Passport® Steerable Sheath | Cannulate Contralateral Access

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Introducing PowerWire^® Pro RF Guidewire

Navigate the vascular system with control and precision

Intended for the introduction of diagnostic and therapeutic devices into the human vasculature, including but not limited to intracardiac, renal or other peripheral placements.

The ultimate tool in gaining access to hard-to-reach target vessels

Our deflectable steerable sheath provides the control needed to steer precisely toward the target vessel across a range of anatomies.

Clinical Applications

Aneurysm Repair

Fenestrated-Branched Endovascular Aortic Repair (FB-EVAR)^1,2
Branched Endovascular Aneurysm Repair (BEVAR)^3,4
Thoracic Endovascular Aortic Repair (TEVAR)⁵
Thoracoabdominal Aortic aneurysm (TAAA) Repair⁶
Endoleak Repair⁷

Intracardiac Procedures

Transcatheter Valve-in-Valve Mitral Valve Replacement (TMVR)^8,9
Pulmonary Vein Recanalization¹⁰
Left Atrial Appendage Occluder (LAAO) Retrieval¹¹

Visceral Work

Cannulation of Target Visceral Vessels (TVVs) including Renal Arteries, Superior Mesenteric Artery and Celiac Artery^2,12
Revascularization¹³
Stenting¹⁴
Percutaneous Transluminal Angioplasty (PTA)¹⁵
Percutaneous Thrombectomy^15,16
Renal Denervation^17,18

Product Feature Highlights

Consult IFU

Ordering Information

A diverse portfolio for your patients’ unique needs

Model # Set (One per box)	Sheath Inner Diameter	Usable Sheath Length	Usable Dilator Length	Curve Bend
PSS0654509	6.5F	45 cm	63 cm	9 mm
PSS0655507D2*	6.5F	55 cm	73 cm	7 mm
PSS0655509	6.5F	55 cm	73 cm	9 mm
PSS0655517	6.5F	55 cm	73 cm	17 mm
PSS0656509	6.5F	65 cm	83 cm	9 mm
PSS0659009	6.5F	90 cm	108 cm	9 mm
PSS0704509	7F	45 cm	63 cm	9 mm
PSS0705509	7F	55 cm	73 cm	9 mm
PSS0705509TD^†	7F	55 cm	73 cm	9 mm
PSS0705517	7F	55 cm	73 cm	17 mm
PSS0706509	7F	65 cm	83 cm	9 mm
PSS0709009	7F	90 cm	108 cm	9 mm
PSS0855517	8.5F	55 cm	73 cm	17 mm
PSS1209030	12F	90 cm	108 cm	30 mm
PSS1387139	13.8F	71 cm	89 cm	39 mm

Set Contains

(1) Passport® steerable guiding sheath
(1) Passport® straight dilator

*Contains second soft dilator with 80 cm usable length

^†TD model contains a pre-formed shaft; all other models contain a straight shaft

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Shaft Configurations

Straight shaft

Pre-formed shaft (TD)

Looking for more sizes and diameters?

View the complete steerable sheath portfolio

Resource Library

Browse content specific to this product, such as brochures, publications, white papers, IFUs, videos and other product information.

Browse Resources

Steerable Sheath Ordering Guide

Passport® steerable sheath ordering guide

Passport® Steerable Sheath

The PassportTM Steerable Sheath is a steerable guiding sheath that features an adjustable tip through use of a rotating collar that allows the physician to deflect the distal tip section of the sheath. The sheath has a hemostatic valve, sideport with stopcock, radiopaque distal tip, contains side flush portholes (available in some models), and the tip is deflected by rotating the collar incorporated into the handle. The dilator has depth markings (on some models) and snap or screw locks onto the sheath (depending on the model). The dilator has a tapered distal tip and an inner lumen.

Destino Twist Brochure

References:

Tam, J. S. C., & Cheng, S. W. K. (2023). A review on the use of steerable sheaths in complex endovascular aortic repair. Surgical Practice, 27(2), 73–78. https://doi.org/10.1111/1744-1633.12628
Kapahnke, S., Bürger, M., Torsello, G. F., Omran, S., Hinterseher, I., Greiner, A., & Frese, J. P. (2022). Cannulation of Visceral Vessels Using a Steerable Sheath in Fenestrated and Branched Aortic Endografts. Annals of vascular surgery, 85, 305–313. https://doi.org/10.1016/j.avsg.2022.02.022
Mario, D., Alessandro, G., Giovanni, P., Gianbattista, P., Rocco, G., Mauro, G., Nicola, M., Roberto, C., Sandro, L., Luca, B., & TORCH2 Collaborative Study Group (2025). Total Transfemoral Branched Endovascular Thoracoabdominal Aortic Repair (TORCH2): Short-term and 1-Year Outcomes From a National Multicenter Registry. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 32(2), 513–523. https://doi.org/10.1177/15266028231179864
Makaloski, V., Tsilimparis, N., Rohlffs, F., Spanos, K., Debus, E. S., & Kölbel, T. (2018). Use of a Steerable Sheath for Retrograde Access to Antegrade Branches in Branched Stent-Graft Repair of Complex Aortic Aneurysms. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 25(5), 566–570. https://doi.org/10.1177/1526602818794965
Baghbani-Oskouei, A., Tenorio, E. R., Dias-Neto, M., Vacirca, A., Mirza, A. K., Saqib, N., Mendes, B. C., Ocasio, L., Macedo, T. A., & Oderich, G. S. (2024). Technical Pitfalls for Fenestrated-Branched Endovascular Aortic Repair Following PETTICOAT. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 31(5), 790–796. https://doi.org/10.1177/15266028231163439

References:

Tam, J. S. C., & Cheng, S. W. K. (2023). A review on the use of steerable sheaths in complex endovascular aortic repair. Surgical Practice, 27(2), 73–78. https://doi.org/10.1111/1744-1633.12628
Kapahnke, S., Bürger, M., Torsello, G. F., Omran, S., Hinterseher, I., Greiner, A., & Frese, J. P. (2022). Cannulation of Visceral Vessels Using a Steerable Sheath in Fenestrated and Branched Aortic Endografts. Annals of vascular surgery, 85, 305–313. https://doi.org/10.1016/j.avsg.2022.02.022
Mario, D., Alessandro, G., Giovanni, P., Gianbattista, P., Rocco, G., Mauro, G., Nicola, M., Roberto, C., Sandro, L., Luca, B., & TORCH2 Collaborative Study Group (2025). Total Transfemoral Branched Endovascular Thoracoabdominal Aortic Repair (TORCH2): Short-term and 1-Year Outcomes From a National Multicenter Registry. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 32(2), 513–523. https://doi.org/10.1177/15266028231179864
Makaloski, V., Tsilimparis, N., Rohlffs, F., Spanos, K., Debus, E. S., & Kölbel, T. (2018). Use of a Steerable Sheath for Retrograde Access to Antegrade Branches in Branched Stent-Graft Repair of Complex Aortic Aneurysms. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 25(5), 566–570. https://doi.org/10.1177/1526602818794965
Baghbani-Oskouei, A., Tenorio, E. R., Dias-Neto, M., Vacirca, A., Mirza, A. K., Saqib, N., Mendes, B. C., Ocasio, L., Macedo, T. A., & Oderich, G. S. (2024). Technical Pitfalls for Fenestrated-Branched Endovascular Aortic Repair Following PETTICOAT. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 31(5), 790–796. https://doi.org/10.1177/15266028231163439
Töpel, I., Betz, T., Steinbauer, M. & Uhl, C. (2020). Improved stability of steerable sheath access by femoro-femoral crossover wire in branched stent graft repair of complex thoraco-abdominal aortic aneurysms. Innovative Surgical Sciences, 5(1-2), 63-65. https://doi.org/10.1515/iss-2020-0006
Huistra, E. W. M., Tielliu, I. F. J., Kater, G. M., Bloemsma, G. C., & Zeebregts, C. J. (2025). Relining of a Bridging Covered Stent to Treat a Rare Cause of Type IIIc Endoleak Following Fenestrated Endovascular Aneurysm Repair. Journal of endovascular therapy : an official journal of the International Society of Endovascular Specialists, 32(2), 357–362. https://doi.org/10.1177/15266028231179426
Bhardwaj, B., Lantz, G., Golwala, H., Chadderdon, S., Song, H. K., & Zahr, F. (2022). Transcatheter Valve-in-Valve Mitral Valve Replacement Using 4D Intracardiac Echocardiogram and Conscious Sedation. Structural heart : the journal of the Heart Team, 6(3), 100046. https://doi.org/10.1016/j.shj.2022.100046
Wong, N., Fowler, D., & Lim, D. S. (2024). Mitral valve-in-valve with 4D intracardiac echocardiography: Procedural and imaging technique. Catheterization and cardiovascular interventions : official journal of the Society for Cardiac Angiography & Interventions, 103(1), 234–237. https://doi.org/10.1002/ccd.30897
Almasarweh, S. I., Kuo, J. A., Bauser-Heaton, H. D., Babaliaros, V. C., & Kim, D. W. (2022). Retrograde Pulmonary Vein Recanalization Using Transcatheter Electrosurgery. JACC. Case reports, 4(10), 592–595. https://doi.org/10.1016/j.jaccas.2022.03.026
Nienaber, S., Ballmann, F., Curio, J., Eghbalzadeh, K., Sinning, J. M., & Adam, M. (2024). Percutaneous Retrieval of Embolised Left Atrial Appendage Occluder With the Novel ŌNŌ Retrieval Basket. The Canadian journal of cardiology, 40(12), 2414–2416. https://doi.org/10.1016/j.cjca.2024.08.276
Gallitto, E., Faggioli, G., Bertoglio, L., Pratesi, G., Isernia, G., Goretti, M., Ippoliti, A., Lenti, M., Chiesa, R., & Gargiulo, M. (2020). Steerable Sheath for Cannulation and Bridging Stenting of Challenging Target Visceral Vessels in Fenestrated and Branched Endografting. Annals of vascular surgery, 67, 26–34. https://doi.org/10.1016/j.avsg.2019.11.039
Gu, N., Grab, J. G., & Moore, R. D. (2021). Rapid endovascular bailout revascularization of the renal arteries with a steerable guiding sheath after endovascular abdominal aortic aneurysm repair. Journal of vascular surgery cases and innovative techniques, 7(3), 572–576. https://doi.org/10.1016/j.jvscit.2021.04.015
Kedwai, B. J., Byrne, M., Geiger, J. T., Lehane, D. J., Mix, D. S., & Stoner, M. C. (2024). Stenting of a hepatic artery pseudoaneurysm rupture secondary to a celiac artery dissection. Journal of vascular surgery cases and innovative techniques, 10(3), 101471. https://doi.org/10.1016/j.jvscit.2024.101471
Emsley, R., Haller, C., & Arts, L. (2022). Catheter-directed thrombectomy with the JETi8 in the treatment of acute superior vena cava syndrome. Journal of vascular surgery cases and innovative techniques, 8(3), 545–548. https://doi.org/10.1016/j.jvscit.2022.07.009
Arts, L., Cottier, A.-C., Emsley, R., & Haller, C. (2023). Percutaneous thrombectomy with the JETi6 device for the treatment of acute renal artery thrombosis with renal failure. Annals of Vascular Surgery – Brief Reports and Innovations, 3(3), 100211. https://doi.org/10.1016/j.avsurg.2023.100211
Hering, D., Nikoleishvili, D., Imedadze, A., Dughashvili, G., Klimiashvili, Z., Bekaia, E., Shengelia, T., Kobalava, M., Goguadze, O., Emukhvari, T., Druker, V., Sackner-Bernstein, J., & Weber, M. A. (2022). Transurethral Renal Pelvic Denervation: A Feasibility Trial in Patients with Uncontrolled Hypertension. Hypertension (Dallas, Tex. : 1979), 79(12), 2787–2795. https://doi.org/10.1161/HYPERTENSIONAHA.122.20048
Weber, M. A., Hering, D., Nikoleishvili, D., Imedadze, A., Dughashvili, G., Klimiashvili, Z., Bekaia, E., Shengelia, T., Kabalava, M., Goguadze, O., Emukhvari, T., Druker, V., Buelna, T., Heuser, R., Hashemian, S., & Provanzano, R. (2024). Durability of the Blood Pressure Effects of Renal Pelvic Denervation in Patients with Hypertension during a 12-Month Observation. American journal of nephrology, 55(3), 319–328. https://doi.org/10.1159/000533569