Aim To avoid the limitation of the use of cationic polyethlenimine (PEI)-complexed plasmid DNA use for in vitro or in vivo gene delivery due to its cytotoxicity and lower efficiency in the presence of serum. Methods A polyplex with decreased positive charge on the complex surface was designed. The PEI/DNA (PD) complexes coated with an anionic biodegradable polymer, alginate were prepared and their gene delivery behavior with PD was compared. Results The alginate-coated PD polyplex, where alginate: PEI: DNA [alginate: DNA, 0. 15 (w/w); PEI: DNA, N: P = 10] showed about 10 -30 fold-increased transfection efficiency compared to corresponding non-coated complexes to C3 cells in the presence of 50% serum. The surface charge of the alginate-coated complex was approximately half of that of the alginate-lacking complex. The size of alginate-coated complex was slightly smaller than that of the corresponding complex without alginate. The former complex also showed a reduced erythrocyte aggregation activity and decreased cytotoxicities to C3 cells in comparison with PD complex. Conclusion The alginate-coated PD polyplexes as a new gene delivery system can improve transfection efficiency in high serum concentration with low cytotoxicity to C3 cells.

For the modern practice of cancer surgery, the concept of oncovascular surgery (OVS), defined as cancer resection with concurrent ligation or reconstruction of a major vascular structure, can be very important. OVS for advanced cancers requires specialized procedures performed by a specialized multidisciplinary team. Roles of oncovascular surgeons are summarized as: a primary surgeon in vessel-origin tumors, a rescue surgeon treating complications during cancer surgery, and a consultant surgeon as a multidisciplinary team for cancer surgery. Vascular surgeons must show leadership in cancer surgery in cases of complex advanced diseases, such as angiosarcoma, leiomyosarcoma, intravenous leiomyomatosis, retroperitoneal soft tissue sarcoma, iatrogenic injury of the major vessels during cancer surgery, pancreatic cancer with vascular invasion, extremity soft tissue sarcoma, melanoma and others.
Consultants ; Extremities ; Hemangiosarcoma ; Humans ; Leadership ; Leiomyomatosis ; Leiomyosarcoma ; Ligation ; Melanoma ; Pancreatic Neoplasms ; Sarcoma ; Surgeons

Major vessel invasion, particularly involving the portal and superior mesenteric veins, poses significant challenges during the radical resection of hepatobiliary and pancreatic cancers. Oncovascular surgery is essential for curative outcomes, and often requires portomesenteric vein reconstruction. Techniques, such as lateral venorrhaphy, patch repair, end-to-end anastomosis, and interposition grafting, have been employed. Autogenous veins such as the internal jugular, left renal, external iliac, or femoral veins are options, although not always available. Alternatives include great saphenous vein grafts, other autogenous materials, including the parietal peritoneum, bovine patches and allografts. Despite the higher risks of infection and thrombosis, prosthetic grafts are also considered. Ensuring long-term patency through meticulous surgical techniques is crucial for preventing complications, such as thrombosis and variceal bleeding.

Major vessel invasion, particularly involving the portal and superior mesenteric veins, poses significant challenges during the radical resection of hepatobiliary and pancreatic cancers. Oncovascular surgery is essential for curative outcomes, and often requires portomesenteric vein reconstruction. Techniques, such as lateral venorrhaphy, patch repair, end-to-end anastomosis, and interposition grafting, have been employed. Autogenous veins such as the internal jugular, left renal, external iliac, or femoral veins are options, although not always available. Alternatives include great saphenous vein grafts, other autogenous materials, including the parietal peritoneum, bovine patches and allografts. Despite the higher risks of infection and thrombosis, prosthetic grafts are also considered. Ensuring long-term patency through meticulous surgical techniques is crucial for preventing complications, such as thrombosis and variceal bleeding.

Major vessel invasion, particularly involving the portal and superior mesenteric veins, poses significant challenges during the radical resection of hepatobiliary and pancreatic cancers. Oncovascular surgery is essential for curative outcomes, and often requires portomesenteric vein reconstruction. Techniques, such as lateral venorrhaphy, patch repair, end-to-end anastomosis, and interposition grafting, have been employed. Autogenous veins such as the internal jugular, left renal, external iliac, or femoral veins are options, although not always available. Alternatives include great saphenous vein grafts, other autogenous materials, including the parietal peritoneum, bovine patches and allografts. Despite the higher risks of infection and thrombosis, prosthetic grafts are also considered. Ensuring long-term patency through meticulous surgical techniques is crucial for preventing complications, such as thrombosis and variceal bleeding.

Major vessel invasion, particularly involving the portal and superior mesenteric veins, poses significant challenges during the radical resection of hepatobiliary and pancreatic cancers. Oncovascular surgery is essential for curative outcomes, and often requires portomesenteric vein reconstruction. Techniques, such as lateral venorrhaphy, patch repair, end-to-end anastomosis, and interposition grafting, have been employed. Autogenous veins such as the internal jugular, left renal, external iliac, or femoral veins are options, although not always available. Alternatives include great saphenous vein grafts, other autogenous materials, including the parietal peritoneum, bovine patches and allografts. Despite the higher risks of infection and thrombosis, prosthetic grafts are also considered. Ensuring long-term patency through meticulous surgical techniques is crucial for preventing complications, such as thrombosis and variceal bleeding.

Major vessel invasion, particularly involving the portal and superior mesenteric veins, poses significant challenges during the radical resection of hepatobiliary and pancreatic cancers. Oncovascular surgery is essential for curative outcomes, and often requires portomesenteric vein reconstruction. Techniques, such as lateral venorrhaphy, patch repair, end-to-end anastomosis, and interposition grafting, have been employed. Autogenous veins such as the internal jugular, left renal, external iliac, or femoral veins are options, although not always available. Alternatives include great saphenous vein grafts, other autogenous materials, including the parietal peritoneum, bovine patches and allografts. Despite the higher risks of infection and thrombosis, prosthetic grafts are also considered. Ensuring long-term patency through meticulous surgical techniques is crucial for preventing complications, such as thrombosis and variceal bleeding.

A 71-year-old woman presented with an enlarging mass in the right buttock, with pain and tingling sensation in sitting position. Five years ago, she was diagnosed with acute limb ischemia due to acute thrombosis of right persistent sciatic artery (PSA), and she underwent successful thromboembolectomy and femoro-tibioperoneal trunk bypass. Computed tomography angiography revealed a huge PSA aneurysm (PSAA). During the previous bypass, the distal popliteal artery was ligated just above the distal anastomosis to exclude the PSAA, whose proximal end was already thrombosed. However, PSAA has grown to cause compression symptoms, and the mechanism of aneurysm growth can be ascribed to type 1a or type 2 endoleak. In order to relieve the compression symptoms, aneurysm excision was performed without any injury to the sciatic nerve. A postoperative tingling sensation due to sciatic-nerve stimulation in the supine position resolved spontaneously one month after surgery.
Aged ; Aneurysm* ; Angiography ; Arteries* ; Buttocks ; Congenital Abnormalities ; Endoleak ; Extremities ; Female ; Humans ; Ischemia ; Popliteal Artery ; Sciatic Nerve ; Sciatica ; Sensation ; Supine Position ; Thrombosis

PURPOSE: The purpose of this study was to evaluate the potential risk factors of type II endoleak and sac growth after endovascular aneurysm repair (EVAR) and the outcomes of secondary interventions. MATERIALS AND METHODS: Ninety seven patients underwent elective EVAR for infrarenal abdominal aortic aneurysms in two tertiary centers between April 2005 and July 2013. Clinical and imaging parameters were compared among sac growth (>5 mm) and non-growth groups. Risk factors associated with sac growth and persistent type II endoleak were analyzed. The outcomes of reinterventions for persistent type II endoleak were determined. RESULTS: Sac growth was observed in 20 cases (20.6%) and endoleak was found in 90% of them compared to 28.6% (22/77) in the non-growth group (P<0.001). The majority of endoleaks were type II (36/40) and 80.5% were persistent. Sac diameter, neck diameter and number of patent accessory arteries were also statistically significant for sac growth. On multivariate analysis, grade of calcification at the neck, grade of mural thrombus at the inferior mesenteric artery and number of patent accessory arteries were risk factors of persistent type II endoleak. Twenty six reinterventions were done for 16 patients with persistent type II endoleak, with a technical success rate of 88.5%, yet 55.5% showed sac growth regardless of technical success. There were no ruptures during the follow-up period. CONCLUSION: Sac growth after EVAR was mostly associated with persistent type II endoleak. Secondary interventions using transarterial embolization is partially effective in achieving clinical success.
Aneurysm* ; Aortic Aneurysm, Abdominal ; Arteries ; Endoleak ; Follow-Up Studies ; Humans ; Mesenteric Artery, Inferior ; Multivariate Analysis ; Neck ; Risk Factors ; Rupture ; Thrombosis

PURPOSE: This retrospective review aimed to report the outcomes of arteriovenous fistula (AVF) and to evaluate the suitability of AVF as a permanent vascular access in pediatric populations. MATERIALS AND METHODS: Data were collected for all patients aged 0 to 19 years who underwent AVF creation for hemodialysis between January 200 and June 2014. RESULTS: Fifty-two AVFs were created in 47 patients. Mean age was 15.7±3.2 years and mean body weight was 46.7±15.4 kg. Of the 52 AVFs, 43 were radiocephalic AVFs, 7 were brachiocephalic AVFs and 2 were basilic vein transpositions. With a mean follow-up of 49.7±39.2 months, primary patency was 60.5%, 51.4%, and 47.7% at 1, 3, and 5 years, respectively and secondary patency was 82.7%, 79.2% and 79.2% at 1, 3, and 5 years, respectively. Age, body weight, AVF type, the presence of a central venous catheter, use of anticoagulation therapy, and history of vascular access failure were not significantly associated with patency rates. There were 9 cases (17.3%) of primary failure; low body weight was an independent predictor. Excluding cases of primary failure, the mean duration of maturation was 10.0±3.7 weeks. During follow-up, 20 patients (42.6%) underwent kidney transplantation, with a median interval to transplantation of 36 months. CONCLUSION: AVF creation in children and adolescents is associated with acceptable long-term durability, primary failure rate and maturation time. Considering the waiting time and limited kidney graft survival, placement of AVFs should be considered primarily even in patients expected to receive transplantation.
Adolescent* ; Arteriovenous Fistula* ; Body Weight ; Central Venous Catheters ; Child ; Follow-Up Studies ; Graft Survival ; Humans ; Kidney ; Kidney Transplantation ; Ocimum basilicum ; Pediatrics ; Renal Dialysis* ; Retrospective Studies ; Veins