nitinol and Fistula

nitinol has been researched along with Fistula* in 2 studies

Reviews

1 review(s) available for nitinol and Fistula

Article	Year
A Review of Self-Expanding Esophageal Stents for the Palliation Therapy of Inoperable Esophageal Malignancies. BioMed research international, 2019, Volume: 2019 Esophageal cancer is a very deadly disease, killing more than 15,000 people in the United States annually. Almost 400,000 new cases happen in the worldwide every year. More than 50% esophageal cancer patients are diagnosed at an advanced stage when they need an esophageal stent to open the blocked esophagus for feeding and drinking. Esophageal stents have evolved in stages over the years. Current clinically used stents commonly include stainless steel or nitinol self-expandable metallic stent (SEMS) and self-expandable plastic stent (SEPS). There are many choices of different types of stents and sizes, with fierce competition among manufacturers. However, current stent technology, whether uncovered, partially covered, fully covered SEMS or SEPS, has their own advantages to solve the dysphagia, stricture, and fistula problems, but they also cause some clinical complications. The ideal stent remains elusive. New 3D printing technique may bring new promising potential to manufacturing personalized esophageal stents. Drug-eluting stents could be the new avenue to do more than just pry open a stricture or cover a defect in the esophageal lumen, a possibility of proving local anticancer therapy simultaneously. Additionally, the lack of esophageal cancer animal models also hinders the progress of stent development. This paper reviews these topics for a comprehensive understanding of this field. In a conclusion, the ultimate goal of the future esophageal stent would have multifunction to treat the underlying conditions and restore esophageal function to near normal. Topics: Alloys; Animals; Constriction, Pathologic; Deglutition Disorders; Drug-Eluting Stents; Equipment Design; Esophageal Neoplasms; Esophageal Stenosis; Esophagus; Fistula; Humans; Models, Animal; Palliative Care; Plastics; Printing, Three-Dimensional; Stainless Steel; Stents	2019

Article

Year

A Review of Self-Expanding Esophageal Stents for the Palliation Therapy of Inoperable Esophageal Malignancies.

BioMed research international, 2019, Volume: 2019

Esophageal cancer is a very deadly disease, killing more than 15,000 people in the United States annually. Almost 400,000 new cases happen in the worldwide every year. More than 50% esophageal cancer patients are diagnosed at an advanced stage when they need an esophageal stent to open the blocked esophagus for feeding and drinking. Esophageal stents have evolved in stages over the years. Current clinically used stents commonly include stainless steel or nitinol self-expandable metallic stent (SEMS) and self-expandable plastic stent (SEPS). There are many choices of different types of stents and sizes, with fierce competition among manufacturers. However, current stent technology, whether uncovered, partially covered, fully covered SEMS or SEPS, has their own advantages to solve the dysphagia, stricture, and fistula problems, but they also cause some clinical complications. The ideal stent remains elusive. New 3D printing technique may bring new promising potential to manufacturing personalized esophageal stents. Drug-eluting stents could be the new avenue to do more than just pry open a stricture or cover a defect in the esophageal lumen, a possibility of proving local anticancer therapy simultaneously. Additionally, the lack of esophageal cancer animal models also hinders the progress of stent development. This paper reviews these topics for a comprehensive understanding of this field. In a conclusion, the ultimate goal of the future esophageal stent would have multifunction to treat the underlying conditions and restore esophageal function to near normal.

Topics: Alloys; Animals; Constriction, Pathologic; Deglutition Disorders; Drug-Eluting Stents; Equipment Design; Esophageal Neoplasms; Esophageal Stenosis; Esophagus; Fistula; Humans; Models, Animal; Palliative Care; Plastics; Printing, Three-Dimensional; Stainless Steel; Stents

2019

Other Studies

1 other study(ies) available for nitinol and Fistula

Article	Year
[MULTICENTER EXPERIENCE WITH ALLIUM URETERAL STENT FOR THE TREATMENT OF URETERAL STRICTURE AND FISTULA]. Harefuah, 2015, Volume: 154, Issue:12 Chronic ureteral stricture and ureteral fistula are treated with urinary diversion using percutaneous nephrostomy or double pigtail stent. Both of these techniques require replacement of the tube every few months in order to prevent encrustations and obstruction.. To report the long-term efficacy of the new Allium Ureteral Stent (URS) in the treatment of ureteral stricture and fistula.. The Allium URS is a newly-developed ureteral stent made of nickel-titanium (Nitinol), which is inserted in a small diameter and spontaneously expands into and preserves a large-caliber. The stent is coated with a biochemical co-polymer which prevents tissue ingrowth and incrustations. The stent is inserted antegradely or retrogradely with intraoperative x-ray guidance after dilation of the stricture. The Allium URS stent was inserted into 107 ureters of 92 patients in 5 different centers worldwide; 69 patients carried a percutaneous nephrostomy before the procedure and 38 patients had a ureteral stent. The etiologies underlying the strictures were: gynecological cancer (with or without irradiation), bladder cancer, iatrogenic stricture, ureteroileal stenosis, stricture following uretero-pelvic junction obstruction repair and iatrogenic ureteral fistula.. During a mean follow-up of 27 months, only one stent was obstructed after eleven-indwelling months; 21 patients died of their primary disease carrying the stent. Stent migration was seen in 11 patients within 8 months after its insertion, and these stents were removed. In 4 patients with early stent migration, the stents were replaced. In 18 patients the stents were removed as planned after one year of indwelling time, and these patients were asymptomatic in a follow-up period of up to 59 months.. The results of our study show that the use of Allium URS for the treatment of ureteral strictures is feasible, safe and effective. The relative ease of its insertion could encourage its use in a wide range of other indications.. Due to its unique structure, the Allium URS is superior to the regular pigtail stents in the treatment of ureteral strictures. Stent migration was seen in only 10.7% of the patients, mainly in patients with stricture of the mid-ureter.. The use of the Allium URS stent in the treatment of proximal and distaL ureteral strictures is safe and effective. Topics: Alloys; Fistula; Follow-Up Studies; Humans; Prosthesis Design; Stents; Time Factors; Ureter; Ureteral Obstruction	2015

Article

Year

[MULTICENTER EXPERIENCE WITH ALLIUM URETERAL STENT FOR THE TREATMENT OF URETERAL STRICTURE AND FISTULA].

Harefuah, 2015, Volume: 154, Issue:12

Chronic ureteral stricture and ureteral fistula are treated with urinary diversion using percutaneous nephrostomy or double pigtail stent. Both of these techniques require replacement of the tube every few months in order to prevent encrustations and obstruction.. To report the long-term efficacy of the new Allium Ureteral Stent (URS) in the treatment of ureteral stricture and fistula.. The Allium URS is a newly-developed ureteral stent made of nickel-titanium (Nitinol), which is inserted in a small diameter and spontaneously expands into and preserves a large-caliber. The stent is coated with a biochemical co-polymer which prevents tissue ingrowth and incrustations. The stent is inserted antegradely or retrogradely with intraoperative x-ray guidance after dilation of the stricture. The Allium URS stent was inserted into 107 ureters of 92 patients in 5 different centers worldwide; 69 patients carried a percutaneous nephrostomy before the procedure and 38 patients had a ureteral stent. The etiologies underlying the strictures were: gynecological cancer (with or without irradiation), bladder cancer, iatrogenic stricture, ureteroileal stenosis, stricture following uretero-pelvic junction obstruction repair and iatrogenic ureteral fistula.. During a mean follow-up of 27 months, only one stent was obstructed after eleven-indwelling months; 21 patients died of their primary disease carrying the stent. Stent migration was seen in 11 patients within 8 months after its insertion, and these stents were removed. In 4 patients with early stent migration, the stents were replaced. In 18 patients the stents were removed as planned after one year of indwelling time, and these patients were asymptomatic in a follow-up period of up to 59 months.. The results of our study show that the use of Allium URS for the treatment of ureteral strictures is feasible, safe and effective. The relative ease of its insertion could encourage its use in a wide range of other indications.. Due to its unique structure, the Allium URS is superior to the regular pigtail stents in the treatment of ureteral strictures. Stent migration was seen in only 10.7% of the patients, mainly in patients with stricture of the mid-ureter.. The use of the Allium URS stent in the treatment of proximal and distaL ureteral strictures is safe and effective.

Topics: Alloys; Fistula; Follow-Up Studies; Humans; Prosthesis Design; Stents; Time Factors; Ureter; Ureteral Obstruction

2015