Dynamic Needle Tip Positioning Modification Technique in Short Axis Approach
NCT ID: NCT06422195
Last Updated: 2025-04-10
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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COMPLETED
NA
164 participants
INTERVENTIONAL
2024-05-19
2024-12-31
Brief Summary
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Detailed Description
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The most common site for arterial cannulation is the radial artery because of ease of accessibility, dual blood supply to the hand via the ulnar artery, and a low rate of complications. Complications from arterial cannulation include thrombosis, hematoma formation, edema and vasospasm.
Two approaches are basically identified for ultrasound-guided radial artery cannulation, i.e., short-axis out-of-plane (SA-OOP) and long-axis in-plane (LA-IP) techniques.
The dynamic needle tip positioning (DNTP) technique uses the short-axis view of the radial artery with gradual advancing of the needle till reaching the radial artery. Meanwhile, the ultrasound probe is being moved proximally in advance of the needle tip until it disappears from the ultrasound image. The cannula then advanced in the direction of the artery
Conditions
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Study Design
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RANDOMIZED
PARALLEL
OTHER
DOUBLE
Study Groups
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Dynamic Needle Tip Positioning Technique in Short Axis Approach (DNTP - SA)
Ultrasound guided radial artery cannulation by Dynamic Needle Tip Positioning Technique in Short Axis Approach (DNTP - SA) will be performed by an experienced anesthesiologist who has no subsequent role in the study. The ultrasound transducer is oriented transversely to the radial artery at the wrist, and the vessel appears as a circular anechoic structure in the ultrasound screen with gradual advancing of the needle till reaching the radial artery. Meanwhile, the ultrasound probe is being moved proximally in advance of the needle tip until it disappears from the ultrasound image. The cannula then advanced in the direction of the artery.
Dynamic Needle Tip Positioning Technique in Short Axis Approach (DNTP - SA)
Ultrasound guided radial artery cannulation by Dynamic Needle Tip Positioning Technique in Short Axis Approach (DNTP - SA) will be performed by an experienced anesthesiologist who has no subsequent role in the study. The ultrasound transducer is oriented transversely to the radial artery at the wrist, and the vessel appears as a circular anechoic structure in the ultrasound screen with gradual advancing of the needle till reaching the radial artery. Meanwhile, the ultrasound probe is being moved proximally in advance of the needle tip until it disappears from the ultrasound image. The cannula then advanced in the direction of the artery.
Long Axis Approach (LA)
Ultrasound guided radial artery cannulation in Long Axis Approach (LA) will be performed by an experienced anesthesiologist who has no subsequent role in the study. In the LA-IP approach, an ultrasound probe is placed parallel to the radial artery and the artery appears as a tubular anechoic structure in ultrasound.
Long Axis Approach (LA)
Ultrasound guided radial artery cannulation in Long Axis Approach (LA) will be performed by an experienced anesthesiologist who has no subsequent role in the study. In the LA-IP approach, an ultrasound probe is placed parallel to the radial artery and the artery appears as a tubular anechoic structure in ultrasound.
Interventions
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Dynamic Needle Tip Positioning Technique in Short Axis Approach (DNTP - SA)
Ultrasound guided radial artery cannulation by Dynamic Needle Tip Positioning Technique in Short Axis Approach (DNTP - SA) will be performed by an experienced anesthesiologist who has no subsequent role in the study. The ultrasound transducer is oriented transversely to the radial artery at the wrist, and the vessel appears as a circular anechoic structure in the ultrasound screen with gradual advancing of the needle till reaching the radial artery. Meanwhile, the ultrasound probe is being moved proximally in advance of the needle tip until it disappears from the ultrasound image. The cannula then advanced in the direction of the artery.
Long Axis Approach (LA)
Ultrasound guided radial artery cannulation in Long Axis Approach (LA) will be performed by an experienced anesthesiologist who has no subsequent role in the study. In the LA-IP approach, an ultrasound probe is placed parallel to the radial artery and the artery appears as a tubular anechoic structure in ultrasound.
Eligibility Criteria
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Inclusion Criteria
* Both sexes.
* American Society of Anesthesiologists physical status II-IV.
* Patients scheduled for elective surgery procedure that requires the use of invasive arterial pressure monitoring, as determined by the attending anesthesiologist.
Exclusion Criteria
* Patients who have cellulitis or infection at the site of insertion.
* Patients with a positive modified Allen test.
* Raynaud disease or any Peripheral vascular disease.
* Patients with Multiple previous radial artery interventional therapies in the previous 30 days.
* Patients scheduled for Surgery at site of insertion like forearm flap.
* Refusal to participate by the patient.
18 Years
70 Years
ALL
No
Sponsors
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Tanta University
OTHER
Responsible Party
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Maram Ibrahim Elmazny
Lecturer of Anesthesiology, Surgical Intensive Care and Pain Medicine, Faculty of Medicine, Tanta University, Tanta, Egypt.
Locations
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Tanta University
Tanta, El-Gharbia, Egypt
Countries
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Other Identifiers
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36197/12/22
Identifier Type: -
Identifier Source: org_study_id
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