Transcranial Doppler ultrasound criteria for hemodynamically significant internal carotid artery stenosis based on residual lumen diameter calculated from en bloc endarterectomy specimens

Peritherapeutic Hemodynamic Changes of Carotid Stenting Evaluated with Quantitative DSA in Patients with Carotid Stenosis

BACKGROUND AND PURPOSE

Quantitative data from DSA have become important tools for understanding hemodynamic changes of intracranial lesions. In this study, we evaluated 8 hemodynamic parameters in patients before and after carotid artery angioplasty.

MATERIALS AND METHODS

DSA images of 34 patients with carotid stenosis who underwent angioplasty and stent placement were retrospectively analyzed. Eleven ROIs (M1, M2, A1, A2, the parietal vein, superior sagittal sinus, internal jugular vein, and 4 in the ICA) were selected on color-coded DSA. Eight hemodynamic parameters (bolus arrival time, TTP, relative TTP, full width at half maximum, wash-in slope, washout slope, maximum enhancement, and area under the curve) were measured from the time-concentration curves of these ROIs. The dependent t test for paired samples was applied to these parameters before and after stent placement.

RESULTS

We found that the treatment significantly reduced TTP, relative TTP, bolus arrival time, and washout slope at all arterial ROIs and full width at half maximum and area under the curve at some arterial ROIs. Bolus arrival time was significantly reduced after treatment for all arterial ROIs, the parietal vein, and the superior sagittal sinus. The maximum enhancement and wash-in slope did not show significant changes after treatment. After treatment, the relative TTP from the ICA to M1, M2, and the parietal vein returned to normal values.

CONCLUSIONS

In addition to TTP and relative TTP, other parameters can be used to evaluate peritherapeutic cerebral hemodynamic changes. Bolus arrival time has the potential to evaluate brain circulation at arterial and venous sites, especially when TTP cannot be measured because of an incomplete time-concentration curve.

Transcranial Doppler ultrasound in neurovascular diseases: diagnostic and therapeutic aspects

Albeit no direct anatomical information can be obtained, neurosonological methods provide real-time determination of velocity, and spectral waveform of blood flow in basal intracranial arteries adds significant benefit to the care of the patients with neurovascular diseases. Several features, such as relative simplicity in terms of interpretation and performance, significantly low cost, totally non-invasiveness, portability, and excellent temporal resolution, make neurosonology increasingly popular tool for evaluation, planning, and monitoring of treatment, and for determining prognosis in various neurovascular diseases. Usefulness of transcranial Doppler in diagnosing/monitoring subarachnoid hemorrhage related vasospasm and sickle cell vasculopathy is already well known. Utility in diagnosis of intracranial arterial stenosis, acute occlusion and recanalization, intracranial hemodynamic effect of the cervical arterial pathologies, intracranial pressure increase, and cerebral circulatory arrest are also well established. Neurosonological determination of vasomotor reactivity, cerebral autoregulation, neurovascular coupling, and micro-embolic signals detection are useful in the assessment of stroke risk, diagnosis of right-to-left shunting, and monitoring during surgery and interventional procedures. Transcranial Doppler is also an evolving ultrasound method with a therapeutic potential such as augmentation of clot lysis and cerebral delivery of thrombolytic or neuroprotective agent loaded nanobubbles in neurovascular diseases. The aim of this study is to give an overview of current usage of the different ultrasound modalities in different neurovascular diseases.

Detecting traumatic internal carotid artery dissection using transcranial Doppler in head-injured patients

PURPOSE

The early diagnosis of traumatic internal carotid artery dissection (TICAD) is essential for initiating appropriate treatment and improving outcome. We searched for criteria from transcranial Doppler (TCD) measurements on admission that could be associated with subsequent TICAD diagnosis in patients with traumatic brain injury (TBI).

METHODS

We conducted a retrospective 1:4 matched (age, mean arterial blood pressure) cohort study of 11 TBI patients with TICAD and absent or mild brain lesions on initial CT scan, 22 TBI controls with comparable brain CT scan lesions (controls 1), and 22 TBI controls with more severe brain CT scan lesions (controls 2) on admission. TCD measurements were obtained on admission from both middle cerebral arteries (MCA). All patients had subsequent CT angiography to diagnose TICAD.

RESULTS

A >25% asymmetry in the systolic blood flow velocity between the two MCA was found in 9/11 patients with TICAD versus 0/22 in controls 1 and 5/22 in controls 2 (p < 0.01). The combination of this asymmetry with an ipsilateral pulsatility index < or =0.80 was found in 9/11 patients with TICAD versus none in the two groups of controls (p < 0.01).

CONCLUSIONS

Our results suggest that significant asymmetry in the systolic blood flow velocity between the MCAs and a reduced ipsilateral pulsatility index could be criteria from TCD measurements associated with the occurrence of TICAD in head-injured patients. If prospectively validated, these findings could be incorporated in screening protocols for TICAD in patients with TBI.

[Cardiovascular disease in diabetes mellitus: classical and non-classical risk factors]

Cardiovascular disease, which includes coronary heart disease (CHD), cerebrovascular disease (CVD), and peripheral vascular disease (PVD), is the leading cause of mortality in populations, particularly in the diabetic one. Individuals with diabetes have at least a two-fold to four-fold increased risk of having cardiovascular events and a double risk of death compared with age-matched subjects without diabetes. A decline in mortality from CVD has been shown, but decline due to CHD is consistently lower in individuals with diabetes when compared with non-diabetics. The presence of several factors in diabetes leads to high occurrence of CVD such as hyperglycemia, insulin resistance, and classical and non-classical risk factors (systemic hypertension, dyslipidemia, obesity, proinflammatory condition and others). It is possible that the atherogenic role of obesity may be at least in part due to increased adipocyte production of cytokines. Considering the marked association of diabetes and CVD and unfavorable prognosis following an event, it is important to identify who is at high risk and how to screen. The American Heart Association and American Diabetes Association recommend risk stratification using diagnostic tests. However, the challenge is to accurately identify patients without a prior history of an event and those without symptoms strongly suggesting CVD, in whom additional testing would be indicated in order to achieve the most effective prevention. The benefits of glycemic control and the other risk factors have already been shown and justify optimization of the management of this high-risk population, aiming to reduce cardiovascular mortality disease and improve quality of life.

Prevention of Ischemic Stroke

The primary risk factors for stroke are known, and attention to primary care of these disorders should reduce the incidence of stroke significantly. Control of hypertension, diabetes, and hyperlipidemia have all been shown to reduce the rate of stroke. Identification of potential cardioembolic sources of stroke, particularly atrial fibrillation, can prevent stroke with appropriate application of anticoagulation. Duplex Doppler B-mode sonography can establish the extent of carotid artery disease in patients with cervical bruit or risk factors for atherosclerosis, and indicate which conditions should be managed medically or surgically. Patients with a history suggestive of transient ischemic attacks can also be screened noninvasively with duplex sonography to determine if they have a critical carotid stenosis and require carotid endarterectomy. New advances in platelet antiaggregant therapy with ticlopidine, clopidogrel, and the combination of aspirin with dipyridamole have also reduced the rate of stroke to a greater degree than standard treatment with aspirin. The incidence of this devastating illness could possibly be reduced by 50% with attentive primary care management. The cardiologist is often involved in the treatment of patients at risk for stroke, and is in an ideal position to provide this care.

US of neurovascular occlusive disease: interpretive pearls and pitfalls

Ultrasonography (US) of the head and neck is a convenient but operator-dependent screening tool for detection and diagnosis of neurovascular occlusive disease. In US examination of the extracranial carotid arteries, stenosis is most commonly graded according to the peak systolic Doppler velocity in the region of maximal luminal narrowing rather than according to the percentage of atheromatous plaque occupying the lumen. However, the peak systolic velocity is not always reliable in estimation of the degree of stenosis. General diagnostic pitfalls include technical difficulties with scanning, failure to review the spectral waveform patterns, the presence of additional stenotic lesions, and anatomic variants. Specific examples of pitfalls include tandem lesions, differentiation of pseudo-occlusion from true total occlusion, pseudonormalization of velocities in cases of very severe stenosis, lesions of the carotid artery origin or aortic valve, progression of subclavian steal, underestimation of severe stenosis due to heavily calcified plaque, a persistent trigeminal artery, and contralateral carotid artery stenosis. Although conventional angiography remains the standard of reference for assessment of carotid artery disease, recognition of these common sources of error in US can improve the accuracy of this noninvasive test in diagnosis of carotid artery occlusion.

Prevention of ischemic stroke

The primary risk factors for stroke are known, and attention to primary care of these disorders should reduce the incidence of stroke significantly. Control of hypertension, diabetes, and hyperlipidemia have all been shown to reduce the rate of stroke. Identification of potential cardioembolic sources of stroke, particularly atrial fibrillation, can prevent stroke with appropriate application of anticoagulation. Duplex Doppler B-mode sonography can establish the extent of carotid artery disease in patients with cervical bruit or risk factors for atherosclerosis, and indicate which conditions should be managed medically or surgically. Patients with a history suggestive of transient ischemic attacks can also be screened noninvasively with duplex sonography to determine if they have a critical carotid stenosis and require carotid endarterectomy. New advances in platelet antiaggregant therapy with ticlopidine, clopidegril, and the combination of aspirin with dipyridamole have also reduced the rate of stroke to a greater degree than standard treatment with aspirin. The incidence of this devastating illness could possibly be reduced by 50% with attentive primary care management. The cardiologist is often involved in the treatment of patients at risk for stroke, and is in an ideal position to provide this care.

Ophthalmic artery flow direction on color flow duplex imaging is highly specific for severe carotid stenosis

BACKGROUND/PURPOSE

Collateral flow patterns are important risk factors for brain ischemia in the presence of internal carotid artery (ICA) stenosis or occlusion. Ophthalmic artery (OA) flow reversal, routinely studied by transcranial Doppler sonography, is an important marker for high-grade ICA stenosis or occlusion. The authors sought to define the value of assessing OA flow direction with color flow duplex ultrasonography (CDUS) in the setting of significant ICA disease.

METHODS

Of all patients having routine carotid ultrasound in the neurosonology laboratory between July 1995 and November 2000, 152 had both carotid and orbital (OA flow direction by reduced power orbital CDUS) examinations as well as angiographic confirmation of stenosis to which North American Symptomatic Carotid Endarterectomy Trial criteria could be applied. Degree of angiographic stenosis in these 152 patients (304 arteries) was correlated with OA flow direction.

RESULTS

Of 304 arteries, 101 had greater than 80% stenosis by angiogram. In 56 of these 101 arteries with high-grade stenosis or occlusion, the ipsilateral OA was reversed; however, OA flow direction was never reversed ipsilateral to arteries with less than 80% stenosis (sensitivity 55%, specificity 100%, negative predictive value 82%, and positive predictive value 100% for OA flow reversal as a marker of high-grade carotid lesions).

DISCUSSION/CONCLUSIONS

OA flow direction is easily studied with CDUS. Reversed OA flow direction is highly specific (100%) for severe ipsilateral ICA stenosis or occlusion, with excellent positive predictive value, moderate negative predictive value, and limited sensitivity. OA flow reversal is not only quite specific for severe ICA disease, which may be helpful if the carotid CDUS is difficult or inadequate, but may also provide additional hemodynamic insights (i.e., the inadequacy of other collateral channels such as the anterior communicating artery). OA evaluation can provide important hemodynamic information and should be included as part of carotid CDUS if there is any evidence of ICA stenosis or occlusion.

Asymptomatic Internal Carotid Artery Origin Stenosis

Proper therapy for patients with internal carotid artery stenosis requires a precise pathophysiologic diagnosis that includes characterization and localization of ischemic disease of the brain and knowledge of the arterial disease and the collateral cerebral circulation. Noninvasive techniques such as duplex ultrasound and transcranial Doppler, magnetic resonance angiography, and CT angiography allow precise determination of the stroke subtype and parent arterial pathology. Antiplatelet agents prevent the formation of thrombus on carotid artery atherosclerotic plaque. 3-Hydroxy-3-methyglutaryl coenzyme A reductase inhibitors may help stabilize carotid plaques by altering the plaque morphology and reducing inflammation. Carotid endarterectomy, which is the only procedure proven to be beneficial for patients with asymptomatic disease, should be considered primary intervention. Until ongoing trials for interventional procedures are completed, carotid artery angioplasty and stenting should be considered only in patients with contraindications to carotid endarterectomy. It can be argued that an ideal clinical trial in a high-risk population has not yet been completed. This factor has become even more important with the development of stenting procedures. We have long advocated a trial of only treating patients with hemodynamically significant stenotic lesions (70% to 99%).

A broad diagnostic battery for bedside transcranial Doppler to detect flow changes with internal carotid artery stenosis or occlusion

BACKGROUND AND PURPOSE

The authors establish accuracy parameters of a broad diagnostic battery for bedside transcranial Doppler (TCD) to detect flow changes due to internal carotid artery (ICA) stenosis or occlusion.

METHODS

The authors prospectively studied consecutive patients with stroke or transient ischemic attack referred for TCD. TCD was performed and interpreted at bedside using a standard insonation protocol. A broad diagnostic battery included major criteria: collateral flow signals, abnormal siphon or terminal carotid signals, and delayed systolic flow acceleration in the middle cerebral artery. Minor criteria included a unilateral decrease in pulsatility index (< or = 0.6 or < or = 70% of contralateral side), flow diversion signs, and compensatory velocity increase. Angiography or carotid duplex ultrasound (CDU) was used to grade the degree of carotid stenosis using North American criteria. Sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) of TCD findings were determined.

RESULTS

Seven hundred and twenty patients underwent TCD, of whom 517 (256 men and 261 women) had angiography and/or CDU within 8.8 +/- 0.9 days. Age was 63.1 +/- 15.7 years. For a 70% to 99% carotid stenosis or occlusion, TCD had sensitivity of 79.4%, specificity of 86.2%, PPV of 57.0%, NPV of 94.8%, and accuracy of 84.7%. For a 50% to 99% carotid stenosis or occlusion, TCD had sensitivity of 67.5%, specificity of 83.9%, PPV of 54.5%, NPV of 90.0%, and accuracy of 81.6%. TCD detected intracranial carotid lesions with 84.9% accuracy and extracranial carotid lesions with 84.4% accuracy (sensitivity of 88% and 79%, specificity of 85% and 86%, PPV of 24% and 54%, and NPV of 99% and 95%, respectively). The prevalence of the ophthalmic artery flow reversal was 36.4% in patients with > or = 70% stenosis or occlusion. If present, this finding indicated a proximal ICA lesion location in 97% of these patients.

CONCLUSIONS

In symptomatic patients, bedside TCD can accurately detect flow changes consistent with hemodynamically significant ICA obstruction; however, TCD should not be a substitute for direct carotid evaluation. Because TCD is sensitive and specific for a > or = 70% carotid stenosis or occlusion in both extracranial and intracranial carotid segments, it can be used as a complementary test to refine other imaging findings and detect tandem lesions.

Postoperative neurologic assessment and management of the cardiac surgical patient

The neurologic evaluation of patients in the immediate postoperative period and postanesthetic state is unique and challenging. Neurologic assessment is complicated by the lingering residual effects of anesthetics as well as by the effects of narcotic analgesics, anxiolytics, and muscle relaxants, especially in ventilated patients. In this review we examine the suspected causes, clinical manifestations, diagnostic options, and intervention schemes for the common neurologic syndromes seen after cardiac operations.

Diagnostic evaluation of stroke

Diagnostic testing in patients with ischemic stroke serves many purposes, including confirmation of the diagnosis and providing clues as to possible causes. Evaluation of the cerebral vasculature, the heart, the blood coagulation system, and selected other diagnostic tests may point to a mechanism of stroke which helps determine treatment and prognosis. With the recent advent of acute interventions for ischemic stroke, diagnostic testing is now an important component in the emergency management of stroke. In this article, the authors will review the standard approach to diagnostic testing for patients with ischemic stroke or transient ischemic attack, and new developments in neuro-imaging and their use in acute stroke assessment.

Comparison of transcranial Doppler ultrasound and computed tomography angiography in symptomatic middle cerebral artery stenosis

Transcranial Doppler ultrasound (TCD) and computed tomography angiography (CTA) of 10 patients with middle cerebral artery territory stroke were studied. To obtain data from patients with presumed in situ middle cerebral artery (MCA) stenosis, the study excluded patients with a known source of cardiac emboli, significant carotid stenosis and classical lacunar syndrome. As the gold standard for this study, CTA demonstrated MCA stenosis in all patients (100%), while abnormal TCDs suggesting MCA stenoses were found in only six patients (60%). The stenotic sites differed among patients with normal and abnormal TCDs. Patients with false negative TCDs were found to have more distal lesions (distal M1 or M2 segment) whereas patients with TCD abnormalities tend to have more proximal lesions as demonstrated by CTA. It is concluded that an abnormal TCD is highly suggestive of stenosis of MCA. A normal TCD, however, does not exclude such a lesion, especially in patients with distal M1 or M2 stenoses. Therefore, TCD may not be the best screening test for intracranial vascular stenotic lesion in MCA territory stroke.

Evaluation of posterior cerebral artery flow velocity by transcranial color-coded real-time sonography

Using transcranial color-coded real-time sonography (TCCS), we measured peak-systolic flow velocities (PSVs) in segment P2 of 102 posterior cerebral arteries (PCAs) in 61 patients, with angiography. We divided 102 PCAs into four groups: control group (n = 70) with no significant stenotic lesions; PCS group (n = 7) with stenosis >/= 50% of P2 segment; Col (+) group (n = 13) and Col (-) group (n = 12) had occlusive lesions in the carotid system with or without collateral flow from PCA to the middle cerebral artery through the leptomeningeal anastomosis. In the PCS group, PSV (255.7 +/- 67.2 cm/s) was higher than in the other three groups (p < 0.0001). PSV was higher in the Col (+) group (127.6 +/- 31.2) than in the Col (-) (86.6 +/- 20.1) and control (83.8 +/- 24.8) groups (p < 0.001). The measurement of PSV in the P2 segment of PCA using TCCS may help to identify a significant stenosis in PCA.