhythm after 45 minutes of CPR. An intra-aortic balloon pump (IABP) was immediately placed. Stent struts were dilated with a 3 x 15 mm balloon (Troya, Nemed, Turkey) at 8 atm, and a 2.75 x 25 mm stent (Aachen Flex Force, Germany) was implanted in the proximal LAD (Figure 4). Final injection revealed brisk TIMI 3 flow (Figure 5) and the patient was transferred to the coronary care unit. She was extubated and had the IABP removed within 24 hours. She developed nonoliguric renal failure with a maximum creatinine level of 4.6 mg/dl, which completely resolved with intravenous hydration. She was discharged on postoperative day-14. At her 6-month follow up she was free of angina.
Discussion. Catheter-induced LMCA dissection is an uncommon but devastating complication of coronary angiography and percutaneous coronary intervention.3 The incidence of iatrogenic LMCA dissections is 0.02–0.035%.4,5,7,8 Risk factors associated with this complication are calcification of the LMCA, atherosclerotic disease of the left main stem, and anatomical distortion such as sharp angulation at the LMCA-LAD junction.1,6,9
The etiology of LMCA dissections can be classified as: (1) iatrogenic;4,7 (2) spontaneous;5,8 and (3) a complication of aortic root dissection.6,9
Extensive dissection of the coronary artery induced by a mechanical device may precipitate abrupt vessel closure. The management of left main dissections can be conservative, percutaneous intervention, or bypass surgery.2,10–12 Since the natural history of left main dissections are not well documented and largely unknown, treatment should be individualized on a case-by-case basis. Alfonso et al10 suggested watchful waiting for hemodynamically stable patients with a low-grade dissection. The presence of hemodynamic instability is a clear indication for intervention. Aortic involvement of 40 mm or more from the coronary ostium was considered a clear indication for surgical intervention.13 Lee at al2 reported that in a small number of patients with catheter-induced LMCA dissections, bailout stenting was safe and feasible.
In our case, an acute coronary occlusion developed at the LMCA after engaging an Amplatz (AL2) guide catheter, which resulted in cardiopulmonary arrest. The unique features of this report are the successful bailout stenting of the LMCA during the 45-minute long CPR period, and the patient’s complete recovery.
In conclusion, catheter-induced LMCA dissections are rare, but do occur. Emergency bailout stenting could be life-saving.
References
- Sahte S, Sebastian M, Vohra J, Valentine P. Bail-out stenting for left main coronary artery occlusion following diagnostic angiography. Cathet Cardiovasc Diagn 1994;31:70–72.
- Lee SW, Hong MK, Kim YH, et al. Bail-out stenting for left main coronary artery dissection during catheter-based procedure: acute and long-term results. Clin Cardiol 2004;27:393–395.
- Hermans WR, Foley DP, Rensing BJ, et al. Usefulness of quantitative and qualitative angiographic lesion morphology, and clinical characteristics in predicting major adverse cardiac events during and after native coronary balloon angioplasty. Am J Cardiol 1993;72:14–20.
- Dunning DW, Kahn JK, Hawkins ET, O’Neill WW. Iatrogenic coronary artery dissections extending into and involving the aortic root. Catheter Cardiovasc Interv 2000;51:387–393.
- Awadalla H, Sabet S, El Sebaie A, et al. Catheter-induced left main dissection incidence, predisposition and therapeutic strategies experience from two sides of the hemisphere. J Invasive Cardiol 2005;17:233–236.
- Mulvihill NT, Boccalatte M, Fajadet J, Marco J. Catheter-induced left main dissection: A treatment dilemma. Catheter Cardiovasc Interv 2003;59:214–216.
- Curtis MJ, Traboulsi M, Knudtson ML, Lester WM. Left main coronary artery dissection during cardiac catheterization. Can J Cardiol 1992;8:725–728.
- Yoshida K, Mori S, Tomari S, et al. Coronary artery bypass grafting for spontaneous coronary artery dissection: A case report and a review of the literature. Ann Thorac Cardiovasc Surg 2000;6:57–60.
- Barabas M, Gosselin G, Crepeau J, et al. Left main stenting-as a bridge to surgery-for acute type A aortic dissection and anterior myocardial infarction. Catheter Cardiovasc Interv 2000;51:74–77.
- Alfonso F, Almeria C, Fernandez-Ortiz A, et al. Aortic dissection occurring during coronary angioplasty: Angiographic and transesophageal echocardiographic findings. Cathet Cardiovasc Diagn 1997;42:412–415.
- Connors JP, Thanavaro S, Shaw RC, et al. Urgent myocardial revascularization for dissection of the left main coronary artery: A complication of coronary angiography. J Thorac Cardiovasc Surg 1982;84:349–352.
- Slack JD, Pinkerton CA, VanTassel JW, Orr CM. Left main coronary artery dissection during percutaneous transluminal coronary angioplasty. Cathet Cardiovasc Diagn 1986;12:255–260.
- Al-Saif SM, Liu MW, Al-Mubarak N, et al. Percutaneous treatment of catheter-induced dissection of the left main coronary artery and adjacent aortic wall: A case report. Catheter Cardiovasc Interv 2000;49:86–89.