Retrograde Distal Pedal Artery Access A Primer to Percutaneous Endovascular intervention Retrograde Distal Pedal Artery Access Nelson Lim Bernardo, MD Director, Peripheral Vascular Laboratory Medstar Heart Institute at Washington Hospital Center Washington, D.C.

Terumo Cardiovascular Systems Group Nelson L. Bernardo, MD Honoraria: Abbott Vascular Cook Group Incorporated Cordis Corporation Covidien Medtronic, Inc. Terumo Cardiovascular Systems Group

Faculty Disclosure Abbott Vascular – Training Site Cook Medical – Training Site Cordis Endovascular – Training Site Covidien/eV3 – Training Site Medtronic – Training Site No conflict of interest related to this presentation Non-IFU use of devices will be discussed

PEI of Infra-inguinal Occlusions: Approximately 15-20% of patients with complex infra-inguinal arterial occlusive disease cannot be ‘crossed’ with an antegrade approach using vascular access from the common femoral artery Retrograde pedal artery access is an alternative to allow successful ‘crossing’ of the lesion and eventual recanalization

Retrograde Pedal Artery Access: Retrograde pedal access in percutaneous endovascular intervention: Failure of antegrade access – dissection/subintimal course of guidewire Unfavorable anatomy – ‘flushed’ occlusion Treatment of femoro-popliteal artery disease not amenable to ‘usual’ antegrade approach

Retrograde Pedal Artery Access: Retrograde pedal access in percutaneous endovascular intervention: Failure of antegrade access – dissection/subintimal course of guidewire Unfavorable anatomy – ‘flushed’ occlusion Treatment of femoro-popliteal artery disease not amenable to ‘usual’ antegrade approach

Retrograde Pedal Artery Access: Retrograde pedal access in percutaneous endovascular intervention: Failure of antegrade access – dissection/subintimal course of guidewire Unfavorable anatomy – ‘flushed’ occlusion Treatment of femoro-popliteal artery disease not amenable to ‘usual’ antegrade approach Popliteal A. ?? AT artery PT Peroneal

Retrograde Pedal Artery Access: Retrograde pedal access in percutaneous endovascular intervention: Failure of antegrade access – dissection/subintimal course of guidewire Unfavorable anatomy – ‘flushed’ occlusion Treatment of femoro-popliteal artery disease not amenable to ‘usual’ antegrade approach

Retrograde BTK - Pedal Artery Access: Anterior tibial artery Dorsalis pedis artery (distal anterior tibial A) Proximal anterior tibial artery Posterior tibial artery Distal (proximal segment of plantar vessels) Mid segment of the vessel Distal peroneal artery (+/- through interosseous ligament)

Vasculature of the L.E.: Arterial System Arterial System Venous System

Retrograde BTK - Pedal Artery Access: Techniques - ‘Imaging’ guidance for Pedal Artery Access: Surgical - ‘Open’ cutdown X-ray Fluoroscopy - Angiography, Roadmapping Duplex Ultrasound guidance

Retrograde Pedal Access: Surgical ‘Open’ surgical cutdown Cutdown - direct visualization of the artery Direct puncture of the artery, i.e. dorsalis pedis artery Cons: Surgical incision site to manage ??hemostasis Right Foot

Retrograde Pedal Access: Fluoro guidance X-ray Fluoroscopy guidance Angiography +/- ‘road-map’ Vessel wall calcification Peroneal DP Cons: The artery is entered ‘blindly’ Radiation, + Contrast agent Needle

Retrograde Pedal Access: Ultrasound guidance Real time ultrasound (US)-guided vascular access Allows real time visualization of vessel anatomy and the advancement of needle into the lumen of the vessel

Retrograde Pedal Access: Ultrasound guidance Real time ultrasound (US)-guided vascular access Allows real time visualization of vessel anatomy and the advancement of needle into the lumen of the vessel Major Advantage over the Fluoroscopy-guided technique The vessel is NOT entered BLINDLY

Retrograde Pedal Access: Ultrasound guidance In the lower extremity, each artery is accompanied by corresponding two (2) veins These structures (artery + 2 veins) are easily dileneated by vascular duplex imaging study Ultrasound - shows the structure of the vessel Doppler - shows the movement of red blood cells (flow through the structure) Allows real time visualization of vessel anatomy and flow during vascular access

Retrograde Pedal Access: Ultrasound guidance BTK - Pedal Artery Access: Front wall stick Access with the first puncture to prevent spasm to avoid vascular injury Avoid cannulating the vein Imaging views for needle ‘entry’: Transverse Longitudinal

Retrograde Pedal Access: Ultrasound guidance BTK - Pedal Artery Access: Front wall stick Access with the first puncture to prevent spasm to avoid vascular injury Avoid cannulating the vein Imaging views for needle ‘entry’: Transverse Longitudinal

US-guided Pedal Access: Equipment Vascular probe + US machine

US-guided Pedal Access: Equipment Vascular probe + US machine Linear Array 2.5 - 8.0 MHz “Hockey Stick” ~18 MHz

US-guided Pedal Access: Equipment Vascular probe + US machine 4F micropuncture kit + Tuohy-Borst/Copilot control valve

Retrograde Pedal Access: Access Needle Cook 4F micropuncture kit + Tuohy-Borst/Copilot control valve An echogenic tip needle is not essential can also ‘score’ needle tip 21G Echogenic Tip Needle 21G Micropuncture Needle

Retrograde Pedal Access: Step-by-Step Have a dedicated RVT hold the probe and guide you (2-person operation): Size of the vessel ‘Short’ landing zone Ultrasound-guided access of Right Dorsalis Pedis artery

Retrograde Pedal Access: Dorsalis Pedis Imaging – Longitudinal Axis Peroneal DP Ultrasound-guided access of Right Dorsalis Pedis artery

Retrograde Pedal Access: US guidance Imaging – Longitudinal Axis Peroneal DP Ultrasound-guided access of Right Dorsalis Pedis artery Doppler – Arterial flow

Retrograde Pedal Access: US guidance Confirm arterial doppler-flow signal to avoid cannulating the accompanying vein Imaging – Longitudinal Axis Peroneal DP Ultrasound-guided access of Right Dorsalis Pedis artery Doppler – Arterial flow

US-guidance: Delineating the artery/vein Things to look for on duplex ultrasound: Vessel wall - calcification of the arterial wall (if present) Doppler flow (including color flow doppler) Arterial flow vs Venous flow signal Manuever to alter ‘flow state’ Venous augmentation

Augmentation of Venous color flow doppler signal US-guidance: Delineating the artery/vein Augmentation of Venous color flow doppler signal

Retrograde Pedal Access: Dorsalis Pedis Advancement of micropuncture needle into right DPA Needle entering right Dorsalis Pedis Artery

Retrograde Pedal Access: Dorsalis Pedis Successful vascular access of right Dorsalis Pedis Artery

Retrograde Pedal Access of Dorsalis Pedis A. Peroneal DP Right DPA

Retrograde Pedal Access: Foot Positioning ‘Frog-leg’ position + Dorsiflexion Plantar Flexion PT artery Dorsalis pedis, distal AT artery ‘Frog-leg’ position PT artery, Peroneal artery

Retrograde Pedal Access: Posterior Tibial A. Artery Vein

Retrograde PT Artery Access: Technique Confirmed arterial doppler-flow signal

Retrograde PT Artery Access: Technique Application of local anesthesia Confirmed arterial doppler-flow signal Insertion of micropuncture needle

Look for “Tenting” of the vessel wall Retrograde PT Artery Access: Technique Look for “Tenting” of the vessel wall Needle approaching Posterior Tibial Artery

Retrograde PT Artery Access: Technique Needle entering Posterior Tibial Artery Blood return - micropuncture needle

Retrograde PT Artery Access: Technique Needle entering Posterior Tibial Artery Advancement of guidewire into vessel lumen

Retrograde Pedal Artery Access: Access with the first puncture to prevent spasm to avoid vascular injury Adequate anti-coagulation (i.e. Heparin) “Anti-spasm” cocktail Nitroglycerin Ca++ channel blocker – Verapamil, Nicardipine

Retrograde DP Access: Sheath Mgt 21G Micropuncture needle in right DP artery 4F Micropuncture sheath + Tuohy-Borst/Co-pilot in right DP artery

Retrograde Pedal Access: Access Site Mgt Management of Access Site-Sheath Options: ‘Bare-back’ over guidewire with balloon catheter or support catheter Vessel wall trauma with repeated entry

Retrograde Pedal Access: Access Site Mgt Management of Access Site-Sheath Options: ‘Bare-back’ over guidewire with balloon catheter or support catheter Vessel wall trauma with repeated entry Use of the Micropuncture introducer sheath No need to exchange out; attach Tuohy- Borst/Copilot control valve Inner diameter = 2.9F (can accommodate the entire length of Cook CXI 0.018” support catheter)

Retrograde Pedal Access: Access Site Mgt Management of Access Site-Sheath Options: ‘Bare-back’ over guidewire with balloon catheter or support catheter Vessel wall trauma with repeated entry Use of the Micropuncture introducer sheath No need to exchange out; attach Tuohy- Borst/Copilot control valve Inner diameter = 2.9F (can accommodate the entire length of Cook CXI 0.018” support catheter)

Retrograde Pedal Access: Access Site Mgt Management of Access Site-Sheath Options: ‘Bare-back’ over guidewire with balloon catheter or support catheter Vessel wall trauma with repeated entry Use of the Micropuncture introducer sheath No need to exchange out; attach Tuohy- Borst/Copilot control valve Inner diameter = 2.9F (can accommodate the entire length of Cook CXI 0.018” support catheter) ‘Dedicated’ 3F pedal access sheath

Retrograde Pedal Artery Access: Hemostasis Manual compression (external) ??compromise distal outflow

Retrograde Pedal Artery Access: Hemostasis Manual compression (external) ??compromise distal outflow Mechanical compression (external) Use of blood pressure cuff Use of TR-band TR-band – Over left distal PT artery access site

Balloon inflation x 5 minutes Retrograde Pedal Access: Hemostasis Balloon occlusion (internal) 2.0-mm diameter Balloon catheter Balloon inflation x 5 minutes

Balloon inflation x 5 minutes Retrograde Pedal Access: Hemostasis Balloon occlusion (internal) 2.0-mm diameter Balloon catheter Balloon inflation x 5 minutes

KL: Successful CLI revascularization Good hemostasis Post: 2-vessel run-off

Retrograde Pedal Access Retrograde pedal access is a valuable technique to have in an interventionalist’s armamentarium needed for the percutaneous treatment of lower extremity arterial occlusive disease/critical limb ischemia. Real time ultrasound-guided pedal access requires training and experience to ensure good outcome & avoid complication(s).

A Primer to Percutaneous Endovascular intervention Thank You