Catheterization, Peripheral Clinical Trial
Official title:
The Effect of Tapping in the Venous Dilatation for Peripheral IV Access
Peripheral intravenous cannulation (PIVC) is one of the most common interventions in medical practice. Venous dilatation is helpful for successful PIV placement. Several techniques include hot pack application, tourniquet, massaging, and tapping over the vein to increase vein caliber described in the literature. However, none of them has been rigorously studied. Therefore, there is still no 'best practice' on how to effect vein dilation in a standard way. This study aims to investigate the effect of standardized tapping on venous dilatation with a massage device compared to manual non-standardized tapping and define a standard tapping technique using a device. In this study, the investigators also aim to investigate the effect of tourniquet application with and without vein tapping effect on peripheral vein caliber as determined by ultrasound measurement.
PIVC is one of the most common medical interventions in daily practice. Even though it seems like it should be an easy procedure, PIVC can be challenging. Venous dilatation optimizes conditions for successful vein cannulation. Several techniques are described to affect venodilation, but none of them are standardized because they are done manually, and there will be individual variations among clinicians. Tapping over the vein has been reported as an effective method. It has been hypothesized that tapping affects vein vaso-nervorum activation and local histamine release. Tapping or massage over the cannulation site is readily applied in busy medical practice, with a third of nurses using tapping or massage to promote venodilation. Tapping and massage are effective methods of vasodilatation to make the vein more prominent for venipuncture, with tapping more effective than massage (Ichimura et al.) There are limited data concerning the effect of tapping in PIVC and its standardization. In the current literature, there is no standard technique on how tapping should be performed. Specific Aims: - H0: Standardized tapping with a massage device is not an effective technique to dilate the peripheral veins for PIVC compared to manual tapping. - H1: Standardized tapping with a device is a more effective technique to dilate peripheral veins for PIVC compared to manual tapping. The investigators expect to learn to what degree a tourniquet increases peripheral vein size and to what degree that is augmented by tapping. Research Plan: This is a prospective non-randomized, controlled, non-invasive intervention study. The investigators will visually and also with surface ultrasound inspect the upper extremity. The investigators will not get blood tests or X-rays for study purposes. The investigators will measure the venous diameter of a vein or veins on the back of the hand and deeper within the forearm and in the antecubital fossa using ultrasound. The investigators will use a survey including participant's demographics (age, gender, handedness, smoking history) The investigators will use a portable ultrasound device (Butterfly iQ+, Butterfly Network, Inc., CT, USA) connected to an iPad to record ultrasound images (as pictures) and measure the diameter and cross-section area of the various veins. The investigators will take vein measurements from the dorsal hand, cubital, and mid-forearm regions. The investigators will take the measurements from the midline of the antecubital, volar side of the forearm, and dorsal hand regions. The investigators will put masking tapes on the skin as a reference point to make all the measurements from the same plane." Then the investigators will determine the midpoint of the forearm, the antecubital site, and the volar wrist crease. The midpoint of this line will be the mid-forearm vein measurement site. The investigators will use superficial dorsal hand veins of the dorsal metacarpal region for the dorsal hand vein measurements. During the baseline measurements, the investigators will get the best image with ultrasound and then mark the skin to get all the measurements from the same cross-sectional area and place water-resistant tape with a scale. The investigators will not use ultrasound gel or direct ultrasound probe application to the skin to prevent any possible ultrasound transducer-related venous compression. Instead, the investigators will sufficiently submerge the hand, forearm, and elbow in a fresh room temperature water-filled basin to allow precise vein caliber measurements with an ultrasound probe without any probe contact with the skin. This technique provides high-quality ultrasound images of superficial and deep veins. The investigators will use a standard adult blood pressure cuff applied to the mid-upper arm statically inflated to 60mmHg to serve as a tourniquet. The investigators will measure these parameters: - AP diameter of the vein - The cross-sectional area of the vein - Width of the vein The investigators will measure veins from three different locations - Anterior antecubital superficial vein - Volar mid-forearm region deep vein - Dorsal hand superficial vein The investigators will make the measurements four times for each vein and participant: 1. Baseline: In this phase, the investigators will not apply any venodilation method 2. Tourniquet applied: The investigators will apply a blood pressure cuff tourniquet inflated to 60 mmHg pressure. 3. Tourniquet plus tapping directly over the vein manually 4. Tourniquet plus tapping directly over the vein with a massage device The investigators will change the 3rd and 4th items between two arms of the same participant. In other words, the investigators will do 1-2-3-4 for a left arm but 1-2-4-3 for the right arm. The investigators will assess whether the order affects the vein diameter by this change. The venous blood pressure cuff tourniquet will not be applied for more than 20 minutes continuously. The investigators will take photos of the ultrasound vein visualizations and measure the diameter and cross-sectional area. This will have no PHI attached to the ultrasound images. The investigators will take photos of the skin using a calibration ruler to assess the dilation of the visible veins externally. These photos will not reveal the subject's face or any personally identifiable images or information. After all study procedures are complete on the initial arm, study procedures will be repeated on the opposite arm. Primary investigators will be responsible for collecting the data. The investigators will not use the name or identifiable data when entering the data into the software. Rather than that, the investigators will code the participants (E.g., A01, B02). This data will be stored only in the departmental password-protected encrypted share drive. The survey and paperwork, including any participant data, will be stored at the locked drawers in investigators' offices ;
Status | Clinical Trial | Phase | |
---|---|---|---|
Completed |
NCT05299060 -
Effectiveness of Cyanoacrylate Glue in the Fixation of Midline and Peripherally Inserted Central Catheters in Hospitalized Adult Patients: Randomised Clinical Trial (CIANO-ETI)
|
N/A | |
Terminated |
NCT00482742 -
Safety & Performance Randomized Study of the CiTop™ Guidewire for Peripheral CTO
|
N/A | |
Completed |
NCT00357799 -
VeinViewer for Peripheral IV Placement in Children With Difficult Intravenous (IV) Access
|
Phase 2/Phase 3 | |
Recruiting |
NCT03474978 -
Peripherally Inserted Central Catheter Insertion Site and Complication Rate in Neonates
|
N/A | |
Completed |
NCT03563703 -
Transfer of Technological Innovations to Nursing Practice: A Contribution to the Prevention of Infections
|
N/A | |
Active, not recruiting |
NCT02648334 -
Randomized Comparison of DCB for the Treatment of Superficial Femoral and Popliteal Peripheral Artery Disease
|
N/A | |
Completed |
NCT03148808 -
Natural Vascular Scaffold (NVS) Therapy
|
Phase 1 | |
Completed |
NCT04188262 -
Natural Vascular Scaffold (NVS) Therapy for Treatment of Atherosclerotic Lesions (Activate I)
|
Phase 1 | |
Completed |
NCT04085042 -
Impact of a Multimodal Intervention on Peripheral Venous Catheterization of Cancer Patients
|
N/A | |
Recruiting |
NCT04856826 -
Placement of Peripheral Venous Catheters Under Echo Guidance in a Post-emergency Medical Service
|
N/A | |
Terminated |
NCT01104103 -
Effectiveness Study of the BOA(R)-Constricting IV Band
|
N/A | |
Completed |
NCT00665886 -
Compact Closed System Versus Mounted Open System (COSMOS)
|
Phase 4 | |
Completed |
NCT02795468 -
The Usefulness of Ultrasound Guided Technique Insertion of Radial Artery Catheter in Neonates and Infants
|
N/A | |
Completed |
NCT02769442 -
Prospective, Randomized Controlled Comparison of TERUMO SurFlash Plus Versus BD Insyte Autoguard in an Urban ED
|
N/A | |
Recruiting |
NCT03592602 -
Evaluate the Impact of Arm Abduction and Adduction on the Intravascular Electrocardiograph During PICC Placement and the Tip Location Changes Related to it
|
N/A | |
Completed |
NCT04001764 -
Comparison of the Efficacy of Radial Artery Catheterization in Three Different Regions in Intensive Care Patients
|
N/A | |
Completed |
NCT03197246 -
Intravascular ECG During Insertion of Peripheral Inserted Central-venous Catheters: Replacement for Chest X-ray?
|
N/A | |
Terminated |
NCT04262947 -
Efficacy of Near-Infrared Vein Imaging for Difficult IV Placement
|
N/A | |
Terminated |
NCT05051020 -
Near-infrared Vein Imaging for Peripheral IV Placement
|
N/A | |
Completed |
NCT06033677 -
Increasing Security With End-zone Arterial Blood Pressure Monitoring During Surgery
|
N/A |