Medial claviculectomy for the treatment of recalcitrant central venous stenosis of hemodialysis patients

Clinical outcomes and predictive factors of stent grafts treatment for symptomatic central venous obstruction in end stage kidney disease patients with arteriovenous access

To assess the efficacy of stent grafts (SGs) in managing central venous obstruction disease (CVOD) in hemodialysis (HD) patients with arteriovenous (AV) access, and to identify predictive factors influencing the SG treatment outcomes. HD subjects with CVOD who underwent SGs placement at our center between August 2018 and June 2022 were enrolled. Survival curve analysis using the Kaplan-Meier method and log-rank test was performed. Cox proportional hazards regression analysis was employed to identify predictive factors associated with outcomes. A total of 59 SG implantation procedures for CVOD were analyzed, comprising 30 cases of stenosis and 29 cases of occlusion. The access circuit primary patency (ACPP) at 6, 12, and 24 months post-SG placement were 80.9%, 53.8%, and 31.4%, respectively, while, the target lesion primary patency (TLPP) were 91.3%, 67.6%, and 44.5%, respectively. Subgroup analysis revealed higher TLPP in the stenosis group compared to the occlusion group, although the difference was not statistically significant (P = 0.165). The TLPP was significantly improved by SG placement in those who had antecedent balloon dilations (P < 0.001). Cox proportional hazards regression identified target lesion length ≥ 30 mm and procedure defects as independent predictors of lower TLPP after SG treatment for CVOD in HD patients. SG placement demonstrates safety and efficacy in managing CVOD among HD patients, leading to improved TLPP of endovascular therapy (EVT) for CVOD. Notably, long target lesions (≥ 30 mm) and procedure defects emerged as predictive factors influencing TLPP.

Management of thoracic outlet syndrome in patients with hemodialysis access

Patients with threatened arteriovenous access are often found to have central venous stenoses at the ipsilateral costoclavicular junction, which may be resistant to endovascular intervention. Stenoses in this location may not resolve unless surgical decompression of thoracic outlet is performed to relieve the extrinsic compression on the subclavian vein. The authors reviewed the management of dialysis patients with central venous lesions at the thoracic outlet, as well as the role of surgical decompression with first-rib resection or claviculectomy for salvage of threatened, ipsilateral dialysis access.

Surgical Referral for Hemodialysis Access Maintenance

Hemodialysis access is the lifeline for end-stage renal disease patients. However, dialysis access is associated with a host of complications, including thrombosis, recurrent stenosis, infection, aneurysmal changes and bleeding. Although endovascular therapy remains the first-line treatment owing to its less invasive nature, there are certain situations where surgical referral is recommended or even necessary. Regardless, management of dialysis access complications requires a multidisciplinary approach. Interventional radiologists should be familiar with the appropriate timing for surgical referral to better serve the complex patient population.

The role of stents in hemodialysis vascular access

Vascular access is the Achilles' heel of dialysis therapy among patient with end stage kidney disease. The development of neointimal hyperplasia and subsequent stenosis is common in vascular access and is associated with significant morbidity. Percutaneous transluminal angioplasty using balloon inflation was the standard therapy of these lesions. However, the balloon-based approaches were associated with poor vascular access patency rate necessitating new inventions. It is within this context that different types of stents were developed in order to improve the overall dialysis vascular access functionality. In this article, we review the available literature regarding the use of stents in treating dialysis vascular access stenotic lesions. Further, we review the major clinical trials of stent use in different anatomic locations and in different clinical scenarios.

Venous thoracic outlet syndrome and hemodialysis

Central venous stenotic disease is reported in 7%-40% of patients needing a central venous catheter for dialysis and in 19%-41% of hemodialysis patients who have had a prior central venous catheter. Half of these patients will be asymptomatic. Venous Thoracic Outlet syndrome in hemodialysis (hdTOS) is part of this spectrum of disease. The extrinsic mechanical compression of the subclavian vein at the costoclavicular triangle between the clavicle and 1st rib results in an area of external compression with a predisposition to intrinsic mural disease in the vein. The enhanced flow induced by the presence of a distal arteriovenous access in all patients exacerbates the subclavian vein's response to ongoing extrinsic and intrinsic injury. Repeated endovascular interventions during the maintenance of vascular access accelerates chronic untreatable occlusion of the subclavian vein in the long term. Similar to patients with central venous stenosis, patients with hdTOS can present immediately after access formation with ipsilateral edema or longitudinally with episodes of access dysfunction. hdTOS can be treated in an escalating manner with arteriovenous access flow reduction to <1,500 ml/min, endovascular management, surgical decompression by first rib resection in healthy patients and medial clavicle resection in less healthy patients followed by secondary venous interventions, or finally, a venous bypass. hdTOS represents a complex and evolving therapeutic conundrum for the dialysis community, and additional clinical investigations to establish robust algorithms are required.

Claviculectomy for exposure and redo repair of expanding, recurrent right subclavian aneurysm

Subclavian artery aneurysms (SAAs) are rare, and their repair can be technically complex. We have reported the redo repair of a large, expanding, right SAA after primary repair consisting of total aortic arch replacement with bilateral subclavian artery ligation and bypass. The redo repair used claviculectomy to facilitate exposure, ligation of the right deep cervical and internal thoracic arteries from within the aneurysm sac, and revision of the previous axillary artery bypass that had thrombosed owing to the mass effect of the expanding SAA. Claviculectomy can facilitate repair of large SAAs that are poorly suited to more routine exposure approaches, with acceptable risk and functional outcomes.

A retrospective cohort study comparing high and low balloon inflation pressure on technical success and patency for treating central venous lesions in patients on chronic hemodialysis

Background

We aimed to analyze the success rates and the access patency rates at 12 months between patients on chronic hemodialysis with symptomatic central venous stenosis (CVS) or occlusion (CVO), receiving high or low balloon inflation pressure for treatment.

Methods

We performed a retrospective study in which angioplasty balloons were inflated using a low-pressure or a high-pressure for the management of hemodialysis patients with CVS/CVO. The outcomes of this study were the success rate and the access patency rates at 12 months after balloon angioplasty, and the differences between groups were compared.

Results

We included a total of 74 patients on hemodialysis and assigned them to the low-pressure or the high-pressure groups. Success rates in patients of the high-pressure group (94.12%) were higher than those in patients of the low-pressure group (67.50%) (p = 0.005). With a total of 59 patients with technical success, at 6 and 12 months after angioplasty, the rates of access patency in the low-pressure group were 68 and 48%, respectively; on the other hand, the primary patency rates in the high-pressure group were 86.67% (6-months) and 76.67% (12-months). The 6 and 12 months post-interventional patency rates were higher in patients of the high-pressure group than those in patients of the low-pressure group (p = 0.10 at 6 months and p = 0.03 at 12 months).

Conclusions

Compared to balloon angioplasty using a low inflation pressure, hemodialysis patients with CVS/CVO receiving angioplasty using a high inflation pressure have significantly higher technical success and 12-month patency rates.

Long-term results and patient survival after first rib resection and endovascular treatment in hemodialysis patients with subclavian vein stenosis at the thoracic outlet

OBJECTIVE

Hemodialysis patients with upper extremity vascular access and subclavian vein stenosis at the thoracic outlet can present with significant arm edema and threatened dialysis access that is frequently refractory to endovascular therapy without bone decompression. We have presented our long-term results of first rib resection, followed by endovascular therapy.

METHODS

We performed a retrospective review of 15 consecutive hemodialysis patients with subclavian vein stenosis treated with first rib resection and endovascular therapy from 2013 to January 2021. The diagnosis was confirmed by ultrasound and venography. Bone decompression was performed with transaxillary or infraclavicular rib resection.

RESULTS

During the study period, we treated 1440 unique dialysis patients. Of these 1440 patients, 346 had undergone subclavian vein angioplasty. Of the 346 patients, 15 had undergone first rib resection and were the subject of the present report. Of the 15 patients, 10 were women and 5 were men. Their mean age was 56.4 years (range, 30-82 years). The most commonly associated medical conditions were hypertension and diabetes. The mean previous hemodialysis duration was 5.4 years (range, 1-13 years). Fourteen patients had preexisting functioning access and severe arm edema. Nine patients (60%) with subclavian vein occlusion had undergone vein recanalization before the bone decompression procedure. Of the 15 patients, 5 had undergone transaxillary and 10 had undergone infraclavicular first rib resection. In addition, nine patients had undergone simultaneous vein stenting, six had undergone vein stenting within 4 weeks, and one had undergone stenting at 13 months. A stent-graft was used in eight patients and a bare metal stent was used in seven. All preexisting dialysis access sites were used the day after the procedure. The average postoperative stay was 2.6 days (range, 1-8 days). No complications developed. The average follow-up was 35.13 months (range, 4-86 months). The freedom from any subsequent intervention was 50% at 10.5 months. The average number of endovascular procedures per patient during follow-up was 4.6. Ten patients had required access surgery during follow-up. Secondary patency was 100%. The median patient survival was 69.3 months.

CONCLUSIONS

Symptomatic hemodialysis patients with threatened vascular access caused by subclavian vein stenosis at the thoracic outlet were safely and successfully treated with first rib resection, followed by endovascular techniques. The procedure resulted in no morbidity and preserved dialysis access function in all patients during follow-up. Our experience has confirmed that excellent secondary patency and long-term clinical success can be obtained with regular follow-up, although with multiple secondary interventions. The median survival of 69 months after the procedure suggests it is worthwhile to expend this effort to maintain the hemodialysis access function of these patients.

Evaluation and Management of Venous Thoracic Outlet Syndrome

Venous thoracic outlet syndrome (TOS) is uncommon but occurs in young, healthy patients, typically presenting as subclavian vein (SCV) effort thrombosis. Venous TOS arises through chronic repetitive compression injury of the SCV in the costoclavicular space with progressive venous scarring, focal stenosis, and eventual thrombosis. Diagnosis is evident on clinical presentation with sudden spontaneous upper extremity swelling and cyanotic discoloration. Initial treatment includes anticoagulation, venography, and pharmacomechanical thrombolysis. Surgical management using paraclavicular decompression can result in relief from arm swelling, freedom from long-term anticoagulation, and a return to unrestricted upper extremity activity in more than 90% of patients.

Thoracic outlet decompression for subclavian venous stenosis after ipsilateral hemodialysis access creation

OBJECTIVE

Central venous stenosis is one of the most challenging complications in patients requiring hemodialysis. Venous thoracic outlet syndrome is an underappreciated cause of central venous stenosis in patients requiring dialysis that can result in failed percutaneous intervention and loss of a functioning dialysis access. Limited data exist about the safety and outcomes of first rib resection in patients requiring hemodialysis, and the results have been confounded by the various surgical approaches used. The purpose of the present study was to evaluate the safety, operative outcomes, and patency of the existing dialysis access after transaxillary thoracic outlet decompression.

METHODS

A retrospective medical record review was performed from January 2008 to December 2019 of patients who had undergone thoracic outlet decompression for subclavian vein stenosis with ipsilateral upper extremity hemodialysis access. The baseline characteristics and comorbidities were reviewed. The operative and postoperative course were evaluated. The survival and patency rates were analyzed using the life-table method and Kaplan-Meier curve.

RESULTS

A total of 18 extremities in 18 patients were identified. Their mean age was 59 ± 11 years, and 89% were men. A total of 13 fistulas and 5 grafts were included. All patients had undergone repair via a transaxillary approach. First rib resection, anterior scalenectomy, and circumferential venolysis were performed in all 18 patients. The mean operative time was 99 ± 19 minutes, with an estimated blood loss of 78 ± 66 mL. The median length of stay was 2 days. No patient had died at 30 days. The survival rate at 1 year was 83%. The primary, primary-assisted, and secondary patency at 1 year were 42%, 69%, and 93%, respectively.

CONCLUSION

Thoracic outlet decompression via the transaxillary approach is a technically feasible and safe operation in patients with ipsilateral upper extremity hemodialysis access. Patients with threatened dialysis access due to subclavian vein stenosis should be carefully evaluated for possible extrinsic compression at the costoclavicular junction. These patients might benefit from transaxillary first rib resection, scalenectomy, and venolysis.