Clinical Trial Details
— Status: Withdrawn
Administrative data
| NCT number |
NCT03721523 |
| Other study ID # |
UHSMCADAS |
| Secondary ID |
|
| Status |
Withdrawn |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
November 2018 |
| Est. completion date |
September 9, 2021 |
Study information
| Verified date |
September 2021 |
| Source |
University of Manchester |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
Stroke is a significant medical problem with 150,000 events occurring per year in the UK and
incurring healthcare costs of £4 billion per year. Fifty percent of strokes will leave a
lasting disability on first manifestation and 10-15% (roughly 16,500 per year) are unheralded
ischaemic events in previously asymptomatic Carotid artery disease.
Carotid Artery Disease is caused by the formation of an atherosclerotic plaque in the vessel.
Stroke or TIA occurs when plaque or adherent thrombus breaks off and embolises to the brain,
blocking off its blood supply. Hence, a carotid plaque is said to be symptomatic if it has
caused a Stroke or TIA in the territory of the brain supplied by that vessel in the previous
six months.
Currently, the degree of stenosis (narrowing) of the artery by doppler ultrasound is the main
assessment performed. Doppler ultrasound measures stenosis and elevation of blood flow
velocity in the artery prior to surgical intervention. However, it has been shown that the
degree of stenosis is a poor predictor of stroke as many asymptomatic patients have severe
stenosis and many symptomatic patients have moderate stenosis. Stenosis is a two dimensional
assessment of a 3-D structure.
Other features of the plaque should be considered including the volume of the carotid plaque
and its constituents. Carotid Plaque Volume has been measured in 339 individuals, with plaque
volume being higher in symptomatic than asymptomatic individuals. In this study, plaque
volume did not correlate with stenosis degree. No studies have been conducted measuring the
change in carotid plaque volume and morphology following a stroke. This pilot study will
perform serial duplex scans on recently symptomatic individuals over a 12 week period and
observe the changes in Plaque Volume and morphology. This will attempt to prove that carotid
plaque volume is a better predictor of stroke than stenosis. The investigators will also aim
to identify other plaque features that may have an important role in predicting stroke risk.
Documenting the timescale of change in plaque volume will aid us in defining appropriate
timescales for treating the symptomatic population and when those having medical management's
risk has returned to baseline. Observing the change in plaque immediately after stroke will
improve our knowledge of the changes in plaques that lead to symptoms and may in the future
help us predict which patients with asymptomatic carotid stenosis need operation.
Description:
Carotid Stenosis and stroke risk
Although carotid stenosis is the primary factor used to determine stroke risk and clinical
priority in carotid artery disease, stenosis is in fact a poor predictor of stroke risk.
Specifically, in asymptomatic patients with >70% carotid stenosis, the risk of ipsilateral
stroke is under 2% a year. Therefore in these patients the benefit of intervention with
carotid endarterectomy is minimal, in simple terms around 32 CEA's would need to be
undertaken to prevent just one stroke in carotid artery disease patients over a five year
follow up period. This clearly indicates that carotid stenosis itself is a poor indictor of
stroke risk.
Several other factors have been proposed as potentially relevant to stroke risk determination
in carotid artery disease.
Carotid plaque volume
Carotid plaque volume (CPV) is the actual volume of atherosclerotic plaque present within the
carotid artery. CPV may impact on stroke risk in Carotid artery disease as an increased
atherosclerotic burden may disrupt carotid flow leading to thrombus formation and subsequent
embolisation leading to CVA.
A recent pilot study recruiting over 200 patients demonstrated that CPV in patients
undergoing CEA within four weeks of symptoms was almost double of that seen in asymptomatic
patients, with mean CPV in the symptomatic group being 1.1cm3 compared with 0.68cm3 in the
asymptomatic group (p<0.001). Interestingly, carotid plaque volume was also shown to fall
rapidly following symptoms of cerebral ischemia from 1.1cm3 within four weeks of cerebral
symptoms to 0.91cm3 at six weeks and a mean of only 0.62 cm3 more than eight weeks following
symptoms. This data demonstrated that there may be a crucial link between CPV and
cerebrovascular symptoms in carotid artery disease and therefore between CPV and stroke risk
in the disease.
Carotid Plaque Morphology
Various studies have detailed carotid plaque histology to identify features that are related
to cerebrovascular symptoms. The main features being; intra-plaque haemorrhage, plaque
ulceration, fibrous cap thickness and lipid rich necrotic core. Fisher et al showed plaque
ulceration was significantly more common in plaques in symptomatic patients. Xu et al also
reported that disruption of the luminal surface, by fibrous cap rupture, intraplaque
haemorrhage or ulceration is indicative of a high risk lesion. The project aims to identify
these features on 3D duplex.
3D Duplex
3D duplex has been used to measure plaque volume and is proven to be reliable. The inter and
intra observer variability have been shown to be low but increase with reducing amounts of
total plaque volume. The study hypothesises that Carotid Plaque volume will correlate more
with risk of stroke than the degree of stenosis.
Antiplatelet Resistance
All carotid patients are treated with antiplatelet agents, commonly aspirin or clopidogrel,
to reduce the incidence of thrombus formation around plaques. This intervention is thought to
reduce stroke risk by around 9% annually and is therefore a key therapy in the management of
carotid artery disease. Research has suggested that up to 37% of the population may be
resistant to the actions of antiplatelet agents; if this is true in carotid artery disease
patients it would represent a severe shortfall in current treatment and the prevalence and
impact of this resistance may also impact on the risk of stroke in CAD patients. Patients
will be tested for antiplatelet resistance at two timepoints to establish if they have
resistance to the agents but also to see the effect of the acute embolic event on the
efficacy of antiplatelet agents.
A recent pilot study involving 35 patients demonstrated a significant prevalence of
antiplatelet resistance in CAD patients and showed an association between cerebrovascular
symptoms and residual platelet aggregation. This further strengthens the hypothesis that
antiplatelet resistance may be associated with stroke risk in CAD. Data from this project
demonstrates that antiplatelet resistance may be prevalent in the CAD patient population and
that the impact of this resistance, although potentially significant, is as yet not fully
understood.
Schedule of events
The procedures will be performed at the following time intervals;
- < 7 days 3D Duplex + Platelet aggregometry
- Day 14 (+/- 2 days) 3D Duplex
- Day 28 (+/- 2 days) 3D Duplex
- Day 56 (+/- 2 days) 3D Duplex
- Day 84 (+/- 2 days) 3D Duplex + Platelet aggregometry
