Endovascular Treatment in the Subclavian Steal Syndrome: Series of 29 Patients

Subclavian steal syndrome is a group of symptoms resulting fromretrograde flow in the vertebral artery, "stealing" blood from the posterior intracranial circulation and other territories, caused by stenosis or occlusion of the subclavian artery proximal to the origin of the same vertebral artery, or even of the brachiocephalic trunk. Most of the time, it is an incidental finding in patients with other conditions or cerebrovascular risk factors. We report a series of 29 patients with an angiographic diagnosis, in which 7 received treatment (all endovascular), all with symptoms directly related to this condition. Advanced age, systemic arterial hypertension, diabetes mellitus, smoking and stroke were comorbidities frequently related. Six patients improved completely after the procedure and one remained with vertigo.

Unmasking the Coronary-Subclavian Steal Syndrome: The Culprit Lies in the Subclavian Artery. A Report of a Case and Review of the Literature.

The coronary-subclavian steal syndrome is a hemodynamic phenomenon in which a subclavian artery stenosis or occlusion impairs blood flow at the origin of the left internal mammary artery used for coronary artery bypass grafting (CABG), causing retrograde blood flow and thus provoking symptoms of cardiac ischemia and its complications. Once considered the gold-standard operation of choice, open revascularization has now been abandoned as a first line treatment and replaced by endovascular techniques. In all cases, detailed and oriented physical examination in combination with further imaging in high clinical suspicion for coronary-subclavian steal syndrome remains the sine qua non of the preoperative examination of the patient. We report the case of a 50-year-old male patient suffering from acute onset angina post- coronary artery bypass grafting and managed by endovascular means.

Brachiocephalic and subclavian stenosis: Current concepts for cardiovascular specialists.

Brachiocephalic and subclavian artery stenoses are less common manifestations of peripheral arterial disease (PAD) compared to lower extremity PAD. However, even among asymptomatic patients, a diagnosis of PAD portends worse long-term mortality. Symptoms may include subclavian steal syndrome and arm claudication. Among patients with internal mammary coronary bypass grafts, symptoms may include those of myocardial ischemia. Symptomatic subclavian stenosis can be readily treated using endovascular techniques with durable outcomes.

Angioplasty and stenting for symptomatic stenosis of the left subclavian artery complicated with aortic dissection.

BACKGROUND: Aortic dissection is a rare but severe complication of percutaneous transluminal angioplasty and stenting (PTAS) for stenosis of the subclavian artery (SA). This retrospective study was designed to evaluate the risk factors and outcomes of patients with severe stenosis of the SA who underwent PTAS complicated by aortic dissection. METHODS: Between 1999 and 2018, 169 cases of severe symptomatic stenosis of the SA underwent PTAS at our institute. Of them, six cases complicated by aortic dissection were included in this study. We evaluated the demographic features, technical factors of PTAS, and clinical outcomes in these six patients. RESULTS: Aortic dissection occurred in 5.3% (6/113) of all left SA stenting cases but in none of the right SA stenting cases. All patients had hypertension and a high severity of SA stenosis (85.0 ± 13.0%, 60%-95%). Five of the six patients received balloon-expandable stents (83.3%). All patients had spontaneous resolution of the aortic dissection with conservative treatment. In a 63.33 ± 33.07 (7-118) month follow-up, five of the six patients (83.3%) had long-term symptom relief and stent patency. CONCLUSION: Aortic dissection occurred in patients who underwent PTAS for severe stenosis of the left SA, mainly with balloon-expandable stents. We suggest using self-expandable stents and angioplasty with an undersized balloon during PTAS for severe stenosis of the left proximal SA to prevent aortic dissection.

Safety and durability of concomitant carotid endarterectomy with carotid-subclavian bypass grafting.

BACKGROUND: Concomitant carotid endarterectomy (CEA; for severe internal carotid artery stenosis) with carotid-subclavian bypass grafting (CSBG; for proximal common carotid artery or subclavian artery occlusion) is rarely used. Only a few studies have been reported. This report analyzed early and late clinical outcomes of the largest study to date of the combined procedures in our institution. METHODS: Electronic medical records of patients who had concomitant CEA with CSBG during three decades were analyzed. Indications for surgery were arm ischemia, neurologic events, and clinical subclavian steal. Early (30 days) perioperative complications (stroke, death, and others) and late complications (stroke, death) were recorded. Kaplan-Meier analysis was used to estimate late graft/CEA primary patency, freedom from stroke, and stroke-free survival rates. Graft patency was determined clinically and confirmed using duplex ultrasound. Outcomes were compared with previously published data on isolated CSBG by the same group. RESULTS: There were 37 combined procedures analyzed. Mean age was 64 years (range, 45-81 years). Indications for surgery were arm ischemia in 12 (32%), hemispheric transient ischemic attack or stroke in 15 (41%), vertebrobasilar insufficiency in 4 (11%), symptomatic subclavian steal in 10 (27%), and asymptomatic common carotid artery occlusion with severe internal carotid artery stenosis in 6 (16%). The 30-day perioperative (stroke and death) rate was 5.4% (one stroke and one death). Immediate symptom relief was noted in 100%, with 2.7% (transient ischemic attack) symptom recurrence. The crude patency rate of both CEA and CSBG was 92%. At 1 year, 2 years, 3 years, 4 years, and 5 years, respectively, primary patency rates were 100%, 96%, 96%, 96%, and 85%; freedom from stroke rates were 97%, 97%, 97%, 97%, and 97%; and stroke-free survival rates were 94%, 94%, 87%, 82%, and 78%. When these outcomes were compared with the isolated CSBG group alone (28 patients), there was no difference in perioperative stroke (2.7% for concomitant CEA/CSBG vs 0% for isolated CSBG), perioperative death (2.7% vs 2.8%), or late patency rates (92% vs 96%). CONCLUSIONS: Concomitant CEA/CSBG is safe and durable. There was no significant difference in perioperative stroke/death or late patency rates compared with isolated CSBG.

Long-term Outcome of Axillo-axillary Bypass in Patients with Subclavian or Innominate Artery Stenosis.

BACKGROUND: Subclavian or innominate artery stenosis (SAS) may cause upper extremity and cerebral ischemia. In patients with symptomatic subclavian or innominate artery stenosis, percutaneous transluminal angioplasty is the treatment of first choice. When percutaneous transluminal angioplasty is technically restricted or unsuccessful, an extrathoracic bypass grafting, such as an axillo-axillary bypass can be considered. The patency rate of axillo-axillary bypass is often questioned. The aim of this study was to assess long-term outcomes of patients undergoing axillo-axillary bypass for subclavian or innominate artery stenosis (SAS) and to provide a literature overview. METHODS: In this single-center study, data from patients who underwent axillo-axillary bypass for symptomatic SAS between 2002 and 2018 were retrospectively analyzed. Bypass material was Dacron® (54%) or polytetrafluoroethylene (PTFE) (46%). Primary outcome was graft patency and secondary outcome was the occurrence of mortality and stroke. In addition, a systematic literature search was performed in MEDLINE and EMBASE databases including all studies describing patency of axillo-axillary bypass. RESULTS: In total, 28 axillo-axillary bypasses had been performed. Cumulative primary, primary-assisted, and secondary patency rates at one year were 89%, 93%, and 96%, respectively. Cumulative primary, primary-assisted, and secondary patency rates at five years were 76%, 84%, and 87%, respectively. The primary-assisted patency rates at five years for Dacron® and PTFE were 93% and 73%, respectively. A total of four primary axillo-axillary bypass occlusions occurred (14%), with a mean of 12 months (range, 0.4-25) after operation. The 30-day mortality was 7%; one patient died after a stroke and one died of a myocardial infarction. At the first postoperative follow-up control, 22 of the 26 remaining patients (85%) had relief of symptoms. The literature search included 7 studies and described a one-year primary patency range of 93-100% (n = 137) and early postoperative adverse events included death (range, 0-13%) and stroke (range, 0-5%). CONCLUSIONS: Patency rates of axillo-axillary bypasses for patients with a symptomatic SAS are good. However, the procedural complication rate in this series is high and attention should be paid to intervention indication.

Significance of hemodynamic assessment by pressure wire for endovascular therapy of subclavian steal syndrome.

OBJECTIVE: Subclavian steal syndrome results from hemodynamic impairment due to stenosis or occlusion of subclavian artery. Therefore, it is important for subclavian steal syndrome patients to assess hemodynamic status during endovascular therapy. METHODS: Eleven subclavian steal syndrome patients undergoing endovascular therapy attended this study. Pressure wire was used to measure trans-stenosis pressure difference (ΔP). Digital subtraction angiography, Transcranial Doppler and Electronic sphygmomanometer were introduced to assess stenotic rate, steal grade and inter-arm systolic pressure difference, respectively. Clinical symptoms and restenosis were followed up after endovascular therapy. The associations of ΔP with stenotic rate, inter-arm pressure difference, steal degree, clinic symptoms and restenosis were analyzed in this paper. RESULTS: Prior to the therapy, ΔP moderately correlated with stenotic rate (r = 0.757, p = 0.007) and inter-arm pressure difference (r = 0.701, p = 0.016). ΔP was ≥6 mmHg in all patients, and 6-9 mmHg for grade 1 steal and ≥10 mmHg for grade 2 and 3 steals. After the therapy, all patients had technique success, and 10 patients had clinic success, and 1 patient appeared restenosis. ΔP was ≤3 mmHg and steal disappeared in the patients with clinical success. ΔP was 18 mmHg and grade 3 steal still existed in one patient without clinical success. One patient with 1 mmHg of ΔP after therapy appeared restenosis in the follow-up. CONCLUSION: The trans-stenosis pressure difference is closely related to steal degree and clinical symptoms. The measurement of hemodynamic status by pressure wire is very useful to guide endovascular therapy in subclavian steal syndrome patients. However, the restenosis may still occur, even though the hemodynamic impairment is improved.

Coronary-subclavian steal syndrome, an easily overlooked entity in interventional cardiology.

Coronary-subclavian steal syndrome (CSSS) is a severe complication of coronary artery bypass graft (CABG) surgery with internal mammary artery grafting. It is caused by functional graft failure due to a hemodynamically significant proximal subclavian artery stenosis. In this manuscript, we provide a comprehensive review of literature and we report a series of five consecutive CSSS cases. This case series illustrates the variable clinical presentation, thereby emphasizing the importance of raised awareness concerning this pathology in CABG patients.

In-Situ Fenestration of a PTFE Thoracic Aortic Stent Graft for Delayed Left Subclavian Artery Revascularization Following Frozen Elephant Trunk Repair of Type A Aortic Dissection.

Left subclavian artery revascularization during endovascular repair of aortic dissection is often accomplished by left carotid-subclavian artery bypass or transposition. In situ fenestration of thoracic stent grafts provides an alternative method of revascularization without manipulation of the left carotid artery. We describe a case whereby in situ laser fenestration, combined with catheter-directed thrombectomy, was utilized to revascularize a thrombosed left subclavian artery following a frozen elephant trunk repair of type A aortic dissection. A 75-year-old male presented with pericardial tamponade and aortic insufficiency, secondary to type A aortic dissection. Patient underwent an emergent replacement of the aortic root, valve, arch, and ascending aorta in the frozen elephant trunk configuration. The innominate and left carotid arteries were revascularized with a bifurcated bypass graft from the ascending aortic graft. The left subclavian artery (LSCA) was covered with an antegrade deployment of a cTAG stent graft. During the immediate postoperative period, the patient was found to have a dissection of the left common carotid artery (LCCA) and pseudoaneurysm of the bypass graft anastomosis. The left carotid artery was replaced up to the proximal internal carotid. During rehabilitation, the patient developed left subclavian steal syndrome, with a CT angiography demonstrating thrombosis of the subclavian origin, and duplex ultrasound showing a reversal of the left vertebral flow. In order to revascularize the left subclavian artery without using the left carotid as the inflow, the in situ laser fenestration technique was planned. The vertebral artery origin was protected with a neuroclip through a supraclavicular incision. Through a brachial artery cutdown, a 9Fr flex sheath was positioned at the origin of the subclavian artery. A suction thrombectomy catheter was used to create a central channel in the thrombus. A 0.035″ 3.2 mm over-the-wire laser atherectomy catheter was used to create a fenestration through the cTAG stent graft. The subclavian branch stent was stented with an iCast balloon-expandable covered stent, excluding the mural thrombus. The patient recovered well with resolution of symptoms and was discharged home. Postoperative CT scan showed patent left subclavian branch stent and no endoleak across the fenestration of the aortic stent graft. Delayed laser in situ fenestration of a PTFE stent graft can be performed safely. The vertebral artery protection and catheter-directed thrombectomy are important adjuncts to reduce the risk of posterior stroke.

Endovascular Vertebral Artery Transposition Using Flow Reversal Technique for Left Subclavian Artery Stump Syndrome.

BACKGROUND: Cerebellar strokes are a rare complication related to thoracic endovascular aortic repair (TEVAR). This can manifest in an indolent manner or as a neurological catastrophe. Often it is unclear when a surgical intervention would be needed. Patients at risk for this relatively rare complication are not easily identified. CASE: We describe an endovascular option with flow reversal for left vertebral artery transposition using stent grafts for relocating arterial inflow and excluding a floating thrombus at the proximal subclavian artery (SCA) related to a previous TEVAR. CONCLUSIONS: Ligation of the subclavian artery proximal to the vertebral artery should be considered when performing a carotid subclavian bypass for elective TEVAR. This case details a unique, less invasive approach for vertebral artery transposition and thrombus exclusion in a high-risk patient with previous neck dissection.

The effect of stenting on blood pressure in hypertensive patients with symptomatic proximal subclavian or vertebral artery stenosis.

OBJECTIVE: This study aimed to evaluate the effect of stenting on blood pressure in hypertensive patients with symptomatic proximal subclavian or vertebral artery stenosis. BACKGROUND: Whether posterior circulation revascularization could reduce blood pressure in hypertensive patients with posterior circulation hypoperfusion has not been investigated in humans. METHODS: A total of 48 patients with essential hypertension (33 males; mean age 63.0 ± 8.7 years) with symptomatic proximal subclavian or vertebral artery stenosis who underwent stenting successfully at the Fuwai Hospital were prospectively enrolled between January 2014 and December 2015. All 48 patients were followed up at 1, 3, and 6 months after the procedure. Blood pressure, use of antihypertensive agents, and complications were investigated. RESULTS: Baseline values included office blood pressure of 132/77 ± 10/8 mmHg, mean 24-hr blood pressure of 127/75 ± 12/9 mmHg, and mean antihypertensive agents used of 1.6 ± 0.8. Stenosis of the subclavian and vertebral arteries decreased from 88.9 ± 9.5% and 85.8 ± 7.4% to 5.5 ± 3.5% and 4.6 ± 3.7%, respectively, immediately after the procedure. Reductions in office blood pressure were - 7/-3 (SD 3/2), -9/-4 (5/3), and - 10/-5 (7/5) mmHg at 1, 3, and 6 months, respectively. While 24-hr blood pressures after the procedure reduced by -5/-3 mmHg at 6 months, the total number of antihypertensive agents used at the aforementioned time points was unchanged. CONCLUSION: This first prospective cohort study in humans showed that posterior circulation stenting is apparently effective in reducing blood pressure in hypertensive patients with symptomatic proximal subclavian or vertebral artery stenosis.

Endovascular and Surgical Management of Subclavian Artery Occlusive Disease: Early and Long-Term Outcomes.

BACKGROUND: The aim of the study was to report early and late outcomes of surgical and endovascular management of subclavian artery atherosclerotic disease (SAAD). METHODS: Data about consecutive patients treated for subclavian artery atherosclerotic occlusive disease between 2001 and 2018 either by open surgical repair (OSR) or by endovascular repair (ER) were retrospectively collected and analyzed. Primary outcomes included 30-day death, as well as cardiac and neurologic events, reported separately for occlusion and stenosis. Secondary outcomes included primary patency in the long term, reported separately for occlusive and stenotic lesions. The Kaplan-Meier analysis with the logrank test was used to estimate long-term primary patency. Chi-squared and t-tests were used as appropriate to compare the outcomes of the 2 groups. A P value < 0.05 was considered statistically significant. RESULTS: Sixty-eight patients were treated using ER (49 patients) and OSR (19). Technical success rate was 100% in both groups. During in-hospital stay, 1 brachial hematoma and 2 acute upper limb ischemia occurred in the ER group and in the OSR group, respectively. At 30 days, no deaths or neurological/cardiac events were recorded in both ER and OSR groups. Symptoms resolution and upper limb salvage were 100% in both groups. In the ER group, primary patency was 100% at 7 years in patients who had been treated for stenotic lesions and 62.5 ± 21.3% in patients who had been treated for occlusive lesions (P = 0.0035). In the OSR group, primary patency was 100% at 7 years in patients treated for stenotic lesions and 25 ± 21.6% in patients who had been treated for occlusive lesions (P < 0.0001). Overall, long-term primary patency in the OSR group was 76.9 ± 11.7% at 7 years, being lower than that reported after ER (93.4 ± 4.5%, P = 0.02). CONCLUSIONS: Both ER and OSR proved to be safe, effective, and durable in the treatment of SAAD. In particular, the primary patency rates at long term for both ER and OSR showed better outcomes for stenotic lesions.

Be Aware of Aberrant Right Subclavian Artery Origin Before Aortic Coarctation Stenting: A Case Report Study.

The subclavian steal syndrome (SSS), also called subclavian steal steno-occlusive disease, is defined as reversal of the vertebral artery flow secondary to significant hemodynamically ipsilateral occlusion or stenosis of the proximal subclavian artery. It is usually seen secondary to atherosclerosis and aberrant right subclavian artery (ARSA), resulting in SSS which is even less common. Aberrant right subclavian artery is a kind of vascular anomaly associated with coarctation of the aorta (CoA). It usually originates from the descending aorta distal to the site of CoA. Here, we present a young man who was a case of ARSA and CoA. He developed SSS after transcatheter aortic stenting secondary to unusual origin of ARSA from the site of CoA. Awareness of this rare anomaly helps to overcome this complication in patients undergoing interventional stenting for CoA and ARSA with anomalous origin.

Anomaly in the Embryogenesis of the Aorta associated with Subclavian Steal Phenomenon.

Congenital aortic arch anomalies are rare and may be associated with other congenital cardiovascular malformations. The authors report a rare case of anomaly in the aortic arch embryogenesis, presenting with a right aortic arch and an isolated innominate artery, associated with the subclavian steal phenomenon. This condition is discussed considering the Edwards hypothetical double embryonic arch and its clinical aspects.

Endovascular Treatment in the Subclavian Steal Syndrome

When the proximal occlusion or stenosis of the subclavian or of the brachiocephalic artery may require distal arterial filling through reversal flow from the vertebral artery, causing clinically significant blood supply reduction to the brainstem, it is called subclavian steal syndrome (SSS). We report a 54-year-old male patient who presented with multiple episodes of syncopes and vascular claudication due to right SSS. He underwent an angioplasty, evolving with complete improvement of the symptoms. We review the clinical presentation, the diagnosticmethods, and the treatment options of the disease.