An assembly of devices that uses radio-frequency (RF) alternating current to dev
An assembly of devices that uses radio-frequency (RF) alternating current to develop heat directly within soft-tissue cells (thermodynamic) for cutting and coagulating tissue within a shield of argon (Ar) gas during surgery. It typically includes a generator, a single-use/reusable electrode handpiece with monopolar electrodes, connecting cables, foot-switch, and an argon gas supply system [housed in a separate trolley (cart) or incorporated into the system generator]. The current forms an ionized channel or arc within the argon shield which lessens the charring of tissue and provides rapid, uniform coagulation over large bleeding surfaces (e.g., capillary beds).
KNS
Unit, Electrosurgical, Endoscopic (With Or Without Accessories)
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
A sterile non-bioabsorbable tubular device intended to be implanted in an obstru
A sterile non-bioabsorbable tubular device intended to be implanted in an obstructed pancreatic duct (e.g., due to stricture or malignancy) to maintain luminal patency; it may also be intended to treat a wide variety of conditions in pancreatic endoscopy (e.g., drain pseudocyst, treat fistula or duct disruption). It is made entirely of a synthetic polymer and has a continuous tube design with or without retention flanges. This is a single-use device.
The Guiding Catheter is a sterile device inserted through a compatible flexible
The Guiding Catheter is a sterile device inserted through a compatible flexible endoscope to aid in the initial placement of a stent, typically into a pancreatic or biliary duct in order to maintain patency. It is made of polytetrafluoroethylene (PTFE) with a radiopaque marker on the distal end. This is a single-use device.
A long flexible tube with an inflatable balloon at its distal tip used to dilate
A long flexible tube with an inflatable balloon at its distal tip used to dilate gastrointestinal strictures of the lower esophageal schinctor. The balloon is inflated to its prescribed diameter to widen the affected passage of the tract. The device is multi-lumen and wire-guided. This is a single-use device.
The Hobbs Microbiology Brush is intended to be used in combination with a compat
The Hobbs Microbiology Brush is intended to be used in combination with a compatible flexible endoscope to collect cells of the mucosa for pathological diagnosis during endoscopy. It is inserted through the working channel of the endoscope and consists of a flexible insertion portion made of a metal coil inside a plastic tube, whose distal end is equipped with plastic bristles for harvesting and protecting mucosal cells, e.g., during endoscopy. This is a single-use device.
The Hobbs Microbiology Brush is intended to be used in combination with a compat
The Hobbs Microbiology Brush is intended to be used in combination with a compatible flexible endoscope to collect cells of the mucosa for pathological diagnosis during endoscopy. It is inserted through the working channel of the endoscope and consists of a flexible insertion portion made of a metal coil inside a plastic tube, whose distal end is equipped with plastic bristles for harvesting and protecting mucosal cells, e.g., during endoscopy. This is a single-use device.
The Hobbs Microbiology Brush is intended to be used in combination with a compat
The Hobbs Microbiology Brush is intended to be used in combination with a compatible flexible endoscope to collect cells of the mucosa for pathological diagnosis during endoscopy. It is inserted through the working channel of the endoscope and consists of a flexible insertion portion made of a metal coil inside a plastic tube, whose distal end is equipped with plastic bristles for harvesting and protecting mucosal cells, e.g., during endoscopy. This is a single-use device.
A long flexible tube with an inflatable balloon at its distal tip used to dilate
A long flexible tube with an inflatable balloon at its distal tip used to dilate gastrointestinal strictures of the lower esophageal schinctor. The balloon is inflated to its prescribed diameter to widen the affected passage of the tract. The device is multi-lumen and wire-guided. This is a single-use device.
The stentfix OTSC System Set consists of a clip preloaded onto an application ca
The stentfix OTSC System Set consists of a clip preloaded onto an application cap • a handwheel and a thread retriever • it can be used in flexible endoscopy for the fixation of self-expandable metallic stents in the gastrointestinal tract (for adult use only) • the modified clip adapts optimally to the gastrointestinal anatomy • the clip is anchored in the tissue and on the stent mesh so that the stent is fixed to the tissue and secured against migration • made of a biocompatible material (Nitinol) and exerts a constant force on the tissue in the application area, thus securing the positioning of the stent • can remain in the body as an implant
The stentfix OTSC System Set consists of a clip preloaded onto an application ca
The stentfix OTSC System Set consists of a clip preloaded onto an application cap • a handwheel and a thread retriever • it can be used in flexible endoscopy for the fixation of self-expandable metallic stents in the gastrointestinal tract (for adult use only) • the modified clip adapts optimally to the gastrointestinal anatomy • the clip is anchored in the tissue and on the stent mesh so that the stent is fixed to the tissue and secured against migration • made of a biocompatible material (Nitinol) and exerts a constant force on the tissue in the application area, thus securing the positioning of the stent • can remain in the body as an implant
The diagnostic FTRD Set is a novel tool for diagnostic and therapeutic full-thic
The diagnostic FTRD Set is a novel tool for diagnostic and therapeutic full-thickness resection via flexible endoscope in colon and rectum • technology is based on OTSC System • enabling the endoscopist to resect all layers of suitable lesions including the serosa • enables a thorough pathological examination of e.g. motility disorders (e.g. Morbus Hirschsprung) • transection of the tissue happens after the defect has been closed completely • bowel lumen and abdominal cavity won't get into contact • it consists of the following three instruments: diagnostic FTRD (application cap with preloaded clip and integrated HF snare endoscope sleeve, hand wheel and thread retriever for colonoscopes) • FTRD Marking Probe (HF coagulation probe marking of the target lesion in preparation of FTRD use for detection and complete resection of the right tissue) • FTRD Grasper (specially designed grasping forceps proper grip on the target tissue precise retrieval of the sample into the application cap of the FTRD)
The colonic FTRD Set is a novel tool for diagnostic and therapeutic full-thickne
The colonic FTRD Set is a novel tool for diagnostic and therapeutic full-thickness resection via flexible endoscope in colon and rectum • technology is based on OTSC System • enabling the endoscopist to resect all layers of suitable lesions including the serosa • transection of the tissue happens after the defect has been closed completely • bowel lumen and abdominal cavity won't get into contact • it consists of the following three instruments: colonic FTRD (application cap with preloaded clip and integrated HF snare endoscope sleeve, hand wheel and thread retriever for colonoscopes) • FTRD Marking Probe (HF coagulation probe marking of the target lesion in preparation of FTRD use for detection and complete resection of the right tissue) • FTRD Grasper (specially designed grasping forceps proper grip on the target tissue precise retrieval of the sample into the application cap of the FTRD)
The FTRD System Set is a novel tool for diagnostic and therapeutic full-thicknes
The FTRD System Set is a novel tool for diagnostic and therapeutic full-thickness resection via flexible endoscope in colon and rectum • technology is based on OTSC System • enabling the endoscopist to resect all layers of suitable lesions including the serosa • transection of the tissue happens after the defect has been closed completely • bowel lumen and abdominal cavity won't get into contact • it consists of the following instruments: FTRD System (application cap with preloaded clip and integrated HF snare) • FTRD Marking Probe (HF coagulation probe marking of the target lesion in preparation of FTRD System use for detection and complete resection of the right tissue) • FTRD Grasper (specially designed grasping forceps proper grip on the target tissue precise retrieval of the sample into the application cap of the FTRD System)