View clinical trials related to Arteriovenous Fistula.
Filter by:The purpose of this study is to compare the use of the Micro Vascular Plug (MVP) system and other embolic devices in treatment of PAVMs. Pulmonary Arteriovenous Malformations (PAVMs) are abnormal connections between the pulmonary vein and the pulmonary artery. This affects blood flow between the heart and lungs which puts patients at risk of stroke, brain abscess, hypoxia and even sudden death. The standard treatment of PAVMs is embolization. Embolization is the placing of an embolic (synthetic agent) into a blood vessel to block blood flow. The embolic is inserted via a catheter into the blood vessel. Detachable coils are the most commonly used embolic in the treatment of PAVMs. Despite long procedure times, numerous coils that are often required to occlude a single PAVM and recanalization rates ranging from 5% to 15%, the most widely used embolic device is still the detachable coil.
This prospective, multicenter, randomized, controlled study is designed to evaluate the safety and effectiveness of the Tri-wire Peripheral Balloon Dilatation Catheter compared to a standard PTA Catheter in treating subjects presenting with clinical and hemodynamic abnormalities in native arteriovenous (AV) fistulae located in the upper extremity.
End stage renal disease cases has increased significantly in the last decade. There are various treatment modalities which are available for the ESRD patients. Treatment options includes haemodialysis, peritoneal dialysis and renal transplant. Renal transplant is considered as the best treatment for these patients. However, in developing countries like india feasibility of renal transplant is questionable due to the limited donors and logistic reasons. Therefore haemodialysis remains the most popular modality of treatment for such patients. Creation of vascular access is a necessary maneuver for hemodialysis but creation and maintenance of a well-functioning vascular access remains the most challenging problems for hemodialysis therapy There are various other reasons for the non maturation of arteriovenous fistula and these include increased age, diabetes mellitus, hypertension, smoking, coronary artery disease, obesity, decreased diameter of the cephalic vein and radial artery, atherosclerosis, and surgeon factor. As per our literature search , these factors has not been well studied in Indian population. Hence the aim of the present study is to identify the various risk factors for the primary failure of forearm and wrist arteriovenous fistulas for hemodialysis in patients with chronic renal failure in Indian population
The most common problem with haemodialysis arteriovenous fistulas (AVF) and arterio-venous grafts (AVG) is stenosis, which can lead to inadequate dialysis, and eventual access thrombosis. Conventional plain old balloon angioplasty is associate with high recurrence rates of stenosis and repeated interventions. The advent of successful drug-eluting technology in the treatment of the coronary vascular bed and subsequent positive accumulating evidence in the peripheral arterial circulation has prompted the use of drug coated balloons (DCB) in the access fistula circuit for venous stenosis and in-stent restenosis. Recent studies suggest that DCBs may significantly reduce re-intervention rates on native and recurrent lesions. The restenosis process is in part or in whole the result of neo-intimal hyperplasia (NIH) and NIH is considered the main culprit in access circuit target lesion stenosis. NIH is the blood vessel's healing response to the barotrauma from the angioplasty process. A critical component of NIH is the cellular proliferative stage with mononuclear leucocytes identified as the primary inflammatory cell type involved. The rationale for drug elution is to block the NIH response with an anti-metabolite such as paclitaxel. It is important to emphasize that the role of drug elution in the treatment of vascular stenosis is not to obtain a good haemodynamic and luminal result but to preserve a good result obtained during POBA from later restenosis due to NIH and minimise reinterventions and readmissions to hospital for what is a frail population of patients. A meta-analysis performed by Khawaja et al. seemed to suggest that DCBs conferred some benefit in terms of improving target lesion primary patency (TLPP) in AVFs. An updated meta-analysis performed by our own institution recently showed that DCB appears to be a better and safe alternative to conventional balloon angioplasty (CBA) in treating patients with HD stenosis based on 6- and 12-months primary patency and increased intervention free period. The Passeo-18 Lux (Biotronik Asia Pacific Pte Ltd (Singapore)) drug-coated balloon (DCB) is packaged with a low dose of paclitaxel. Recent studies have shown that low dose coating of paclitaxel with this DCB is useful for preventing restenosis, decrease lumen loss and target lesion revascularization in the peripheral vasculature6 but has not been tested in the dialysis access circuit.
An arteriovenous (AV) fistula is essential for patients with kidney failure on dialysis. There is no clear data on the best method to create a new brachial basilic AV fistula (BBAVF), so the choice between a single procedure and two separate procedures is left to the surgeon. Both approaches are standard care. This study aims to compare patient-centered outcomes and quality of life by randomly assigning patients needing a BBAVF to either a one-stage or two-stage procedure.
This study is aimed to assess the value of three-dimensional time-of-flight magnetic resonance angiography (3D-TOF-MRA) in hemodialysis patients with occlusive disease in arteriovenous fistula (AVF). All participants will receive 3D-TOF-MRA and ultrasound to detect the stenosis degree of AVF.
The surgical formation of an AVF offers a unique example of vascular remodelling and adaption. Yet, the specific factors which elicit remodelling events which determine successful maturation or failure have not been unambiguously determined. Computational fluid dynamic (CFD) simulations are increasingly been employed to investigate the interaction between local haemodynamics and remodelling and can potentially be used to assist in clinical risk assessment of maturation or failure. However, these simulations are inextricably linked to their prescribed boundary conditions and are reliant on in vivo measurements of flow and pressure to ensure their validity. This study will compare in vivo measurements of the pressure distribution across an AVF against a representative numerical model.
Arteriovenous fistulae are preferred among methods of providing blood access for hemodialysis. For each hemodialysis treatment, the fistula is cannulated usually with two needles. One, the arterial needle, allows the blood to be withdrawn from the patient into the dialysis circuit and then it is returned by the second or venous needle. The success of arteriovenous fistula cannulation is dependent on many variables and these are affect the dialysis adequacy.
Background: There are several studies that document the safety and efficacy of the balloon-assisted maturation (BAM) technique. Ultimately, there are also studies that report its possible negative consequences such as fibrosis and restenosis of venous outflow, leading to malfunctioning arteriovenous fistula (AVF). Thus, in an effort to increase the number of primary AVFs, shorten maturation times, and reduce the number of indwelling catheters, we ascertain the BAM technique within this study to optimize access care and maximize use of AVFs. The balloon assisted maturation approach specifically and aggressively dilates the entire usable segment of the AVF. Methods: This is a randomized prospective study conducted in the department of vascular surgery, Mansoura University Hospitals, including patients with hemodialysis access creation between June 2017 and May 2019. Three hundred patients were recruited from a total of 648 primary AVF creation cases. Patients were divided into two groups; Group (A) Balloon assisted maturation (BAM) (n=157) 52.3 % technique had been done while in the other Group (B) the usual maneuver was used (NO BAM) (n=143) 47.7%. Preoperative duplex was done for all cases to assess suitability. Intraoperative venography was the initial step following surgical exposure of the assigned veins to ascertain continuity and unlimited flow of the superficial vein. Balloon dilatation by 1 mm larger than the size of the vein, sparing the spatulated end of the vein followed by post-dilatation venography to reveal any injury and assess the success of dilatation process. All cases were completed as an end to side anastomosis. Patients were followed clinically and radiologically at regular visits in the 2nd, 4th and 6th week post-procedure, assessing the flow rate, vein depth and diameter via duplex US examination. Results: Patients age ranged from 19 to 89 (mean 51.17 ±15.5) years. The average maturation time was 3.7 weeks (SD ± 1.3 w) and 5.91 weeks (SD ± 2.2 w) for the BAM and non-BAM groups, respectively. Eighty-seven cases (88.7 %) with a pre-operative vein diameter of 3 mm or less, that underwent BAM showed early maturation and started dialysis within 2-4 weeks (68 cases 70%). On the other hand, 28 cases (45.2%) with a vein diameter equal or less than 3 mm in the NO BAM group failed to get mature. Both successful functional maturation (95%) and complication rates (9.6 %) were higher among cases of the BAM group compared to 80.4% maturation rate and 5 % complication in the NO BAM group. The higher complication rate may be attributed to the large number of cases. Conclusion: Balloon-assisted maturation has a pivotal role to help the dialysis society meet the goals of the Fistula First Initiative; It can achieve an accelerated functional maturation of AVF in cases of small caliber veins, with access to early dialysis, thus decreasing the indwelling catheter-related complications.
The objective of this study is to collect post-market, real-world safety and effectiveness data of the COVERA Vascular Covered Stent for the treatment of stenotic lesions in the upper extremity venous outflow of the arteriovenous (AV) access circuit.