Comparative Study of the Effectiveness of Three Access Routes for Implanting an Electronic Intracardiac Device
NCT ID: NCT07273929
Last Updated: 2025-12-23
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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NOT_YET_RECRUITING
PHASE3
900 participants
INTERVENTIONAL
2026-01-01
2027-07-01
Brief Summary
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The procedure involves inserting one or more intra-cardiac leads using venous access. Navigation in the heart chambers is guided by fluoroscopy. Each lead is connected to a box that is placed under the skin in the deltopectoral groove.
The venous vascular approach or venous access is a key stage. It can be time-consuming and a source of complications (haematoma, pneumothorax, nerve damage, catheter malfunction).
There are several methods of vascular access: cephalic vein dissection, subclavian vein puncture guided by anatomical landmarks, axillary puncture guided by scopy (X-rays) or intraoperative ultrasound.
The implantation of an intra-cardiac electronic device (ICD) (pacemaker or defibrillator) is a frequent procedure, and one whose incidence is on the rise in the field of cardiology. In France in 2016, 69042 pacemakers and 8174 defibrillators were implanted.
The procedure involves inserting one or more intra-cardiac leads using venous access. Navigation in the heart chambers is guided by fluoroscopy. Each lead is connected to a box that is placed under the skin in the deltopectoral groove.
The venous vascular approach or venous access is a key stage. It can be time-consuming and a source of complications (haematoma, pneumothorax, nerve damage, catheter malfunction).
There are several methods of vascular access: cephalic vein dissection, subclavian vein puncture guided by anatomical landmarks, axillary puncture guided by scopy (X-rays) or intraoperative ultrasound.
The most commonly used venous access for DEIC implantation in Europe today is cephalic vein dissection (60%). The subclavian vein is used in 21% of cases and the axillary vein in 19%.
There is currently no recommendation as to which technique should be used as first-line treatment.
The subclavian route is performed by puncture without direct visualisation of the vein, and therefore presents a risk of complications such as pneumothorax.
The cephalic route has few complications, but requires lengthy and tedious dissection and considerable experience. According to the literature, the failure rate is between 20 and 30%.
For axillary vein puncture, several options have been described: blind, scopy-guided with venography and ultrasound-guided.
Ultrasound-guided axillary puncture has been proposed for several years, but is currently not widely used. According to the literature, this technique seems to have a high success rate with a low complication rate, particularly with regard to the risk of pneumothorax. There are currently two ultrasound-guided axillary puncture techniques.
The 'intra-pocket' axillary puncture technique involves performing a puncture after making the incision using a special ultrasound probe (shaped like a golf club), placed in contact with the pectoral muscle.
Percutaneous" axillary puncture, on the other hand, is performed using a standard linear vascular ultrasound probe. Here the puncture is performed before the incision and the probe is placed in contact with the skin.
According to the literature currently available, the ultrasound-guided 'intra-pocket' technique appears to have a better success rate than the ultrasound-guided 'percutaneous' technique (95-99% success rate vs. 90-95%).
The investigators recently conducted the ACCESS study, a prospective, single-centre, randomised, open-label study comparing echo-guided 'intra-pocket' axillary puncture with the conventional cephalic vein dissection technique. the investigators demonstrated that this technique has a higher success rate than cephalic vein dissection, with a significant time saving (success rate: 99 vs. 87% (p=0.01), procedure time: 33.8 vs. 46.9 min,p= 0.005).
Our project is therefore to carry out a multicentre randomised trial to confirm these promising initial results and to assess the efficacy and safety of 'intra-pocket' echo-guided axillary venipuncture compared with 'percutaneous' echo-guided axillary venipuncture and the reference technique of cephalic dissection during implantation of a DEIC.
Detailed Description
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Conditions
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Keywords
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Study Design
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RANDOMIZED
PARALLEL
TREATMENT
NONE
Study Groups
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Group 1 : Cephalic vein dissection
After an incision in the deltopectoral groove and careful dissection of the superficial fatty layer, the cephalic vein is revealed and separated from its tissue attachments over a distance of approximately 2 centimetres before being cannulated in order to introduce the necessary guides.
The electronic device will be fitted using the guides introduced in this way.
Intervention 1: Cephalic vein dissection
After an incision in the deltopectoral groove and careful dissection of the superficial fatty layer, the cephalic vein is revealed and separated from its tissue attachments over a distance of approximately 2 centimetres before being cannulated in order to introduce the necessary guides.
The electronic device will be fitted using the guides introduced in this way.
Group 2 : Percutaneous echo-guided axillary route
A standard vascular linear ultrasound probe is placed in a single-use sterile sheath. The probe is brought into contact with the skin and the investigators then perform a needle puncture of the vein under ultrasound control. Once the puncture or punctures have been successful, a guide is inserted into the vein and the incision is made after the puncture.
The electronic device will be fitted using the guides introduced in this way.
Intervention 2 : Percutaneous echo-guided axillary route
A standard vascular linear ultrasound probe is placed in a single-use sterile sheath. The probe is brought into contact with the skin and we then perform a needle puncture of the vein under ultrasound control. Once the puncture or punctures have been successful, a guide is inserted into the vein and the incision is made after the puncture.
The electronic device will be fitted using the guides introduced in this way.
Group 3 : Intrapocket ultrasound-guided axillary route
A special ultrasound probe (shaped like a hiccup) is placed in a single-use sterile sheath. After making an incision in the deltopectoral groove and dissecting the fatty layer, the probe is placed in contact with the pectoral muscle to visualise the axillary vein. Needle puncture of the vein is performed under ultrasound guidance. Once the puncture is successful, a guide is inserted into the vein.
Intervention 3 : Intrapocket ultrasound-guided axillary route
A special ultrasound probe (shaped like a hiccup) is placed in a single-use sterile sheath. After making an incision in the deltopectoral groove and dissecting the fatty layer, the probe is placed in contact with the pectoral muscle to visualise the axillary vein. Needle puncture of the vein is performed under ultrasound guidance. Once the puncture is successful, a guide is inserted into the vein.
The electronic device will be fitted using the guides introduced in this way.
Interventions
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Intervention 1: Cephalic vein dissection
After an incision in the deltopectoral groove and careful dissection of the superficial fatty layer, the cephalic vein is revealed and separated from its tissue attachments over a distance of approximately 2 centimetres before being cannulated in order to introduce the necessary guides.
The electronic device will be fitted using the guides introduced in this way.
Intervention 2 : Percutaneous echo-guided axillary route
A standard vascular linear ultrasound probe is placed in a single-use sterile sheath. The probe is brought into contact with the skin and we then perform a needle puncture of the vein under ultrasound control. Once the puncture or punctures have been successful, a guide is inserted into the vein and the incision is made after the puncture.
The electronic device will be fitted using the guides introduced in this way.
Intervention 3 : Intrapocket ultrasound-guided axillary route
A special ultrasound probe (shaped like a hiccup) is placed in a single-use sterile sheath. After making an incision in the deltopectoral groove and dissecting the fatty layer, the probe is placed in contact with the pectoral muscle to visualise the axillary vein. Needle puncture of the vein is performed under ultrasound guidance. Once the puncture is successful, a guide is inserted into the vein.
The electronic device will be fitted using the guides introduced in this way.
Eligibility Criteria
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Inclusion Criteria
* First implantation of a pacemaker or defibrillator (single or double chamber) or implantation of a lead in the left branch area in the case of a venticular lead.
* Informed consent signed by the patient
Exclusion Criteria
* Prior impossibility of venous access
* Pregnant, parturient or breast-feeding women
* Persons deprived of their liberty by judicial or administrative decision
* Persons under psychiatric care
* Persons admitted to a health or social establishment for purposes other than research
* Adults under legal protection (guardianship, curatorship)
* Persons not affiliated to a social security scheme or beneficiaries of a similar scheme
* Patients participating in other research that may interfere with this study
18 Years
ALL
No
Sponsors
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Hospices Civils de Lyon
OTHER
Responsible Party
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Locations
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CHU Clermont-Ferrand
Clermont-Ferrand, , France
Hôpital F. MITTERRAND
Dijon, , France
Lyon-Croix Rousse
Lyon, , France
Lyon-Louis Pradel
Lyon, , France
Hôpital privé Jacques Cartier
Massy, , France
CH Annexy-Genevois, site Annecy
Metz, , France
CHU de Saint Etienne - Hôpital Nord
Saint-Priest-en-Jarez, , France
Countries
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Central Contacts
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Facility Contacts
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Ghoulem TABDJOUN, MD
Role: primary
Other Identifiers
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69HCL24_0743
Identifier Type: -
Identifier Source: org_study_id