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Clinical Trial Summary

Researchers are actively seeking a way to coat the inside of a synthetic graft so that it more closely resembles native vessels and therefore has low thrombogenicity and low incidence of stenosis. Using a biological coating comprised of autologous stromal cells derived from the patient's own adipose tissue is a logical solution. Considerable experimental evidence exists that such a coating is relatively non-thrombogenic and improves long-term graft patency. The Company's TGI Cell Isolation System (CIS) for isolating and concentrating adipose-derived stromal cells (ASC) can be used to fill the pressing medical need for small-diameter synthetic vascular grafts. The TGI CIS enables the user to prepare a stem cell-based biological coating from adipose tissue liposuctioned from the patient. The cells derived from the adipose tissue are then sodded onto the internal lumen of the vascular graft to improve long term patency.


Clinical Trial Description

Replacement or bypass of small diameter (< 4-5 mm) blood vessels is needed for a variety of medical problems, including peripheral vascular disease (PVD) associated with diabetes, generalized atherosclerosis, or aging), and critical limb ischemia (CLI). Vascular surgery has been extremely successful in replacing damaged or atherosclerotic arteries that are large in diameter and associated with high flow rates. However, as the diameter of the damaged vessel decreases, the ability to achieve long-term patency using replacement vessels decreases. The best current solution to this phenomenon of decreased patency with decreasing vessel diameter has been the use of the saphenous vein bypass graft. The saphenous vein has become the benchmark of all smaller diameter vascular grafts and demonstrates excellent patency when used from the femoral artery to the popliteal artery below the knee. However, when extended to more distal locations including the tibial arteries, even the saphenous vein begins to demonstrate limitations in its ability to maintain long-term patency. The TGI ASC-coated expanded polytetrafluoroethylene (ePTFE) Vascular Graft is an adipose-derived stromal cell-sodded small-diameter vascular conduit intended for use as a peripheral bypass graft. The autologous cells used to create the ASC-coated vascular graft are isolated by the TGI Cell Isolation System (CIS). The TGI ASC-coated graft can be used to address the pressing medical need for small-diameter vascular grafts with improved long-term patency rates. The TGI CIS enables the user to prepare a stem cell-based biological coating in about an hour; stromal cells isolated from adipose tissue are sodded onto the internal lumen of the vascular graft before it is implanted into the patient during the course of a peripheral vascular bypass procedure. The TGI Peripheral Vascular Graft (PVG) Kit consists of a vascular conduit, a proprietary enzymatic solution (Adipaseā„¢ Custom Enzyme Solution), and a disposable fluidics system, all to be used in conjunction with the TGI CIS, itself an automated point-of-care tissue processing instrument which isolates ASCs from a lipoaspirate specimen. Such cells are administered onto the lumen of the prepared conduit, a commercially available, small-diameter ePTFE straight vascular graft (IMPRA ePTFE Vascular Graft, item 80s06, Bard Peripheral Vascular, Inc.) This instrument system will provide a sterile flow-path, through which cells are processed and separated. The flow-path is contained within a disposable cartridge that interlocks with the durable system hardware and includes both a flow-path cartridge with fluid reservoirs and a disposable centrifuge cartridge. The system is a self contained, stand-alone system requiring only AC power to operate. The clinical trial process will involve a pilot (or feasibility) study to gain initial safety and effectiveness data in a limited human population. A subsequent pivotal study will be conducted with sufficient patient numbers to demonstrate a statistically significant improvement in effectiveness for defined clinical endpoints and to gain important safety information in a specific clinical population. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT01305863
Study type Interventional
Source Tissue Genesis
Contact
Status Active, not recruiting
Phase N/A
Start date February 2011
Completion date May 2022

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