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Percutaneous Arteriovenous Fistula For Dialysis Access

Details

Project TitlePercutaneous Arteriovenous Fistula For Dialysis Access
Track Code28837
Websitehttps://techtransfer.universityofcalifornia.edu/NCD/28837.html?utm_source=AUTMGTP&utm_medium=webpage&utm_term=ncdid_28837&utm_campaign=TechWebsites
Short Description

Vascular Surgeons at the University of California, San Francisco have created a novel medical device that can create an AVF in patients on HD.   The device consists of two parts:  a crossing device and connecting device. After the surgeon has accessed the vein using standard techniques, the crossing device can be positioned with ultrasound guidance. Once the crossing device has accessed the AV fistula site, the connecting device can formalize the AV anastomosis.

Abstract

This implantable medical device can be used to create an arteriovenous fistula (AVF) percutaneously, in a clinic based procedure. The AVF improves clinical outcomes for  patients  on hemodialysis.

 
Tagsdialysis, Arteriovenous Fistula, Percutaneous Arteriovenous Fistula, Implantable Medical Device, hemodialysis, Anastomosis, devices
 
Posted DateAug 11, 2017 12:03 PM

Advantages

Most end stage renal disease patients are treated with hemodialysis (HD). It is well established that a variety of clinic measures are improved when AVF is used over other dialysis access modalities, including decreased rates of hospitalization, infection and death. Despite clear benefits, only one out of five HD patients initiate dialysis with an AVF.

Creating dialysis access is a surgical procedure, presenting social and systems barriers to treatment. This implantable device eliminates the need for surgery, addressing some of the barriers to timely AVF creation. It can be used to create an AVF as a minimally invasive procedure in an office based procedure.

This novel invention provides the following advantages:

·         Minimally invasive

·         Can be performed as an office based procedure

·         Cost saving for health care payers

·         Does not require an x-ray for device positioning

·         Better safety profile and less pain

·         Negates the need for anesthesia

·         Limits number of catheter days for patients on HD

·         Potential for gains in life expectancy for patients on HD

 

Potential Applications

Dialysis access for hemodialysis patients

Additional Information

Stage of Development

Prototype development



Looking for Partners

To develop and commercialize this medical device as an effective method of producing a percutaneous AVF in patients with HD 



Data Availability

Under NDA/CDA 

INVENTORS PROFILE

http://profiles.ucsf.edu/shant.vartanian



Tech ID/UC Case

28837/2017-135-0



Related Cases

2017-135-0



UC QuickStart

Contact Information

Name : Gemma Rooney

Title :

Department :

Email : Gemma.Rooney@ucsf.edu

Phone : 415-625-9093

Address :

Principal Investigator

Name : Shant Vartanian

Department :

Intellectual Property