Palma Procedure for Acute Intraabdominal Major Venous Injury

Kvasha, A.; Kvasha, V.; Fajer, S.; Eyal, A.; Carmeli, R.

doi:10.1016/j.ejvs.2005.07.012

Cited by 2 publications

(2 citation statements)

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“…This procedure is generally indicated for postphlebitis syndromes,23 postthrombotic syndrome,24 venous injury,25 pelvic tumor,26 and others. Menyhei et al27 reported a remarkable patency rate of 29/42 (69%) and excellent long-term results with the Palma operation performed for chronic venous insufficiency caused by unilateral iliac vein occlusion.…”

Section: Roles For the Saphenous Vein Graftmentioning

confidence: 99%

A Reappraisal of Saphenous Vein Grafting

Yuan

Hua

2011

Ann Saudi Med

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Autologous saphenous vein grafting has been broadly used as a bypass conduit, interposition graft, and patch graft in a variety of operations in cardiac, thoracic, neurovascular, general vascular, vascular access, and urology surgeries, since they are superior to prosthetic veins. Modified saphenous vein grafts (SVG), including spiral and cylindrical grafts, and vein cuffs or patches, are employed in vascular revascularization to satisfy the large size of the receipt vessels or to obtain a better patency. A loop SVG helps flap survival in a muscle flap transfer in plastic and reconstructive surgery. For dialysis or transfusion purposes, a straight or loop arteriovenous fistula created in the forearm or the thigh with an SVG has acceptable patency. The saphenous vein has even been used as a stent cover to minimize the potential complications of standard angioplasty technique. However, the use of saphenous vein grafting is now largely diminished in treating cerebrovascular disorders, superior vena cava syndrome, and visceral revascularization due to the introduction of angioplasty and stenting techniques. The SVG remains the preferable biomaterial in coronary artery bypass, coronary osteoplasty, free flap transfer, and surgical treatment of Peyronie disease. Implications associated with saphenous vein grafting in vascular access surgery for the purpose of dialysis and chemotherapy are considerable. Vascular cuffs and patches have been developed as an important and effective means of enhancing the patency rates of the grafts by linking the synthetic material to the receipt vessel. In addition, saphenous veins can be a cell source for tissue engineering. We review the versatile roles that saphenous vein grafting has played as well as its current status in therapy.

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Section: Roles For the Saphenous Vein Graftmentioning

confidence: 99%

A Reappraisal of Saphenous Vein Grafting

Yuan

Hua

2011

Ann Saudi Med

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show abstract

“…Palma and Esperon 22 originally described a crossover femorofemoral bypass with an autologous SV grafting for the treatment of femoro-iliac venous occlusion, which was subsequently termed the Palma operation. This procedure is generally indicated for postphlebitis syndromes, 23 postthrombotic syndrome, 24 venous injury, 25 pelvic tumor, 26 and others. Menyhei et al 27 reported a remarkable patency rate of 29/42 (69%) and excellent long-term results with the Palma operation performed for chronic venous insufficiency caused by unilateral iliac vein occlusion.…”

Section: Roles For the Saphenous Vein Graftmentioning

confidence: 99%

A Reappraisal of Saphenous Vein Grafting

Yuan

Hua

2011

Annals of Saudi Medicine

View full text Add to dashboard Cite

Autologous saphenous vein grafting has been broadly used as a bypass conduit, interposition graft, and patch graft in a variety of operations in cardiac, thoracic, neurovascular, general vascular, vascular access, and urology surgeries, since they are superior to prosthetic veins. Modified saphenous vein grafts (SVG), including spiral and cylindrical grafts, and vein cuffs or patches, are employed in vascular revascularization to satisfy the large size of the receipt vessels or to obtain a better patency. A loop SVG helps flap survival in a muscle flap transfer in plastic and reconstructive surgery. For dialysis or transfusion purposes, a straight or loop arteriovenous fistula created in the forearm or the thigh with an SVG has acceptable patency. The saphenous vein has even been used as a stent cover to minimize the potential complications of standard angioplasty technique. However, the use of saphenous vein grafting is now largely diminished in treating cerebrovascular disorders, superior vena cava syndrome, and visceral revascularization due to the introduction of angioplasty and stenting techniques. The SVG remains the preferable biomaterial in coronary artery bypass, coronary ostioplasty, free flap transfer, and surgical treatment of Peyronie disease. Implications associated with saphenous vein grafting in vascular access surgery for the purpose of dialysis and chemotherapy are considerable. Vascular cuffs and patches have been developed as an important and effective means of enhancing the patency rates of the grafts by linking the synthetic material to the receipt vessel. In addition, saphenous veins can be a cell source for tissue engineering. We review the versatile roles that saphenous vein grafting has played as well as its current status in therapy.

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Palma Procedure for Acute Intraabdominal Major Venous Injury

Cited by 2 publications

References 0 publications

A Reappraisal of Saphenous Vein Grafting

A Reappraisal of Saphenous Vein Grafting

A Reappraisal of Saphenous Vein Grafting

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