1. Subclavian steal syndrome decreases neurogenesis in the cerebellar cortex and affects cognitive function in rabbits
    XIAO-YANG FU et al, 2015, Experimental and Therapeutic Medicine CrossRef
  2. Evidenz von Portsystemen
    R.T. Grundmann, 2016, Ports CrossRef
  3. Analysis of the Outcomes in Central Venous Access Port Implantation Performed by Residents via the Internal Jugular Vein and Subclavian Vein
    Hajime Matsushima et al, 2017, Journal of Surgical Education CrossRef
  4. Periprocedural Anticoagulation Management For Nonoperating Room Anesthesia Procedures: A Clinical Guide
    Jing Tao et al, 2019, Seminars in Cardiothoracic and Vascular Anesthesia CrossRef
  5. Use of catheter with 2-methacryloyloxyethyl phosphorylcholine polymer coating is associated with long-term availability of central venous port
    Yuuki Iida et al, 2021, Scientific Reports CrossRef
  6. Factors on Patency Periods of Subcutaneous Central Venous Port: Long-Term Results of 1,408 Patients
    Bilgin Kadri Aribas et al, 2016, Iranian Journal of Radiology CrossRef
  7. Programmatic change leads to enhanced resource utilization and efficiency in port placement
    Vijay K. Venkatesan et al, 2018, Journal of Surgical Research CrossRef
  8. Ultrasonography-guided central venous port placement with subclavian vein access in pediatric oncology patients
    Keitaro Sofue et al, 2015, Journal of Pediatric Surgery CrossRef
  9. Performance of Venous Port Catheter Insertion by a General Surgeon: A Prospective Study
    Mehmet Aziret et al, 2015, International Surgery CrossRef
  10. Is there any correlation between venipuncture sites and complications of central venous port placement in the chest wall?
    Yuta Yamamoto et al, 2018, International Journal of Surgery Open CrossRef
  11. Transitioning from anatomic landmarks to ultrasound guided central venous catheterizations: guidelines applied to clinical practice
    Rodrigo Oom et al, 2017, The Journal of Vascular Access CrossRef
  12. The effect of chemotherapy type and timing among the other factors on patency of totally implantable vascular access devices in colorectal carcinoma
    Bilgin Kadri Aribas et al, 2023, The Journal of Vascular Access CrossRef
  13. Chest Radiograph–based Algorithm for Managing Malfunctioning Ports
    Gregory Nadolski et al, 2013, Journal of Vascular and Interventional Radiology CrossRef
  14. Internal jugular vein versus subclavian vein as the percutaneous insertion site for totally implantable venous access devices: a meta-analysis of comparative studies
    Shaoyong Wu et al, 2016, BMC Cancer CrossRef
  15. Venous Thrombosis Related to Central Venous Access Port Device Placement in Colorectal Cancer Patients Requiring Chemotherapy
    Hiroaki Uehara et al, 2020, Nippon Daicho Komonbyo Gakkai Zasshi CrossRef
  16. Ultraschallgestützte Punktion der V. jugularis interna
    M. de Bucourt, 2016, Ports CrossRef
  17. Implantation of Central Venous Access Ports via the Internal Jugular Vein under Real-time Ultrasound Guidance
    Takahiro OTANI et al, 2020, Nihon Rinsho Geka Gakkai Zasshi (Journal of Japan Surgical Association) CrossRef