Treatment of a totally occluded superior mesenteric artery facilitated by retrograde crossing via collaterals from the celiac artery.

PURPOSE: To present a new approach route for recanalization of a chronically occluded superior mesenteric artery (SMA). TECHNIQUE: Percutaneous treatment of an SMA occlusion can be accomplished in some cases via retrograde crossing through collaterals from the celiac artery. From a right common femoral artery (CFA) approach, an 8-F RDC guide catheter is advanced to the origin of the celiac artery via. Using a 5-F angled Glidecath, a long 0.035-inch stiff Glidewire, and a Choice PT wire, the glide catheter is advanced via the celiac artery into the superior pancreaticoduodenal artery. Using the angled Glidewire and the Choice PT wire, the occluded SMA is cannulated in a retrograde fashion. Through an 8-F sheath in the left CFA, an 8-F RDC guide catheter is advanced into the abdominal aorta. A goose neck snare is used to capture the Choice wire, which is withdrawn through the left catheter and sheath. The SMA occlusion is dilated, and the RDC guide is advanced into the SMA origin over the balloon. Another Choice PT wire and a 0.035-inch Wholey High Torque wire are placed in an antegrade fashion through the now open SMA. Angioplasty and stenting are then completed in the SMA over the Wholey wire. CONCLUSION: Retrograde recanalization of the SMA via celiac collaterals offers a new endovascular approach to treating patients with chronic mesenteric ischemia and a chronically occluded SMA.     

Brachial access technique for aortoiliac stenting revisited

We report a modified technique to perform iliac artery stenting through the brachial artery access. A 6F Brite tip sheath (Cordis, Jonhson & Jonhson Medical, Miami Lakes, FL, USA) is inserted into either brachial artery and a standard 4F Judkins Right diagnostic catheter was inserted over a 260 cm 0.038“ Terumo Stiff wire (Terumo Corp, Tokyo, Japan) through the sheath. The catheter is navigated down to the aortic bifurcation, and after selecting the common iliac artery ostium, the wire is navigated through the lesion and advanced to the ipsilateral superficial femoral arteries. The catheter should be then moved forward over the wires beyond the lesion and the Terumo guidewire is replaced by two 0.038“ 260 cm Supracor wires (Boston Scientific Corporation, San Jose, CA, USA). In order to facilitate advancement of the stent without risk of dislodgement as well as to check the position with low contrast dose injection, a 6 F (or 7F if large stent is selected) 90cm Shuttle Flexor introducer long sheath (Cook Group, Bloomington, IN, USA) should be advanced over the Supracor wire until it reaches the common iliac artery ostium. A road-map technique can be used to check the ostium position in order to properly deploy the selected stent. This technique promises to be safe and effective offering more support than guiding catheter technique; moreover it reduces the stress on the arterial vessel at the subclavian site and enables a stiff balloon or stent catheter to be advanced even through a very elongated and calcified aorta without the risk of stent dislodgement.     

Dual wire technique for aortic coarctation stent placement

A young adult presented for percutaneous treatment of a narrow aortic coarctation. A very large left subclavian artery originated immediately proximal to the coarctation. In order not to exclude or jail the left subclavian artery with a stent, a double wire technique was used. From a femoral approach, two guide wires were positioned, one in the aortic arch and another in the subclavian artery. A stent crimped over a 16‐mm balloon and a 4‐Fr catheter was advanced over the two wires within a 14‐Fr long introducer sheath. The stent was successfully deployed and molded within the bifurcation by a kissing balloon technique, relieving the obstruction and leaving a guaranteed passage to the subclavian artery. The double wire technique is an elegant way to deliver a stent safely across a narrowing with guaranteed access to important side branches. © 2011 Wiley‐Liss, Inc.     

Retrieval of a subintimal fractured guide wire from the brachial artery following saphenous vein graft stenting

We present a case of a 58‐year‐old woman with diabetes mellitus with a history of angina, coronary artery bypass 24 years previously and who underwent retrieval of a fractured coronary buddy wire from the right brachial artery following attempted coronary intervention to a saphenous vein graft via the right radial route. Attempted removal of the guide wire had caused guide catheter‐induced dissection of the vein graft in addition to a distal stent edge dissection before fracture in the brachial artery. The fractured end of the buddy wire was found to be in the subintimal space and could only be retrieved by advancing the wire into the subclavian artery by means of wrapping its free portion around the guiding catheter. Its fractured end could then be snared into the guiding catheter but could only be withdrawn from behind the stented segment in the vein graft by means of a trap balloon in the guiding catheter. Successful stenting of a guide catheter‐induced dissection and distal stent edge dissection within the vein graft was then performed. This case highlights the hazards of deploying stents over buddy wires and of fractured guide wires in coronary intervention. © 2015 Wiley Periodicals, Inc.     

Telescopic catheter‐in‐long sheath and parallel to a stiff guide wire technique for complex pulmonary artery anatomy

Selective catheterization and procedures in pulmonary arteries may be very challenging. We developed a technique in which an extra‐stiff guide wire was placed in a pulmonary artery. Across it a long sheath was placed proximally or controlateral to the lesion to be treated. An angiographic catheter was then placed parallel to the guide wire in a telescopic way within the long sheath. This system facilitated greater stability, allowing fine tuning of catheter position to reach and treat the target lesion. Here, we present five cases in whom this technique was used; a patient with multiple arteriovenous fistulas in a difficult to reach area and four subjects with complex pulmonary artery stenoses. © 2012 Wiley Periodicals, Inc.     

Percutaneous mitral valvotomy in rheumatic mitral stenosis: a new approach.

Three patients with rheumatic mitral stenosis were treated with percutaneous mitral valvotomy. A Brockenbrough catheter was advanced transseptally into the left atrium and then into the left ventricle over a long guide wire. An angle wire loop retriever was advanced through a 10 Fr straight catheter via the femoral artery into the left ventricle. The retriever was used to catch the flexible end of the long guide wire. This end of the long guide wire was then drawn out of the right femoral artery by the retriever through the straight catheter. The straight catheter was left in the descending aorta; the Brockenbrough catheter was removed and a 7 Fr balloon catheter was introduced percutaneously over the long guide wire through the femoral vein. This balloon catheter was used for interatrial septal dilatation and right femoral venous dilatation. In two patients this catheter was replaced over the long guide wire with a 9 Fr Schneider-Medintag Grüntzig catheter (3 X 12 mm diameter when inflated) and in the other by a Mansfield (18 mm diameter when inflated). The procedure was well tolerated in these three patients and there were no complications. Haemodynamic function improved, there was appreciable decrease in dyspnoea, and exercise tolerance was increased. This procedure has several advantages: the balloon is more easily positioned through the mitral valve; the stability of the balloon during inflation is improved by traction at both ends of the long guide wire; and there is the option of rapidly exchanging one balloon for a larger one over the long guide wire. This technique seems to be less arrhythmogenic and results in less blood loss because manual compression of the femoral vessels after the procedure is easier.     

Percutaneous mitral valvotomy in rheumatic mitral stenosis: a new approach

Three patients with rheumatic mitral stenosis were treated with percutaneous mitral valvotomy. A Brockenbrough catheter was advanced transseptally into the left atrium and then into the left ventricle over a long guide wire. An angle wire loop retriever was advanced through a 10 Fr straight catheter via the femoral artery into the left ventricle. The retriever was used to catch the flexible end of the long guide wire. This end of the long guide wire was then drawn out of the right femoral artery by the retriever through the straight catheter. The straight catheter was left in the descending aorta; the Brockenbrough catheter was removed and a 7 Fr balloon catheter was introduced percutaneously over the long guide wire through the femoral vein. This balloon catheter was used for interatrial septal dilatation and right femoral venous dilatation. In two patients this catheter was replaced over the long guide wire with a 9 Fr Schneider-Medintag Grüntzig catheter (3 X 12 mm diameter when inflated) and in the other by a Mansfield (18 mm diameter when inflated). The procedure was well tolerated in these three patients and there were no complications. Haemodynamic function improved, there was appreciable decrease in dyspnoea, and exercise tolerance was increased. This procedure has several advantages: the balloon is more easily positioned through the mitral valve; the stability of the balloon during inflation is improved by traction at both ends of the long guide wire; and there is the option of rapidly exchanging one balloon for a larger one over the long guide wire. This technique seems to be less arrhythmogenic and results in less blood loss because manual compression of the femoral vessels after the procedure is easier.     

Contralateral transradial approach for carotid artery stenting: A feasibility study

Background : Carotid artery stenting (CAS) has become an accepted modality of treatment for revascularization of the internal carotid artery (ICA). CAS from femoral approach has got wide acceptance, however, it can be problematic due to access site complication as well as technical difficulties related to peripheral vascular disease and/or anatomical variations of the aortic arch. Small feasibility studies of CAS through ipsilateral transradial approach have been described in the literature. The purpose of the present study is to evaluate the feasibility of contralateral transradial approach as an alternative approach for CAS. Methods : Twenty patients (mean age: 65 ± 5, 17 male) underwent CAS using contralateral transradial approach. All had a CA stenosis greater than 80%. The target common carotid artery (CCA) was initially cannulated via the contralateral radial artery using a 5F Simmons 1 diagnostic catheter or a 5F TIG diagnostic catheter, which was then advanced to the external CA (ECA) over an exchange length of 0.032″ Terumo Glidewire or a 0.025″ Glidewire. Once the catheter was parked in the optimal position in ECA, the wire was removed and was replaced by 0.035″ Amplatz Super stiff Guide wire. Following that, the Simmons 1 or the TIG catheter was removed and 6F Pinnacle Sheath was exchanged and positioned in the distal CCA. CAS was performed using standard techniques with weight‐based heparin for anticoagulation. Results : CAS was successful in 16/20 (80%) patients, including 12/12 (100%) right CA, 4/8 (50%) left CA. Mean interventional time was 40 ± 5 min. The sheath was removed immediately after the procedure. There were no radial access site complications. One patient sustained a transient ischemic attack and recovered completely with complete resolution of symptoms within 1 hr. Median Hospital stay was 3 ± 0.5 days. Angulation of left CCA with the aortic arch was the technical cause of failure in the four unsuccessful cases. Conclusion : CAS using the contralateral transradial approach appears to be safe and technically feasible. The technique may be particularly useful in patients with right ICA lesions because of the favorable right CCA angle with the aortic arch. © 2009 Wiley‐Liss, Inc.     

A variant deployment technique for the powerlink bifurcated endograft.

PURPOSE: To report an alternative technique to the dual-lumen catheter for deployment of the Powerlink stent-graft in patients with angulated sacs and calcified aortic bifurcations. A maneuver is also presented to retrieve the delivery system when it is snagged on the stent. TECHNIQUE: After cutdown of the right common femoral artery (CFA), a 9-F introducer sheath is placed percutaneously into the left CFA. A gooseneck catheter is introduced from the right CFA to capture a 0.035-inch hydrophilic guidewire inserted from the left. A 5-F straight catheter is passed over this guidewire from the left to the right CFA. In angulated aneurysm sacs, a 5-F Hunter catheter is introduced from the right femoral access to support a guidewire through the aneurysm to the suprarenal aorta. Then the guidewire is exchanged with a 0.035-inch Amplatz extra stiff wire, and the Hunter catheter is removed. In other cases, a 0.035-inch Amplatz extra stiff guidewire is placed up to the suprarenal aorta. The endograft delivery system is then deployed in the usual manner. A gooseneck snare is also useful in retrieving the delivery system when it is snagged on the stent at the endograft bifurcation. CONCLUSIONS: This variant technique facilitates the deployment of the Powerlink stent-graft when faced with angulated aneurysms or acute and calcified aortic bifurcations. A gooseneck catheter is helpful in retrieving the delivery system's "olive" after endograft placement.     

Carotid sheath rescue with a distal filter retrieval catheter

Sheath placement prior to carotid artery stenting is usually uncomplicated, and provides sufficient support for the procedure. In certain patients, especially those with unfavorable arch anatomy, tortuous vessels, and heavily calcified lesions, the sheath backs out into the aortic arch with compromise of wire and embolic protection device (EPD) position, and risk of “dragging” the EPD back through the lesion. A novel use of the distal filter retrieval catheter to “rescue” a prolapsed guide sheath is described. Use of the filter retrieval catheter as a “body” to retrack the sheath but not recapturing the deployed filter is a useful technique, since the equipment is already available. This avoided the need to pull a retrieved filter through a severe undilated carotid stenosis, reducing the amount of manipulations needed to reposition the sheath and thus reducing the risk of embolic events. © 2008 Wiley‐Liss, Inc.     

Extreme coronary guide catheter support: a case of a novel telescopic guide catheter system with a contralateral aortic wall support

Extra support of the guide catheter is necessary in some cases of percutaneous coronary intervention (PCI). We describe a successful case of PCI of a very calcified and tortuous right coronary artery in which a modification of a novel telescopic guide system was applied. A long sheath that armored the guide catheter allowed extreme support derived from the contralateral aortic wall. The operator can adjust the support of the guide system from soft to extremely stiff.     

Loss of the guide wire: a case report.

A case of a lost guide wire extending from the vena cava to the back of the neck after central venous catheterization is presented. A trainee inserted a central venous catheter via the left subclavian vein in a 40-year-old male patient after surgery, but did not notice that a guide wire was completely inserted in the vein. After 6 months, the lost guide wire was seen extending from the saphenous vein through the vena cava, right atrium, right ventricle, pulmonary artery and lung tissue to the back of neck. Although percutaneous catheterization of central veins is a routine technique, it is a procedure requiring advanced surgical skills, expert supervision, and attention to detail in order to prevent adverse effects. The present case is not only a technological problem, but also one of responsibility. The operator must hold onto the guide wire at all times until removal from the vessel, and a supervisor must make sure that trainees are aware of all possible complications.     

静脉畸形、迂曲、狭窄时永久起搏导线置入的方法探讨

经静脉造影或观察导丝走形证实 6例患者存在静脉畸形、迂曲、狭窄 ,其中 5例高龄患者置入永久起搏器时 ,其上腔静脉系统迂曲、狭窄 ,无法使用起搏器穿刺套装内的导丝及鞘管将导线送到起搏部位 ,另 1例为永存左上腔静脉合并有右上腔静脉缺如。试用 175cm 0 .0 35长导丝以及 6 8FINPUT鞘替代普通起搏器穿刺套装。结果 :使用175cm 0 .0 35长导丝以及 6 8FINPUT鞘顺利地将起搏导线送入右心房中下部 ,安全地完成置入手术 ,无并发症。结论 :一旦送入导线或导丝困难 ,应积极地进行血管造影 ,不应盲目的推送 ,使用 175cm长导丝增加支撑力 ,结合IN PUT鞘管通过狭窄或纡曲延长的血管段 ,给起搏导线提供一个光滑的通道 ,可顺利的将起搏导线送入心房及心室。     

Unusual vertebral artery origins: examples and related pathology.

Anomalies of the vertebral arteries are uncommon, but important to recognize in the diagnosis and catheter based evaluation and treatment of patients suffering cerebrovascular disease. This article illustrates our experience with such anomalies. These include the vertebral artery arising as the fourth and most distal branch of the aortic arch, as a right subclavian artery branch arising distal to the right thyrocervical trunk, as a right common carotid artery branch in a patient with an aberrant right subclavian artery, and a case of left vertebral artery proximal duplication, with both aortic and left subclavian vertebral arteries present in the same patient; the latter join to form a single distal cervical vertebral artery.     

Anterograde percutaneous transseptal valvuloplasty in a case of severe calcific aortic stenosis

The retrograde catheterization and percutaneous dilatation ofcalcific stenotic aortic valves is not always possible in elderlypatients. We report the case of a 76-year old woman admittedwith severe aortic stenosis in whom it was impossible to reachthe left ventricle retrogradely. This led us to attempt percutaneousaortic valvuloplasty using a transseptal anterograde approach.The Mullins transseptal sheath catheter was advanced into theleft ventricle and a 7 F catheter containing a long guide wire(400 cm) passed through the sheath. The flexible end of theguide wire was advanced through the aortic valve anterogradelyand an angled wireloop retriever used to catch the flexibleend of the guide wire and to draw it out of the body throughthe left femoral artery. A 7 F balloon catheter was introducedpercutaneously over the long guide wire and allowed dilatationof the interatrial septum and femoral vein. A 8 F Schneider-Grüntzigcatheter (80 mm) length, 19mm diameter when inflated) was insertedanterogradely through the aortic valve over the guide wire withoutdifficulty and the balloon catheter was inflated to a pressureof 6 atmospheres with a 30 seconds inflationdeflation cycle.Before the procedure the mean aortic valvular gradient was 114mmHg and the aortic valve area was 0.30 cm². After the procedurethe mean aortic gradient had fallen to 60 mmHg and the valvearea had risen to 0.90 cm². These results are comparable tothose expected using the more usual retrograde balloon dilatationof the aortic valve.     

Angiography of the internal mammary artery via the contralateral brachial artery

A new technique for angiography of the contralateral internal mammary artery via the brachial artery approach is described. A Simmons (sidewinder) catheter is maneuvered into the ascending aorta and is rotated as to assume its performed shape. The catheter is advanced into the contralateral subclavian artery beyond the internal mammary artery. With the aid of an exchange wire, the Simmons catheter is replaced with a preformed internal mammary angiographic catheter. The internal mammary artery is cannulated, and angiography is performed. Fifty patients were successfully studied by means of this technique without incident. In 20 cases, the ipsilateral internal mammary artery was subsequently visualized. Brachial angiographers may prefer to add this technique to their repertoire.     

Percutaneous arterial closure for inadvertent cannulation of the subclavian artery--a call for caution

An uncommon occurrence during central venous catheterization, inadvertent arterial sheath placement can cause potentially serious complications. When the subclavian artery is inadvertently cannulated, catheter removal may be complicated by significant hemorrhage due to its noncompressible location. We report a case of inadvertent insertion of a 7 Fr central venous catheter into the subclavian artery of a patient with severe kyphoscoliosis, Duchenne muscular dystrophy and cardiomyopathy. The catheter was successfully removed, however the initial attempt at closure device deployment resulted in abrupt closure of the subclavian artery. Prompt angiography and balloon inflation via an already present sheath in the brachiocephalic artery resulted in restoration of flow and successful closure at the puncture site with the collagen-based vascular closure device was confirmed. This averted an otherwise urgent surgical sheath removal and arteriotomy repair in an extremely high-risk patient who was deemed a poor candidate for open surgical repair.     

Transradial approach for carotid artery stenting: a feasibility study.

BACKGROUND: Carotid artery stenting (CAS) has become accepted as an alternative to carotid endarterectomy for revascularization of the internal carotid artery (ICA) among high risk patients. CAS from the femoral approach can be problematic due to access site complications as well as technical difficulties related to peripheral vascular disease (PVD) and/or anatomical variations of the aortic arch. The purpose of the present study is to evaluate the feasibility of the radial artery as an alternative approach for CAS. METHODS: Forty-two patients (mean age 71 +/- 1, 26 male) underwent CAS. All had a CA stenosis greater than 80% and comorbid conditions increasing the risk of carotid endarterectomy. The target common carotid artery (CCA) was initially cannulated via the radial artery using a 5F Simmons 1 diagnostic catheter which was then advanced to the external CA (ECA) over an extra support 0.014" coronary guidewire. After removing the coronary guidewire, a 0.035" guidewire was advanced into the ECA, and the Simmons 1 was exchanged for a 5F or 6F shuttle sheath and positioned in the distal CCA. In four patients with a bovine aortic arch, the left CCA was accessed with a 5F Amplatz R2 catheter which was then exchanged for a shuttle sheath over a 0.035" guidewire. CAS was performed using standard techniques with weight-based bivalirudin for anticoagulation. RESULTS: CAS was successful in 35/42 (83%) patients, including 28/29 (97%) right CA, 4/5 (80%) bovine left CA, 7/13 (54%) left CA. Mean interventional time was 30 +/- 3 minutes. The sheath was removed immediately after the procedure. There were no radial access site complications. One patient sustained a stroke 24 hrs after the procedure with complete resolution of symptoms (Mean NIH stroke scale 2.0 +/- 0.3 before, 1.9 +/- 0.3 after). Median hospital stay was 2 +/- 0.6 days. Inadequate catheter support at the origin of the CCA was the technical cause of failure in the seven unsuccessful cases. CONCLUSION: CAS using the transradial approach appears to be safe and technically feasible. The technique may be particularly useful in patients with right ICA lesions and severe PVD or unfavorable arch anatomy, and among patients with a bovine aortic arch.     

经头静脉放置起搏电极导线手术方式的改进及临床意义

目的探索经胸横切口暴露头静脉及使用导引钢丝、静脉鞘管引导放置起搏电极导线的成功率及临床意义.方法 220例具备起搏治疗指征的病人,在右上外侧胸部做横切口分离头静脉,当经该静脉直接送入起搏电极导线有困难时,在导引钢丝及静脉鞘管的引导下送入电极导线.如果经以上方法均不能顺利放置电极导线,则经切口内穿刺锁骨下静脉送入电极导线.起搏器埋藏在头静脉切口内侧的皮下囊袋内.结果横切口同样能良好地暴露头静脉.此外,当需要经锁骨下静脉穿刺时,直接经该切口内穿刺不但方便,而且减少创伤.直接经头静脉放置单腔及双腔起搏器电极导线的成功率分别为71%及58%,加用导引钢丝及静脉鞘管后成功率分别提高到94%及88%(P值均<0.01).结论经胸做横切口分离头静脉结合使用导引钢丝及静脉鞘管技术可显著性提高经头静脉放置起搏电极的成功率,减少锁骨下静脉穿刺及相应的并发症,并方便起搏器的放置.     

A novel minimal-invasive model of chronic myocardial infarction in swine

BACKGROUND: Most animal studies on myocardial infarction (MI) have used open-chest models with direct surgical coronary artery ligation, which imply local as well as generalized side effects of major surgery. Some closed-chest models of MI have been established, mainly using catheterization techniques with coronary artery embolization, balloon occlusion, and intracoronary injection of thrombogenic agents. The aim of this study was to develop a closed-chest technique of chronic coronary artery occlusion at a selected location with subsequent thrombus formation without use of balloon inflation or thrombotic chemical agents. METHODS AND RESULTS: A coronary angiography via the carotid artery was performed using a 7 F guiding catheter in 21 pigs. After insertion of a percutaneous transluminal coronary angioplasty (PTCA) guide wire into the distal coronary artery, a vessel-size adapted flexible foreign body comprising an open-cell sponge was advanced into the coronary artery via the guide wire by a non-inflated PTCA balloon. Five min after removal of the guide wire and the balloon catheter, total coronary artery occlusion was documented by angiography. Retrograde thrombosis of the coronary artery occurred in three animals. After one week, total vessel occlusion at the previously selected location was visualized by coronary angiography in animals that had survived. Macroscopic analysis demonstrated the foreign body with subsequent thrombus formation in the coronary artery and distal MI. Post-mortem histological analysis revealed myocardial necrosis and granulocyte infiltration at the margin of the infarction, without damage to remote myocardium. CONCLUSIONS: This new easy-to-perform closed-chest technique provides reproducible chronic coronary artery occlusion at a selected location with subsequent MI. It avoids major surgery and thoracotomy and does not require balloon inflation or intracoronary injection of thrombotic or chemical agents.