Clinical and economic outcomes of ProGlide compared with surgical repair of large bore arterial access

Innovative Percutaneous 3 Stitch Suture Technique for Site Closure in Venoarterial Extracorporeal Membrane Oxygenation Decannulation Without Direct Artery Repair: A Case Series

No previous studies have reported the use of a percutaneous suture technique performed by bedside intensivists for site closure during decannulation without direct artery repair in venoarterial extracorporeal membrane oxygenation (VA-ECMO) cases. Thus, the objective of this study was to evaluate the safety and effectiveness of this alternative approach. This retrospective study included 26 consecutive patients who underwent percutaneous VA-ECMO decannulation at Maoming People's Hospital. Bedside percutaneous suture technique performed by intensivists facilitated cannula site closure. Primary outcome was successful closure without additional interventions. Secondary outcomes included procedural time, surgical conversion rate, complications (bleeding, vascular/wound complications, neuropathy, lymphocele), procedure-related death. Follow-up ultrasound were conducted within 6 months after discharge. All patients achieved successful site hemostasis with a median procedural time of 28 minutes. Procedure-related complications included minor bleeding (7.7%), acute lower limb ischemia (15.4%), venous thrombus (11.5%), minor arterial stenosis (7.7%), wound infection (4.2%), delayed healing (15.4%), and wound secondary suturing (6.3%). No procedure-related deaths occurred. Follow-up vascular ultrasound revealed two cases (7.7%) of minor arterial stenosis. The perivascular suture technique may offer intensivists a safe and effective alternative method for access site closure without direct artery suture during ECMO decannulation.

Comparison of percutaneous decannulation and open surgical repair for large-bore arterial access sites of extracorporeal membrane oxygenation

INTRODUCTION

Following weaning of peripheral venoarterial extracorporeal membrane oxygenation (ECMO) support, removal of cannulas and repair of large-bore arterial sites is traditionally by open surgical repair (OSR). The use of a percutaneous vascular closure device (VCD) offers a minimally invasive alternative to OSR with potential for reduced operative complications, reduced hospital length of stay and in-hospital mortality.

METHODS

A systematic review of Medline and Embase databases was conducted for studies comparing VCD-assisted decannulation with OSR following decannulation of peripheral ECMO. The primary endpoint was rate of post-procedural complications, namely wound infection and limb ischaemia. The secondary endpoint was in-hospital mortality.

RESULTS

Eight studies, with a total of 685 patients, met inclusion criteria. Forty-eight percent (n = 328) of patients underwent VCD-assisted decannulation with the remainder decannulated by OSR. Pooled analysis demonstrated that patients undergoing VCD-assisted decannulation are at significantly lower risk of overall complications than surgical repair (OR 4.34; 95% CI 2.19-8.57; p < .001). Specifically, there was a substantial decrease in groin infections (OR 6.77; 95% CI 3.07-14.97; p < .001) without notable differences in limb ischaemia or pseudoaneurysm occurrence between the VCD and OSR cohorts. There was a lower incidence of intra-operative bleeding and haematoma in the VCD cohort (p < .001 and p = .002, respectively).

CONCLUSION

Vascular closure device-assisted decannulation of peripheral ECMO offers a significantly reduced risk of complications, particularly groin infections and bleeding. Future research should encompass larger cohorts, randomised controlled trials, cost-benefit analyses, and the training of surgeons, cardiologists and intensivists in VCD-assisted decannulation, potentially through the integration of simulation-based training.

Outcomes comparison between percutaneous decannulation with perclose ProGlide and surgical decannulation of veno-arterial extracorporeal membrane oxygenation

OBJECTIVE

Our study aimed to compare the decannulation-related outcomes of two different decannulation methods in patients who underwent veno-arterial extracorporeal membrane oxygenation (VA-ECMO) support, namely percutaneous decannulation with Perclose ProGlide device and conventional surgical repair.

BACKGROUND

Surgical vascular repair is a standard strategy when ECMO is to be terminated and sometimes associated with severe complications. Percutaneous decannulation using Perclose ProGlide has been reported to be feasible and safe in selected patients, but there is a paucity of literature to make systematic comparisons between the two decannulation methods.

METHODS

41 patients who were supported with VA-ECMO for refractory cardiogenic shock, cardiac arrest, or escort of complex interventions from December 2018 to December 2021 were enrolled. Of these, 30 underwent percutaneous Perclose ProGlide decannulation and 11 underwent surgical repair. The clinical characteristics and complication rates were analyzed.

RESULTS

Patients in the two groups showed a similar incidence of vascular-related complications, such as acute lower limb ischemia, major bleeding, severe hematoma, pseudoaneurysm, and arteriovenous fistula [20% versus 18.2%, p=.896]. The incidence of groin infection and delayed healing was significantly higher in the surgical removal group [3.3% versus 36.4%, p=.014].

CONCLUSIONS

Percutaneous decannulation of veno-arterial extracorporeal membrane oxygenation with the Perclose ProGlide device is a feasible and safe technique that simplifies the decannulation process, shortens the hospitalization duration, and lowers the potential risk of groin infection and delayed wound healing.

Management of Vascular Access in the Setting of Percutaneous Mechanical Circulatory Support (pMCS): Sheaths, Vascular Access and Closure Systems

The use of percutaneous mechanical circulatory support (pMCS), such as intra-aortic balloon pump, Impella, TandemHeart and VA-ECMO, in the setting of cardiogenic shock or in protect percutaneous coronary intervention (protect-PCI) is rapidly increasing in clinical practice. The major problem related to the use of pMCS is the management of all the device-related complications and of any vascular injury. MCS often requires large-bore access, if compared with common PCI, and for this reason the correct management of vascular access is a crucial point. The correct use of these devices in catheterization laboratories requires specific knowledge such as the correct evaluation of the vascular access performed, when possible, with advance imaging techniques in order to choose a percutaneous or a surgical approach. In addition to conventional transfemoral access, other types of access, such as transaxillary/subclavial access and the transcaval approach, have emerged over the years. These other approaches require advanced skills of the operators and a multidisciplinary team with dedicated physicians. Another important part of the management of vascular access is the closure systems used for hemostasis. Currently, two types of devices are typically used in the lab: suture-based or plug-based ones. In this review we want to describe all these aspects related to the management of vascular access in pMCS and describe, finally, a case report from our center's experience.

Late Access Site Complications Following Transfemoral Aortic Valve Implantation

Few data exist on late vascular complications (VCs) after transfemoral (TF) transcatheter aortic valve implantation (TAVI). The objective of this study was to evaluate the incidence and predictors of late access site VC after TF TAVI. A total of 128 patients (mean age: 80 ± 8 years, women: 52%) who underwent TF TAVI without major VC were included. A femoral US-Doppler evaluation was performed in all patients at a median of 5 (3 to 15) months after the procedure, and 76 patients (59.4%) also had a preprocedural ultrasound (US)-Doppler examination. The impact of baseline and procedural factors (including the use of simple 2 Proglides or complex additional Proglide or Angioseal device on top of the 2 Proglide technique, hemostasis techniques, and the use of balloon dilation for optimizing femoral hemostasis) were evaluated. The follow-up US-Doppler evaluation detected 2 asymptomatic VCs (1.6%), and 5 (3.9%) patients exhibited significant femoral stenosis (peak systolic velocity [PSV] ≥300 cm/s). Female gender (p <0.001) and smaller femoral diameter (p = 0.045) were associated with higher femoral PSV values. In those patients who underwent a pre-TAVI femoral US-Doppler, the median PSV values after TAVI were higher compared with those obtained pre-TAVI (p <0.001), but similar results were found for the contralateral femoral arteries. A complex hemostasis technique or the use of balloon optimization at the puncture site was not associated with any increase in PSV values. In conclusion, percutaneous femoral hemostasis after TAVI was associated with a low rate of late VC. The results were similar irrespective of the hemostasis technique and the use of balloon dilation at the puncture site, but women and a smaller femoral size were associated with increased PSV values. Further studies are needed to determine the optimal femoral hemostasis technique in TAVI procedures.

Strategies for Facilitating Totally Percutaneous Transfemoral TAVR Procedures

Transcatheter aortic valve replacement (TAVR) has transformed the treatment of aortic stenosis and should ideally be performed as a totally percutaneous procedure via the transfemoral (TF) approach. Peripheral vascular disease may impede valve delivery, and vascular access site complications are associated with adverse clinical outcome and increased mortality. We review strategies aimed to facilitate TF valve delivery in patients with hostile vascular anatomy and achieve percutaneous management of vascular complications.

Artificial Intelligence for Education, Proctoring, and Credentialing in Cardiovascular Medicine

Artificial intelligence and machine learning are rapidly gaining popularity in every aspect of cardiovascular medicine. This review discusses the past, present, and future of artificial intelligence in education, remote proctoring, credentialing, research, and publication as they pertain to cardiovascular procedures. This review describes the benefits and limitations of artificial intelligence and machine learning and the exciting potential of integrating advanced simulation, holography, virtual reality, and extended reality into disease diagnosis and patient care, as well as their roles in cardiovascular research and education. Nonetheless, much of the available data resides in electronic medical records or within industry-sponsored proprietary programs that are not compatible or standardized for current clinical application. Many areas in cardiovascular medicine would benefit from the introduction or increased use of artificial intelligence. Web-based artificial intelligence applications could be used to address unmet needs for education, on-demand procedural proctoring, credentialing, and recredentialing for interventionists and physicians in remote locations. Further progress in artificial intelligence will require further collaboration among computer scientists and researchers in order to identify and correct the most relevant problems and to implement the best data-based approach to achieving this goal. The future success of artificial intelligence in cardiovascular medicine will depend on the degree of collaboration between all pertinent experts in this field. This will undoubtedly be a prolonged, stepwise process.

Percutaneous cannulation for cardiopulmonary bypass in robotic mitral valve surgery with zero groin complications

INTRODUCTION

Robotic valve surgery utilizes the femoral vessels to set up cardiopulmonary bypass (CPB) which translates to groin wound and lower extremity vascular complications. A less invasive technique is a totally percutaneous bypass using vascular closure devices (VCDs) with concerns for lower limb ischemia and arterial stenosis. Since April 2018, we have adopted the standard use of total percutaneous CPB in our robotic mitral cases. We report our institutional results with this technique.

METHODS

All consecutive patients who underwent robotic mitral valve surgery between April 2018 and December 2020 in our institution were included in our study. Hospital database data on demographics, operative variables, and surgical outcomes were recorded and analyzed.

RESULTS

Robotic mitral valve surgeries were performed on 32 consecutive patients (mean age 57.2 ± 14.8) between April 2018 and December 2020. None of our patients developed an infection at any site. Seroma, hematoma, or pseudoaneurysm were not observed at puncture sites. Surgical repair of the femoral vessels or an additional VCD was not necessary for any of our patients. Patients were followed up for a mean duration of 23.5 months. Our patients did not present with a late wound infection, a seroma, or a pseudoaneurysm, nor had complaints of limb ischemia or claudication.

CONCLUSION

Total percutaneous bypass is the least invasive method of establishing extracorporeal circulation for cardiac surgery and can be performed with excellent results. The benefits of robotic surgery can be expanded with better results in groin cannulation by the adoption of total percutaneous CPB.

Totally Percutaneous Transfemoral Transcatheter Aortic Valve Replacement Despite Failure to Deploy a Vascular Closure Device: A Single-Center Case Series

BACKGROUND

Transcatheter aortic valve replacement (TAVR) is preferably performed as a completely percutaneous procedure via transfemoral access. Suture-mediated vascular closure devices are deployed prior to sheath insertion (pre-closure). Inability to perform pre-closure may necessitate surgical vascular repair of the femoral artery. Patients at increased risk of vascular surgery complications may benefit from a percutaneous method for achieving access site haemostasis. Stent graft implantation is commonly used for treating access site injury following TAVR. This study assessed the feasibility of a strategy of planned stent graft implantation within the femoral artery for achieving access site haemostasis in patients undergoing transfemoral TAVR and in whom vascular pre-closure was not possible.

METHODS

A prospective institutional TAVR registry was retrospectively analysed and a cohort of patients were identified who were selected for transfemoral valve delivery and in whom pre-closure failed and access site haemostasis was achieved by stent graft implantation.

RESULTS

This strategy was used for achieving access site haemostasis in 11 patients (1.5% of 744 patients undergoing transfemoral TAVR). These patients were considered to be at increased risk of vascular surgery complications due to advanced age, frailty, comorbidities, or immobility. Stent graft implantation achieved access site haemostasis in all patients. During follow-up, 30-day mortality was zero, 1-year mortality was 27%, and none of the patients required additional vascular interventions.

CONCLUSION

The preliminary data suggest that planned stent graft implantation within the femoral artery may achieve access site haemostasis and enable a totally percutaneous TAVR procedure, despite failure to perform pre-closure with a suture-based vascular closure device.

Perclose Proglide™ for vascular closure

In the past 20 years, numerous percutaneous vascular closure devices have been tested and compared with manual compression and to surgical cut-down. The suture-mediated closure device Perclose ProGlide™ system (Abbott Vascular, CA, USA) emerged as a safe and effective alternative for many procedures requiring either small or large bore vascular accesses. In this review, we will discuss the characteristics of this vascular closure device and the main studies that proved its potential to reduce vascular complications, time to deambulation, time to discharge and patient discomfort.

Aneurysms and dissections - What is new in the literature of 2019/2020 - a European Society of Vascular Medicine annual review

More than 6,000 publications were found in PubMed concerning aneurysms and dissections, including those Epub ahead of print in 2019, printed in 2020. Among those publications 327 were selected and considered of particular interest.