Coronary Catheterization Clinical Trial
Official title:
Observational Study of Radial Artery Patency Following Catheterization With a 7F Sheath
Radial artery occlusion may occur after performance of coronary catheterization via the radial artery (transradial approach). In some cases it may be desirable to insert large (7F) catheters via the radial artery, however the impact of increased catheter size on subsequent radial artery patency is unclear. We hypothesize that radial artery occlusion following 7F catheterization is rare and occurs in < 5% of the cases.
Background:
Coronary catheterization is a commonly performed diagnostic and therapeutic procedure. The
procedure is most commonly performed via the transfemoral approach (via the femoral artery).
Recently the transradial approach (via the radial artery) has been gaining popularity since
it is associated with decreased risk of bleeding and facilitates patient mobilization
following the procedure (1-3). During the catheterization procedure a sheath (tube) is
inserted into the access artery so as to enable insertion of catheters and devices into the
body. Vascular sheaths may have different internal diameters, which are measured in French
(F) units. Commonly used sheath sizes for coronary catheterization are 5F and 6F, however
use of larger 7F sheaths is beneficial when more complex procedures are performed such as
insertion of two coronary stents. Use of a 7F sheath creates a slightly larger orifice
within the blood vessel wall and may potentially increase the risk of damage to the vessel
wall and hemorrhage.
The palm of the hand normally receives dual blood supply via the radial and ulnar arteries.
Prior to performing transradial catheterization the ability of the ulnar artery to supply
blood to the whole palm is confirmed by performing an Allen Test, in order to avoid palmar
ischemia if the radial artery becomes occluded following the procedure. Radial artery
occlusion in the presence of a normal pre-procedural Allen Test is almost universally
asymptomatic, however it may preclude future use of the radial artery for vascular access or
as a coronary graft if bypass surgery is performed. The frequency of radial artery occlusion
following transradial catheterization ranges from 5% to 15% in different reports (4),
depending on many factors such patient selection, degree of anticoagulation during the
procedure and the time interval between performance of the procedure and studying the radial
artery patency. Use of larger sheaths has also been reported as a risk factor for radial
artery occlusion (5), however the true incidence of this complication is unclear. It is
desirable to discover the true rate of radial artery occlusion following catheterization
with a 7F sheath, since such knowledge may assist physicians in planning the optimal
catheterization strategy.
Aims:
The aim of the study will be to examine the occurrence of radial artery occlusion following
transradial catheterization with a 7F sheath.
Hypothesis:
Radial artery occlusion following 7F catheterization is rare and occurs in < 5% of the
cases.
Methods:
The study will be performed as part of Mr. Dan Levin's required Medical School Thesis
research at the Faculty of Medicine, Technion IIT, Haifa, Israel. Two-hundred subjects who
have previously undergone transradial catheterization between the years 1999 and 2012 with a
7F sheath will be identified in the Lady Davis Carmel Medical Center Catheterization
laboratory computerized database. The subjects will be contacted by the study investigators
and will be invited to a meeting with the investigators at Carmel Medical Center. The study
protocol consists of a single meeting between the investigators and the study subjects.
During this meeting the subjects will be given explanation of the study protocol. If they
consent to participate in the study they will sign an informed consent form, undergo
physical examination of the reverse Allen test and ultrasound examination of the patency of
the radial artery. Radial artery patency will be studied with the reverse Allen test. This
test is performed by simultaneously occluding both the radial and ulnar arteries until no
pulse signal is detected with a pulse oximeter placed on the index finger. The pressure on
the radial artery is then released and reappearance of the pulse signal on the oximeter is
documented-signifying antegrade flow in the radial artery. This test is not associated with
any reported complications or morbidity. Radial artery flow will be studied with Doppler
ultrasound. The ultrasound test will be performed by Dr Salim Adawi at no cost. The
ultrasound test is a routine non-invasive study which is not associated with any reported
complications or morbidity. Clinical and procedural data will be collected in the CRF form
in order to characterize risk factors for radial artery occlusion.
Endpoints:
1. Normal reverse Allen test.
2. Antegrade flow in the radial artery by ultrasound.
Number of participants:
The Lady Davis Carmel Medical Center catheterization laboratory database will be scanned in
order to identify all patients who have undergone transradial catheterization with a 7F
sheath. Two-hundred patients, both men and women, will be recruited to the study.
Inclusion and exclusion criteria:
Two-hundred Hebrew-speaking subjects (male and female) who have previously undergone 7F
transradial cardiac catheterization at the Lady Davis Carmel Medical Center between 1999 and
2012 will be contacted. Upon giving informed consent they will be recruited to the study.
Statistical analysis Univariate and multivariate analysis will be performed in order to
identify demographic, clinical and procedural characteristics that are associated with
radial artery occlusion.
References
1. Amoroso et al. Transradial access for primary percutaneous coronary intervention: the
next standard of care? Heart 2010;96:1341-1344.
2. Freestone et al. Transradial cardiac procedures: The state of the art. Heart
2010;96:883-891.
3. Bertrand et al. Transradial Approach for Coronary Angiography and Interventions:
Results of the First International Transradial Practice Survey. JACC Intv.
2010;3;1022-1031.
4. Pancholy et al. Effect of Duration of Hemostatic Compression on Radial Artery Occlusion
After Transradial Access. CCI 2012;79:78-81.
5. Uhlemann et al. The Leipzig Prospective Vascular Ultrasound Registry in Radial Artery
Catheterization. JACC Intv 2012;5:36-43.
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