Needle-free, Novel Fossa Ovalis Puncture with Percutaneous Transluminal Coronary Angioplasty Guidewire and Microcatheter in Pigs and a Human with an Extremely Tortuous Inferior Vena Cava.

Background: Transseptal puncture (TSP) performed with the Brockenbrough (BRK) needle is technically demanding and carries potential risks. The back end of the percutaneous transluminal coronary angioplasty (PTCA) guidewire is blunt and flexible, with good support, it can puncture the right ventricle-free wall, which is thicker than the atrial-septum. The guidewire is thin and easy to manipulate. This study evaluated the performance of TSP with a PTCA guidewire and microcatheter without a needle. Methods: The back end of a PTCA guidewire was advanced into the Tiger (TIG) catheter, within the SL1 sheath, to puncture the fossa ovalis (FO) under fluoroscopy. Subsequently, the microcatheter was inserted into the left atrium (LA) above the guidewire, and the front end of the guidewire was exchanged in the LA. After the puncture site was confirmed by contrast, the TIG catheter and a 0.032 inch wire were advanced into the LA. Finally, the sheath, with the dilator, was advanced over the wire into the LA. The safety margin of this method was tested in a pig model. Results: The puncture was successful in all seven pigs tested with a puncture-to-sheath entry time of < 20 minutes and no procedure-related complications. The method was successfully used to perform a difficult TSP in a patient with an extremely tortuous inferior vena cava, in whom puncture with a BRK needle had repeatedly failed. Conclusions: Cardiologists may use the PTCA guidewire and microcatheter as an alternative to the needle while performing TSP in special conditions, such as an extremely tortuous inferior vena cava.

Technical aspects of entrapped coronary guidewire retrieval using rotational atherectomy device: A case series.

BACKGROUND: This article highlights four unique cases where rotational atherectomy (RA Rotapro, Boston Scientific) was used to cut and retrieve an entrapped coronary guidewire with parts extending into the aorta We discuss the technique and step by step approach to the retrieval procedure. CASE SUMMARY: Three of four cases described a guide wire entrapment in the right coronary artery (RCA), and one in the left anterior descending artery via retrograde route. In all cases the guide wire was intact within the intracoronary segment. In Case 1, the guide wire (Runthrough; Terumo) was entrapped in an acute marginal branch during chronic total occlusion (CTO) percutaneous coronary intervention. In Case 2, a whisper wire (Abbott) was entrapped during re-wiring of the right posterolateral branch through stent struts, the traction on the wire caused severe malformation of distal and proximal stents requiring second staged procedure to complete revascularization of the RCA CTO. In Case 3, a Runthrough wire was entrapped between two layers of stents and fractured at the proximal point with filaments extending into descending aorta. And in Case 4, a Pilot 200 (Abbott) wire was entrapped retrograde in the subintimal space via saphenous vein graft connection by tying a knot at the distal tip of the wire. In all four cases RA was used to successfully cut and remove the entrapped guide wires. DISCUSSION: Rotablation technique appears to be a safe and effective strategy for the management of entrapped coronary guidewire when conventional strategies fail.

Human in vivo baseline intrarenal pressure, peristaltic activity and response to ureteric stenting.

OBJECTIVES: To assess human in vivo intrarenal pressure (IRP) and peristaltic activity at baseline and after ureteric stent placement, using a narrow calibre pressure guidewire placed retrogradely in the renal pelvis. PATIENTS AND METHODS: A prospective, multi-institutional study recruiting consenting patients undergoing ureteroscopy was designed with ethical approval. Prior to ureteroscopy, the urinary bladder was emptied and the COMET™ II pressure guidewire (Boston Scientific) was advanced retrogradely via the ureteric orifice to the renal pelvis. Baseline IRPs were recorded for 1-2 min. At procedure completion, following ureteric stent insertion, IRPs were recorded for another 1-2 min. Statistical analysis of mean baseline IRP, peristaltic waveforms and frequency of peristaltic contractions was performed, thereby analysing the influence of patient variables and ureteric stenting. RESULTS: A total of 100 patients were included. Baseline mean (±SD) IRP was 16.76 (6.4) mmHg in the renal pelvis, with maximum peristaltic IRP peaks reaching a mean (SD) of 25.75 (17.9) mmHg. Peristaltic activity generally occurred in a rhythmic, coordinated fashion, with a mean (SD) interval of 5.63 (3.08) s between peaks. On univariate analysis, higher baseline IRP was observed with male sex, preoperative hydronephrosis, and preoperative ureteric stenting. On linear regression, male sex was no longer statistically significant, whilst the latter two variables remained significant (P = 0.004; P < 0.001). The mean (SD) baseline IRP in the non-hydronephrotic, unstented cohort was 14.19 (4.39) mmHg. Age, α-blockers and calcium channel blockers did not significantly influence IRP, and no measured variables influenced peristaltic activity. Immediately after ureteric stent insertion, IRP decreased (mean [SD] 15.18 [5.28] vs 16.76 [6.4] mmHg, P = 0.004), whilst peristaltic activity was maintained. CONCLUSIONS: Human in vivo mean (SD) baseline IRP is 14.19 (4.39) mmHg in normal kidneys and increases with both hydronephrosis and preoperative ureteric stenting. Mean (SD) peristaltic peak IRP values of 25.75 (17.9) mmHg are reached in the renal pelvis every 3-7 s and maintained in the early post-stent period.

The "Bundle Wire" Technique: A Novel Approach to Cannulating Challenging Target Vessels Using Multiple Fine Atraumatic Guidewires That Together Serve as a Stiff Guidewire.

PURPOSE: To present a novel technique that enables safe and effective cannulation of target vessels with challenging anatomy during fenestrated/branched endovascular aortic repair (F/B-EVAR). TECHNIQUE: Following deployment of the F/B-EVAR endograft, the target vessels (TVs) are cannulated. The bundle wire technique provides a solution to challenging TVs and uses multiple fine atraumatic guidewires that together serve as a stiff guidewire. The technique can be executed in 2 ways using: (1) one 0.018 inch and one 0.014 inch guidewire or (2) three 0.014 inch guidewires. We demonstrate the technique in a case of a complex abdominal aortic aneurysm treated using branched EVAR in which the left renal artery with severe ostial stenosis was catheterized using the bundle wire technique. CONCLUSIONS: The bundle wire technique offers a technically feasible and economically viable solution for facilitating catheter and bridging stent delivery in anatomically challenging TVs during F/B-EVAR. It is a useful addition to the therapeutic armamentarium available to physicians for accessing demanding TVs.

Development of a Scoring System for Predicting the Difficulty of Bile Duct Cannulation and Selecting the Appropriate Cannulation Method.

BACKGROUND: Selective biliary cannulation in endoscopic retrograde cholangiopancreatography can be challenging due to factors like papillary morphology. Various patterns indicate cannulation difficulty, but the combinations causing difficulty and the optimal cannulation method for each scenario are unclear. AIMS: This study aimed to identify cannulation difficulty patterns and develop a predictive scoring system for selecting the appropriate cannulation method. METHODS: We retrospectively compared 776 patients with naïve papilla, dividing them into conventional contrast cannulation (N = 510) and salvage technique (N = 266) groups. The salvage group included patients using pancreatic duct guidewire placement and/or wire-guided cannulation due to difficulties with the contrast method. Papillary morphology (Haraldsson's classification), periampullary diverticulum (PAD), and scope operability were analyzed using multiple regression to identify risk factors for cannulation difficulties. Factors were scored based on hazard ratios to access combinations causing difficulties. RESULTS: The salvage group had more older patients and higher frequencies of type 2 (small), type 3 (protruding or pendulous), type 4 (creased or ridged) papillae, PAD, and poor scope operability. Significant risk factors in the multivariate analysis included type 2 [odds ratio (OR) 6.88], type 3 (OR 7.74), type 4 (OR 4.06) papillae, PAD (OR 2.26), and poor scope operability (OR 4.03). Pattern recognition scores were significantly higher in the salvage group (1.31 vs. 3.43, P < 0.0001). CONCLUSIONS: Type 2-4 papillae, PAD, and poor scope operability are significant risk factors for cannulation difficulty. Pattern recognition scores based on these factors can predict cannulation difficulty and aid in selecting between conventional and salvage methods.

Central venoplasty followed by 'double guidewire railroad technique' as a bailout strategy in difficult tunnelled dialysis catheter insertion.

End-stage renal disease (ESRD) patients frequently encounter challenges at the time of dialysis catheter insertion from concomitantly associated with thoracic central venous obstruction (TCVO). TCVO complicates the placement of tunnelled dialysis catheters (TDCs). In cases where TCVO is unexpectedly encountered and TDC insertion becomes difficult, central venoplasty followed by catheter reinsertion is required. This report details a novel technique to salvage a TDC that was trapped at the TCVO site after removal of the peel-away sheath. We describe the case of a 67-year-old diabetic male ESRD patient on haemodialysis since 2017, with history of multiple prior accesses, who presented with acute thrombosis of his arteriovenous fistula. TDC placement was attempted via the left internal jugular vein (IJV). Angiography revealed severe stenosis at the left brachiocephalic vein-superior vena cava confluence, necessitating venoplasty. Post-venoplasty, the TDC could not be advanced past the IJV venous entry site due to unfavourable catheter tip profile. Utilising a double guidewire railroad technique, the TDC was successfully reinserted, ensuring functional dialysis. The technique carries potential risks, which mandates careful hemodynamic monitoring and prophylactic measures. In conclusion, percutaneous placement of a TDC following a central venoplasty is at times life-saving in patients with exhausted peripheral vascular access and concomitant TCVO. In the absence of a peel-away sheath, TDC reinsertion using a double guidewire railroad technique is a helpful technique for salvaging the catheter, especially in financially-constrained settings.

Injury of the superficial femoral artery and posterior tibial artery associated with an atherectomy device.

OBJECTIVES: Rotational atherectomy can offer a viable treatment for occlusive peripheral artery disease; maintaining the minimal invasiveness of an endovascular procedure, while allowing for a more complete lesion debridement compared with balloon angioplasty. This case report outlines a complication of guidewire entrapment associated with rotational atherectomy in the superficial femoral artery (SFA). METHODS: A 57-year-old male underwent an atherectomy with Rotorex for left lower limb foot pain. During the procedure, the guidewire was suctioned into the atherectomy device, preventing any further advancement of the device and damaging the SFA and posterior tibial artery (PTA). RESULTS: The atherectomy device was withdrawn and a new vascular access site was gained in the left PTA. A covered stent was inserted to treat the original SFA lesion, and balloon angioplasty was used to repair the device-induced damaged to the PTA. CONCLUSION: While guidewire complications have been previously reported, this case report details the first reported case, to our knowledge, of guidewire entrapment while using a rotational atherectomy device. Knowledge of this possible complication of rotational atherectomy can aid in clinical decision making when choosing between treatments for peripheral vascular disease.

Endoscopic ultrasound-guided rendezvous techniques for difficult biliary cannulation: Technical review.

Endoscopic retrograde cholangiopancreatography (ERCP) is the standard procedure for the diagnosis and treatment of biliary diseases. However, selective biliary cannulation, the essential first step in ERCP, can sometimes fail due to anatomical variations or technical limitations. In these cases, the endoscopic ultrasound-guided rendezvous technique (EUS-RV) offers a valuable salvage option. Nevertheless, it is crucial to be aware of potential adverse events associated with bile duct puncture. To optimize the success rate and safety of EUS-RV, understanding the basic techniques, technical tips for each procedural step, and troubleshooting strategies for potential difficulties is essential. This review article summarizes the clinical outcomes and technical considerations of EUS-RV, including a comprehensive analysis of the current evidence.

Wire-in-needle versus conventional syringe-on-needle technique for ultrasound-guided central venous catheter insertion in the internal jugular vein: the WIN randomized trial.

PURPOSE: There are different techniques for ultrasound-guided central venous catheter (CVC) insertion. When using the conventional syringe-on-needle technique, the syringe needs to be removed from the needle after venous puncture to pass the guidewire through the needle into the vein. When, alternatively, using the wire-in-needle technique, the needle is preloaded with the guidewire, and the guidewire-after venous puncture-is advanced into the vein under real-time ultrasound guidance. We tested the hypothesis that the wire-in-needle technique reduces the time to successful guidewire insertion in the internal jugular vein compared with the syringe-on-needle technique in adults. METHODS: We randomized 250 patients to the wire-in-needle or syringe-on-needle technique. Our primary endpoint was the time to successful guidewire insertion in the internal jugular vein. RESULTS: Two hundred and thirty eight patients were analyzed. The median (25th percentile, 75th percentile) time to successful guidewire insertion was 22 (16, 38) s in patients assigned to the wire-in-needle technique and 25 (19, 34) s in patients assigned to the syringe-on-needle technique (estimated location shift: 2 s; 95%-confidence-interval: - 1 to 5 s, p = 0.165). CVC insertion was successful on the first attempt in 103/116 patients (89%) assigned to the wire-in-needle technique and in 113/122 patients (93%) assigned to the syringe-on-needle technique. CVC insertion-related complications occurred in 8/116 patients (7%) assigned to the wire-in-needle technique and 19/122 patients (16%) assigned to the syringe-on-needle technique. CONCLUSION: The wire-in-needle technique-compared with the syringe-on-needle technique-did not reduce the time to successful guidewire insertion in the internal jugular vein. Clinicians can consider either technique for ultrasound-guided CVC insertion in adults.

An interventional MRI guidewire combining profile and tip conspicuity for catheterization at 0.55T.

PURPOSE: We describe a clinical grade, "active", monopole antenna-based metallic guidewire that has a continuous shaft-to-tip image profile, a pre-shaped tip-curve, standard 0.89 mm (0.035″) outer diameter, and a detachable connector for catheter exchange during cardiovascular catheterization at 0.55T. METHODS: Electromagnetic simulations were performed to characterize the magnetic field around the antenna whip for continuous tip visibility. The active guidewire was manufactured using medical grade materials in an ISO Class 7 cleanroom. RF-induced heating of the active guidewire prototype was tested in one gel phantom per ASTM 2182-19a, alone and in tandem with clinical metal-braided catheters. Real-time MRI visibility was tested in one gel phantom and in-vivo in two swine. Mechanical performance was compared with commercial equivalents. RESULTS: The active guidewire provided continuous "profile" shaft and tip visibility in-vitro and in-vivo, analogous to guidewire shaft-and-tip profiles under X-ray. The MRI signal signature matched simulation results. Maximum unscaled RF-induced temperature rise was 5.2°C and 6.5°C (3.47 W/kg local background specific absorption rate), alone and in tandem with a steel-braided catheter, respectively. Mechanical characteristics matched commercial comparator guidewires. CONCLUSION: The active guidewire was clearly visible via real-time MRI at 0.55T and exhibits a favorable geometric sensitivity profile depicting the guidewire continuously from shaft-to-tip including a unique curved-tip signature. RF-induced heating is clinically acceptable. This design allows safe device navigation through luminal structures and heart chambers. The detachable connector allows delivery and exchange of cardiovascular catheters while maintaining guidewire position. This enhanced guidewire design affords the expected performance of X-ray guidewires during human MRI catheterization.

Effects of parameters on radiofrequency guidewire ablation: In vitro and in vivo experiments.

BACKGROUND: A novel ablation technique with guidewire has emerged as a promising approach for mapping and ablation of arrhythmias originating from left ventricular summit. However, its biophysical characteristics have not been fully clarified. METHODS AND RESULTS: In the in vitro experiment, guidewire ablation (GA) was performed in vessel models of 1.17 and 2.24 mm to determine the maximum safety power. Then with the maximum safety power, the predictive value of generator impedance (GI) drop on lesion radius was explored. In the in vivo experiment, the feasibility of the maximum safety power and lesion formation was verified in the living swine. It was found that in both groups, the incidence of steam pops increased along with the raise of ablation power, and the maximum safety power was 10 W for the 1.17-mm group and 15 W for the 2.24-mm group. There was a strong linear correlation between GI drop and maximum lesion radius (in 1.17 mm-10-W group: r = .961; in 2.24 mm-15-W group: r = .918). In the in vivo experiment, besides ventricular fibrillation happened once, no other complications were observed, and lesions were found at both 48-h and 8-week groups. CONCLUSIONS: The safety power of GA should be adjusted according to the diameter of the vessel. Besides, the GI drop can predict the lesion radius during GA.

Wire ThRoUgh Snare Twice (Wire TRUST) technique: A novel method to grasp a lead with inaccessible ends as a supportive femoral approach for transvenous lead extraction.

INTRODUCTION: Transvenous lead extraction (TLE) is a crucial procedure for managing cardiac implantable electronic devices. The use of a combined superior and femoral approach has been found to enhance the success rate of TLE. This report introduces a novel technique, named "Wire ThRoUgh Snare Twice" (Wire TRUST), for effectively grasping a lead without a free end during TLE. METHOD: The Wire TRUST technique was applied in a case involving a 49-year-old male patient requiring TLE due to electrical artifact on the right ventricular (RV) lead, replacement of the RV lead, and pacemaker generator exchange. The Wire TRUST technique involved the insertion of a 4-Fr pigtail catheter and a 6-Fr snare catheter through the 14-Fr sheath inserted from the right common femoral vein. The 4-Fr pigtail catheter was hooked to the RV lead under multidirectional fluoroscopic guidance in the right atrium. The 0.014-in. guidewire was advanced through the pigtail catheter, crossing the RV lead until reaching the inferior vena cava. Subsequently, the distal end of the 0.014-in. guidewire was captured using a snare and pulled, facilitating externalization of the guidewire. After externalization, both ends of the 0.014-in. guidewire were passed through the snare outside the body and reinserted into the 14-Fr sheath. By simultaneously advancing and closing the snare while applying tension to the 0.014-in. guidewire, a secure grip on the lead without free ends was achieved. RESULTS: The Wire TRUST technique enabled successful lead extraction and replacement without any complications. The technique facilitated the co-axial alignment of the powered sheath with the RV lead, ensuring safe and efficient extraction. CONCLUSION: The Wire TRUST technique presents a novel and effective approach for grasping leads with inaccessible ends during TLE.

In vivo ureteroscopic intrarenal pressures and clinical outcomes: a multi-institutional analysis of 120 consecutive patients.

OBJECTIVES: To evaluate the pressure range generated in the human renal collecting system during ureteroscopy (URS), in a large patient sample, and to investigate a relationship between intrarenal pressure (IRP) and outcome. PATIENTS AND METHODS: A prospective multi-institutional study was conducted, with ethics board approval; February 2022-March 2023. Recruitment was of 120 consecutive consenting adult patients undergoing semi-rigid URS and/or flexible ureterorenoscopy (FURS) for urolithiasis or diagnostic purposes. Retrograde, fluoroscopy-guided insertion of a 0.036-cm (0.014″) pressure guidewire (COMET™ II, Boston Scientific, Marlborough, MA, USA) to the renal pelvis was performed. Baseline and continuous ureteroscopic IRP was recorded, alongside relevant operative variables. A 30-day follow-up was completed. Descriptive statistics were applied to IRP traces, with mean (sd) and maximum values and variance reported. Relationships between IRP and technical variables, and IRP and clinical outcome were interrogated using the chi-square test and independent samples t-test. RESULTS: A total of 430 pressure traces were analysed from 120 patient episodes. The mean (sd) baseline IRP was 16.45 (5.99) mmHg and the intraoperative IRP varied by technique. The mean (sd) IRP during semi-rigid URS with gravity irrigation was 34.93 (11.66) mmHg. FURS resulted in variable IRP values: from a mean (sd) of 26.78 (5.84) mmHg (gravity irrigation; 12/14-F ureteric access sheath [UAS]) to 87.27 (66.85) mmHg (200 mmHg pressurised-bag irrigation; 11/13-F UAS). The highest single pressure peak was 334.2 mmHg, during retrograde pyelography. Six patients (5%) developed postoperative urosepsis; these patients had significantly higher IRPs during FURS (mean [sd] 81.7 [49.52] mmHg) than controls (38.53 [22.6] mmHg; P < 0.001). CONCLUSIONS: A dynamic IRP profile is observed during human in vivo URS, with IRP frequently exceeding expected thresholds. A relationship appears to exist between elevated IRP and postoperative urosepsis.

Ascending Aorta Nose-Cone Loop Technique as Bail Out for Precise Branched Endovascular Aortic Arch Endograft Delivery Without Valve Re-Crossing.

PURPOSE: To describe a right carotid-femoral through-and-through (T&T) guidewire technique during branched thoracic endovascular aortic arch repair (B-TEVAR) to facilitate endograft delivery in a very tortuous aortic anatomy for a type Ia endoleak (EL) of a previous aortic endograft implantation. TECHNIQUE: AT&T guidewire was established between the right common carotid artery and the right common femoral artery to facilitate a difficult endograft delivery. Once in the aortic arch, a loop in the ascending aorta was formed to allow the endograft to reach the desired position without losing tension on the guidewire. This maneuver allowed the T&T guidewire to be kept in place until the desired position was reached. The nose-tip of the endograft was curved over the looped guidewire pointing toward the innominate artery without crossing the valve. After endograft deployment, the T&T guidewire was released, and the branches were bridged in a standard fashion. Completion angiography documented correct deployment of the endograft and no sign of type I/III EL. The 1-month computed tomography angiography confirmed the correct deployment. CONCLUSION: Carotid-femoral T&T guidewire to facilitate endograft delivery in difficult anatomies can be feasible even in B-TEVAR. Possible bailout maneuvers are available if the aortic valve needs to be crossed after endograft delivery. CLINICAL IMPACT: Endovascular arch repair gains popularity as a valuable alternative, especially in patients considered unfit for open repair. A through-and-through (T&T) guidewire for endovascular arch repair with a landing zone in zone 0 according to Ishimaru is usually performed through the externalization of the femoral guidewire through a transapical access, but this may not always be feasible in frail patients. A right carotid-femoral though-and-through guidewire with a loop formation in the ascending aorta is proposed to achieve the support of a T&T wire to pass tortuous aortoiliac anatomies and access the ascending aorta without the need for aortic valve crossing.

Percutaneous Superficial Temporal Artery Access Facilitating Carotid Artery Stenting Performed From Distal Radial Artery.

PURPOSE: The purpose of the study is to describe carotid artery stenting (CAS) via distal transradial access (dTRA) facilitated by additional superficial temporal artery (STA) access, in a patient with complex aortic arch vessel anatomy. TECHNIQUE: A 72-year-old woman with a prior history of complex cervical surgery and radiotherapy due to laryngeal malignancy, presented with a symptomatic 90% stenosis of the left internal carotid artery (ICA). Due to high cervical lesion, the patient was rejected from carotid endarterectomy. Angiography demonstrated 90% stenosis of the left ICA and a type III aortic arch. After failure of left common carotid artery (CCA) cannulation with appropriate catheter support via dTRA and transfemoral approaches, CAS was attempted a second time. After percutaneous ultrasound guided access to right dTRA and left STA, a 0.035 inch guidewire introduced to the left CCA from the contralateral dTRA was snared and externalized via left STA to improve wire support for guiding advancement. Thereafter, the left ICA lesion was successfully stented with a 7×30 mm self-expanding stent via right dTRA. All vessels involved were patent at 6-month follow-up. CONCLUSION: The STA may be a promising adjunctive access site to increase transradial catheter support for CAS or neurointerventional procedures in the anterior circulation. CLINICAL IMPACT: Transradial cerebrovascular interventions have been gaining popularity, however, unstable catheter access to distal cerebrovascular structures limits its widespread use. Guidewire externalization technique via additional STA access may improve transradial catheter stabilty and increase procedural success with possibly low access stie complication rate.

Endovascular Aneurysm Repair Using Physician-Modified Fenestrated Endurant Contralateral Limb for Internal Iliac Artery Preservation.

CLINICAL IMPACT: We developed a novel Endovascular aortic repair technique for internal iliac artery preservation using a physician modified Endurant contralateral limb. This procedure was safe and reliable for preserving internal iliac artery flow in 24 patients with common and internal iliac artery aneurysms. We believe that our technique has the potential to expand the anatomic indications for internal iliac artery preserving procedures.

Transaxillary Branch-to-Branch-to-Branch Carotid Catheterization Technique for Triple-Branch Arch Repair.

PURPOSE: To describe the transaxillary branch-to-branch-to-branch carotid catheterization technique (tranaxillary 3BRA-CCE IT) for cannulation of all supra-aortic vessels using only 1 femoral and 1 axillary access during triple-branch arch repair. TECHNIQUE: After deployment of the triple-branch arch device, catheterization and bridging of the innominate artery (IA) should be performed through a right axillary access (cutdown or percutaneous). Then, the retrograde left subclavian (LSA) branch should be catheterized (if not preloaded) from a percutaneous femoral access, and a 12×90Fr sheath should be advanced to the outside of the endograft. Subsequently, catheterization of the left common carotid artery (LCCA) antegrade branch should be performed, followed by snaring of a wire in the ascending aorta which was inserted through the axillary access, creating a branch-to-branch-to-branch through-and-through guidewire. Over the axillary access, a 12×45Fr sheath should be inserted into the IA branch and looped in the ascending aorta using a push-and-pull technique so that it faces the LCCA branch, allowing for stable catheterization of the LCCA. The retrograde LSA branch should then be bridged following the standard fashion. CONCLUSIONS: This series of 5 patients demonstrates that triple-branch arch repair can be performed with the transaxillary 3BRA-CCE IT, allowing catheterization of the supra-aortic vessels without manipulation of the carotid arteries. CLINICAL IMPACT: The transaxillary 3BRA-CCE IT allows catheterization and bridging of all supra-aortic vessels in triple-branch arch repair through only 2 vascular access points, the femoral artery and the right axillary artery. This technique avoids carotid surgical cutdown and manipulation during these procedures, reducing the risk of access site complications, including bleeding and reintervention, reintubation, cranial nerve lesions, increased operating time, and so on, and has the potential to change the current vascular access standard used during triple-branch arch repair.

Angled-tip vs. straight-tip guidewire in ERCP: a randomized, multicenter study.

BACKGROUND: Endoscopic retrograde cholangiopancreatography (ERCP) is the mainstay for interventional treatment of biliopancreatic diseases, and guidewires are decisive for successful treatment. METHODS: A randomized, multicenter, open-label study was conducted in patients in whom a guidewire was required in ERCP. Success rate and duration of the investigation were evaluated by randomly applying hydrophilic guidewires with a straight tip (ST) or an angled tip (AT) configuration, with normal (type NF) or enhanced (type EF) flexibility. Randomization was stratified by indication, i.e., stricture of the intra-hepatic bile ducts, stricture of the extrahepatic bile ducts, obstruction by bile duct stones, or interventions involving the pancreas. Cross-over was allowed if the initially allocated guidewire did not result in treatment success. RESULTS: Four hundred fifty-three patients were included, and 422 were finally analyzed. In 363 procedures (86%), the initially allocated wirés use resulted in treatment success. The success rate for using a guidewire with an angled tip configuration was 87.5 vs. 79.9% in a straight tip configuration (p = 0.049), and in negotiating an intrahepatic stricture the success rate was 90.7 vs. 69.1%, respectively (p = 0.008). No significant differences were observed in other indications. Procedural duration time did not differ in between the treatment groups. CONCLUSION: ERCP guidewires with an angled tip were more frequently successful when compared to straight tipped wires and most successful in treating intrahepatic strictures. Guidewires with standard vs. enhanced tip flexibility showed equal success rates in all indications.

Angioplasty Guidewire-Assisted vs. Conventional Transseptal Puncture for Left Atrial Appendage Occlusion: a multicentre randomized controlled trial.

AIMS: This study was performed to compare the usability, efficiency, and safety of a modified angioplasty guidewire-assisted transseptal puncture (TSP) technique vs. the conventional approach in facilitating access into the left atrium during left atrial appendage occlusion (LAAO) procedures for the treatment of atrial fibrillation. METHODS AND RESULTS: The ADVANCE-LAAO trial (Angioplasty Guidewire-Assisted vs. Conventional Transseptal Puncture for Left Atrial Appendage Occlusion) was an investigator-initiated, prospective, multicentre, randomized controlled trial (NCT05125159). Patients with atrial fibrillation who underwent LAAO were prospectively enrolled from four centres and randomly assigned to an angioplasty guidewire-assisted TSP group (n = 131) or to a conventional Brockenbrough needle TSP group (n = 132). The primary endpoint was the one-time success rate of TSP. We also analysed the TSP procedure time, failure rate of the assigned TSP type, radiation dose, contrast dose, and procedural complications in both groups. All patients in the guidewire-assisted group underwent successful TSP, whereas five in the standard conventional group switched to the guidewire-assisted approach. The guidewire-assisted puncture improved the one-time success rate (92.4 vs. 77.3%, P = 0.001), shortened the TSP procedure time (109.2 ± 48.2 vs. 120.5 ± 57.6 s, P = 0.023), and tended to have a higher rate of good coaxial orientation of the sheath with the left atrial appendage during the LAAO procedure (66.4 vs. 54.5%, P = 0.059). No TSP-related complications occurred in the guidewire-assisted TSP group, whereas two complications occurred in the conventional TSP group. There was no significant difference in the failure rate of the assigned TSP type, the total procedure time, the total radiation dose, the rate of successful LAAO implantation, or the procedural complication rate between the two groups (all P > 0.05). CONCLUSION: This study confirmed that angioplasty guidewire-assisted puncture can effectively improve the success rate of TSP during LAAO procedures. This novel technique has high potential for application in interventional therapies requiring TSP.

Morphology of the major duodenal papilla for the selection of advanced cannulation techniques in difficult biliary cannulation.

BACKGROUND: Morphology of the major duodenal papilla (MDP) influences the outcome of standard biliary cannulation. However, those data on advanced cannulation techniques are scarce. We aimed to study the impact of MDP morphology on the outcome of both standard and advanced cannulation methods. METHODS: Images of naïve papilla were retrospectively reviewed and independently classified into 4 types (1: classic appearance, 2: small, 3: bulging, and 4: ridged papillae). All cannulation was started with guidewire cannulation. After failure, advanced cannulation including double guidewire (DG) and/or precut sphincterotomy (PS) was performed. Outcomes including success rate and complications were analyzed. RESULTS: A total 805 naïve papilla were included. The overall advanced cannulation rate was 23.2%. The MPD type 2 (OR 1.8, 95% CI 1.8-2.9) and type 4 (OR 2.1, 95% CI 1.1-3.8) required advanced cannulation technique at a higher rate than type 1. Type 3 significantly needed a higher proportion of PS when compared with type 1 (59.09% vs 27.03%, OR 3.90, 95% CI 1.51-10.06). Overall post-ERCP pancreatitis (PEP) was 8% and was not different among MDP types. PEP was significantly increased in difficult cannulation group (15.38% vs 5.71%, p-value < 0.001). Multivariate analysis demonstrated that DG independently increased risk of PEP (OR 3.6, 95% CI 2.0-6.6). CONCLUSIONS: MDP type 2 and type 4 were related to difficult cannulation. Although DG and PS can be used as advanced cannulation in all types, DG carries risk of PEP and PS may be preferred over DG in MDP type 3.