Placement of totally implantable venous access devices in oncology practice – Full Text
“Despite the initial censure, his idea garnered interest across the Atlantic in the US, where Andre Counard and Dickinson Richards, in the 1940s, refined his technique and used it for cardiovascular research. In 1956, Forsmann, Counard and Richards were awarded the Nobel Prize in Physiology for their work on central venous access” Ong and Anil (2025).
Choosing insertion site for totally implantable venous access ports in children
“Compared with internal jugular vein, external jugular vein access has obvious advantages: the location of external jugular vein is superficial and easy to find, the utilization of external jugular vein is easy to learn and master, and the external jugular vein is of little importance to the human body” Zhen et al (2025).
Radiation exposure in pediatric port implantations – Full Text
“The objective of the present study was to establish local reference data for radiation exposure in children undergoing port implantation” Krause et al (2025).
Comparison between arm port and chest port
“This study reveals no significant differences in the incidence of infections, catheter occlusion, thrombosis, exudation, fibrin sheath, catheter malposition, fracture, pneumothorax, and malfunction between the two implanted venous access ports” Wei et al (2025).
Latest research on totally implantable venous access ports – Full Text
“Therefore, this article aims to provide a systematic overview of the clinical applications and maintenance of TIVAP, both domestically and internationally” Huang et al (2025).
Port implantation in a non-surgical setting – Full Text
“The cost incurred for port implantations by medical oncologists was lower (994.38 € cheaper for each device) compared to those implanted by vascular radiologists. Our experience suggests that implantation of port devices by medical oncologist in a non-surgical environment is safe and cost saving regarding conventional procedures” Revuelta et al (2025).
Radiologic placement of totally implantable venous access devices – Full Text
“TIVAD implantation via the jugular vein under radiological guidance provides a safe, reliable and convenient means of long-term venous access in oncology patients” Tashi et al (2024).
TIVAD implantation techniques and complication rates – Full Text
“There was no difference in overall complication rates between the implantation techniques. Further prospective randomized controlled trials would clarify the most effective technique” Melo-Pinto et al (2024).
Implantable port outcomes when inserted by anesthesiologists – Full Text
“The implantation of TIVADs by anesthesiologists in cancer patients at the National Cancer Institute was predominantly successful and safe, exhibiting a low complication rate. The findings reinforce the efficacy and safety of the employed technique, exceeding the outcomes reported in existing medical literature” Valls et al (2024).
Summary of implantable port procedural techniques – From pocket location to first time access
“This review comprehensively summarizes the diverse choices of implantation procedural techniques related to the pocket location, vein access, port specification, catheterization method, puncture guidance, single-incision technique, catheter tip positioning method, port fixation, skin closure, and first-use period” Wu et al (2024).
Implantable port infection with associated intracardiac infected thrombus – Full Text
“We report on the first case of a TIVAD infection caused by Achromobacter xylosoxidans in person with cystic fibrosis. The TIVAD infection was complicated by a bacteraemia and an associated intracardiac infected thrombus at the superior atriocaval junction” Evans et al (2024).
Calculation formula for the insertion depth of implantable port catheter – Full Text
“The simple formula for calculating the insertion depth of right internal jugular CVC of TIVAPs is clinically feasible for Chinese patients” Chen et al (2024).
Subcutaneous chest wall metastasis located over implantable port – Full Text
“CT studies showed a mass surrounding the catheter near the port reservoir attached to the chest wall. The port was removed and the mass was biopsied. The pathology from the biopsy showed squamous cell carcinoma (SCC) from bladder carcinoma” Botaitis et al (2024).
Flushing interval for totally implantable port
“Data from the current included studies tended to support the feasibility of extending the flushing interval to every three months, with no expected increase in catheter occlusion or overall catheter complications” Liu et al (2024).
Implantable port patient education animated videos – Full Text
“This study aimed to discuss the clinical value of health education using an animated video for postoperative patients with digital subtraction angiography (DSA)-guided implantable venous access ports” Jin et al (2024).
Experience of 500 implantable port placements
“The cephalic vein cutdown approach for CICVAD placement appears to be a safe and better alternative to the percutaneous subclavian vein approach in cancer patients. Cephalic vein cut down approach is LESS with More benefits” Kumar et al (2024).
Surgical technique for the placement of a totally implantable venous access port – Full Text
“Although scarce and focused on adult populations, the preceding literature concerning using the cephalic vein for TIVAP placement shows promising results. In this manuscript, I present my experience using this technique in pediatric populations, detailing the necessary preoperative preparation to perform the procedure safely, the technical aspects of its implantation, and the most relevant postoperative considerations” Arredondo Montero (2024).
Intraoperative implantable port catheter malposition – Full Text
“This study presents an in-depth exploration of various adjustment methods for intraoperative catheter malposition by guidewires in the implantation of totally implantable venous access ports (TIVAP)” Zhang and Wu (2024).
Managing distress during implanted port needle insertion
“This systematic review aims to assess the effectiveness of IVR intervention utilizing advanced head-mounted displays, in alleviating physical and psychological distress among Children and Adolescents diagnosed with malignancies undergoing chemotherapy treatment via Implantable Venous Access Device/Port (IVAD/P) (P) needle insertion” Tsitsi et al (2024).
Development of bacteriostatic central venous port – Full Text
“A novel central venous port (CVP) with light-emitting diodes (LEDs) that emits red light with a wavelength of 680 nm via wireless energy transmission technology has been established” Takara et al (2024).
Double port-a-cath implantation tips and tricks – Full Text
“This study was designed to evaluate the clinical benefit of double-lumen port catheters in patients receiving chemotherapy and parenteral nutrition concurrently or in those with vascular access failure” de Oliveira Leite (2024).
Implantable port placement via persistent left superior vena cava – Full Text
“A chest wall venous infusion port was inserted via the left internal jugular vein. Due to the PLSVC, the catheter was adjusted to ensure proper placement” Wang et al (2024).
Complications linked to implantable port removal – Full Text
“Complications during removal were uncommon but included bleeding, difficulty in removing the port and catheter, and delayed wound healing” Su et al (2024).
Impact of virtual reality pain and anxiety during implantable port placement – Full Text
“This monocentric randomized controlled pilot trial investigates the impact of virtual reality (VR) hypnosedation on perioperative anxiety, pain, patient satisfaction, and medication usage during port implantation under local anesthesia” Steinkraus et al (2024).
Novel implantable port insertion technique – Full Text
“The implantation of this CV-port device demonstrated comparable success and complication rates to conventional devices, with the added potential benefit of eliminating complications associated with the use of a peel-away sheath” Iguchi et al (2024).
Implantable port catheter tip migration case study – Full Text
“The use of a Totally Implantable Venous Access Port (TIVAP) has been a popular access option in chemotherapy for cancer patients, but complications, both long-term and short-term, may arise in the fixation process. This paper discusses the importance of detection and management of complications that arise as a result of TIVAP insertion” Manik Yuniawaty Wetan et al (2024).
Removal of stuck implantable port catheter in a paediatric patient – Full Text
“A chemoport is widely used in paediatric oncology population. Removal is a relatively easy procedure, but difficulty can be encountered in case the catheter is densely adherent to the vascular wall. It is a rare complication and is associated with long indwelling duration and acute lymphoblastic leukaemia (ALL). Forceful traction can lead to vascular injury and high morbidity” Sen and Cheng (2024).
Bloodstream infections related to totally implantable ports – Full Text
“This study aimed to develop and validate a machine learning-based risk prediction model for catheter-related bloodstream infection (CRBSI) following implantation of totally implantable venous access ports (TIVAPs) in patients” Wang et al (2024).
Factors associated with implantable port failure – Full Text
“The assessment and management of totally implanted vascular access devices (TIVAD) prior to the administration of medications/fluids are vital to ensuring the risk of harm is mitigated” Meredith et al (2024).
Implantable ports for patients needing intermittent long-term apheresis
“The introduction of a novel device configuration of venous access ports for intermittent apheresis resulted in higher flow rates and less total time for treatment. Use of tPA was greatly reduced” Howlett et al (2024).