Implantable Port Archives - Page 4 Of 6

AI implantable port detection on CXR – Full Text

“In total, 112,120 CXRs from 30,805 patients were manually checked for foreign objects: vascular port, shoulder endoprosthesis, necklace, and implantable cardioverter-defibrillator (ICD). Then, they were annotated with the use of a computer program, and the necessary image preprocessing was performed, such as resizing, normalization, and cropping” Kufel et al (2023).

Retrieval of central venous port fragments

“Split/fracture and embolization of central venous/shunt catheters are rare but serious complications in children. Percutaneous retrieval of intravascular foreign bodies is an important minimal invasive treatment” Duman et al (2023).

Implantable port insertion review

“In conclusion, our study demonstrates that the External Jugular Vein cut-down technique offers several advantages in the realm of oncology, as it is a safe, efficient, and straightforward technique for chemoport insertion” Ghosh et al (2023).

Patient virtual reality during implantable port placement research protocol – Full Text

“If the intervention demonstrates that VR can effectively reduce perioperative anxiety and pain, it may become a novel standard of care to minimise the need for analgosedation or general anaesthesia in port implantation procedures and improve patient outcomes” Graf et al (2023).

Implantable port catheter misplacement – Full Text

“Catheter misplacement is an early complication of CVport implantation and often occurs in the internal jugular vein, brachiocephalic vein, subclavian vein, azygos vein, or right atrium” Yao and Jiang (2023).

Prototype LED implantable port identification

“We created a prototype of a CV port using a 3D printer. Three red light-emitting diodes (LEDs) were attached around the septum that made the puncture site visible by applying wireless energy transmission technology using electromagnetic resonance” Yasutomi et al (2023).

Implantable port skin damage management – Full Text

“These findings provide good references for the prevention and management of postoperative port-exposure complications associated with TIVAP in patients with cancer” Liu et al (2023).

Implantable port placement via cephalic vein cutdown technique – Full Text

“The methods of choice for implantation are the subclavian vein puncture approach and the cephalic vein cutdown technique, followed by internal jugular vein access and external jugular vein access” Karamanliev et al (2023).

Medical glue for implantable port skin closure

“In TIVADs implantation, skin closure using NBCA showed no difference in the occurrence of infectious complications compared with conventional non-absorbable skin suture” Lee et al (2023).

Implantable port placement with patient-controlled sedation – Full Text

“The aim of this study was, before a full-scale RCT, to determine the feasibility of patient-controlled sedation with propofol and alfentanil as an adjunct to local anaesthesia during SVP implantation” Seifert et al (2023).

Implantable port infection in chemotherapy patients – Full Text

“TIVAP insertion in adult patients with solid tumors is associated with a low infection rate, which did not influence one-year mortality” Bailleul et al (2023).

Chemo port regarded as safe and effective – Full Text

“Port is regarded as safe and effective vascular access for the administration of chemotherapy” Lin et al (2023).

Implantable ports in children with cancer

“This study shows that PORTs associate with a reduced risk of infectious and mechanical complications, and a lower overall risk of removal, compared with tunnelled external CVCs in children with cancer” Neville et al (2023).

Video patient information before implantable port placement

“Video information provided before the insertion of an implantable port catheter was found to reduce the fear of severe pain in cancer patients” Işıklı et al (2023).

Port-a-cath complications study – Full Text

“This study aims to gain better insight into the safety and efficacy of port-a-cath use in this population and identify risk factors for port-a-cath complications” White et al (2023).

Implantable port catheter follow-up study – Full Text

“The present study aims to evaluate cancer patients related to the catheter flow and the general satisfaction of these patients” César et al (2023).

Port needle puncture-related pain – Full Text

“The local use of lidocaine spray in patients with TIVAP is effective, acceptable, and safe to alleviate the pain caused by non-coring needle puncture” Zhu et al (2023).

Upper arm implantable port expert consensus – Full Text

“This consensus elaborates on the technical indications and contraindications, procedures and technical points, treatment of complications, and the use and maintenance of upper-arm TIVAD, thus providing a practical reference for medical staff” Qiu et al (2023).

Dual ultrasound-guided implantable port insertion – Full Text

“To assess the efficacy and safety of dual ultrasound-guided (DUG) totally implantable venous access port (TIVAP) implantation (namely, using ultrasound-guided percutaneous puncture with transesophageal echocardiography-guided catheterization) via the right internal jugular vein (IJV) in pediatric patients with cancer” Deng et al (2023).

Percutaneous retrieval of fractured implantable port – Full Text

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“In this study, we encountered a case in which a TIVAP catheter adhering to a blood vessel was fractured during removal and the catheter left in the vessel could not be retrieved by a snare because it had no free end. Finally, the catheter was successfully removed using a peel-away sheath” Sosogi et al (2023).

Implantable port flushing training course – Full Text

“The interactive visual training course, including maintenance lectures and practice with a 3-D simulator, improved consensus among the nursing staff and increased the willingness of oncology nurses to perform the proposed port irrigation procedure” Wu et al (2023).

Implantable port placement case study – Full Text

” We describe a different safe and easy to replicate method of chemoport placement in a severely obese patient. We placed the chemopot directly above the sternum” Cho et al (2023).

Implantable port catheter tip migration – Full Text

“We present a case of a 70-year-old man of TIVAP dysfunction due to a rare catheter extra-vascular migration into the pleural space, diagnosed by computed tomography” Wong et al (2023).

Upper arm implanted venous access port insertion – Full Text

“Traditional tunnelling technique increases the operation time and has an unsatisfied cosmetic effect, so we explored the feasibility, cosmetic effect and complications of an upper arm port with a novel incision in this retrospective study” Song et al (2023).

Totally implantable venous access port insertion – Full Text

“The aim of this work was to describe the early and late success rates of cephalic vein cut down (CVC) in the implantation of totally implantable venous access ports (TIVAP) for chemotherapy treatment in oncological patients” Vélez (2023).

Removal of stuck implantable port catheter

“Port-based central venous catheters may remain indwelling for years with subsequent fibrosis resulting in a “stuck” catheter. At time of removal, this can lead to complications such as catheter fracture or require additional operative techniques for safe extraction” Urevick et al (2023).

Implantable port malposition case study – Full Text

“Central venous port chamber rotation is among the rarest complications, which usually makes the port unusable. It should be quickly recognized, to avoid further damage, such as extravasation of the chemotherapeutic agent or mechanical chamber impairment” Donev et al (2023).

Category: Implantable Port