TY - JOUR
T1 - Segmental analysis of carotid arterial strain using speckle-tracking
AU - Yang, Eric Y.
AU - Dokainish, Hisham
AU - Virani, Salim S.
AU - Misra, Arunima
AU - Pritchett, Allison M.
AU - Lakkis, Nasser
AU - Brunner, Gerd
AU - Bobek, Jaromir
AU - McCulloch, Marti L.
AU - Hartley, Craig J.
AU - Ballantyne, Christie M.
AU - Nagueh, Sherif F.
AU - Nambi, Vijay
N1 - Funding Information:
Drs. Yang and Dokainish contributed equally to this publication. Dr. Yang was supported by training grant T32 HL007812 from the National Institutes of Health/National Heart, Lung, and Blood Institute (Bethesda, MD) and a postdoctoral fellowship grant from the American Heart Association South Central Affiliate (Austin, TX) at different times during this study. Dr. Virani is supported by a Veterans Affairs Career Development Award. Dr. Nambi is supported by grant K23 HL096893 from the National Institutes of Health/National Heart, Lung, and Blood Institute .
PY - 2011/11
Y1 - 2011/11
N2 - Background: Increased arterial stiffness has been shown to be associated with aging and cardiovascular risk factors. Speckle-tracking algorithms are being used to measure myocardial strain. The aims of this study were to evaluate whether speckle-tracking could be used to measure carotid arterial strain (CAS) reproducibly in healthy volunteers and to determine if CAS was lesser in individuals with diabetes. Methods: Bilateral electrocardiographically gated ultrasound scans of the distal common carotid arteries (three cardiac cycles; 14-MHz linear probe; mean frame rate, 78.7 ± 8.9 frames/sec) were performed twice (2-4 days apart) on 10 healthy volunteers to test repeatability. Differences in CAS between healthy subjects (n = 20) and patients with diabetes (n = 21) were examined. Peak CAS was measured in each of six equal segments, and averages of all segments (i.e., the global average), of the three segments nearest the probe, and of the three segments farthest from the probe (i.e., the far wall average) were obtained. Results: Global CAS (intraclass correlation coefficient = 0.40) and far wall average (intraclass correlation coefficient = 0.63) had the greatest test-retest reliability. Global and far wall averaged CAS values were lower in patients with diabetes (4.29% [SE, 0.27%] and 4.30% [SE, 0.44%], respectively) than in controls (5.48% [SE, 0.29%], P =.001, and 5.58% [SE, 0.44%], P =.003, respectively). This difference persisted after adjustment for age, gender, race, and hemodynamic parameters. Conclusions: Speckle-tracking to measure CAS is feasible and modestly reliable. Patients with diabetes had lower CAS obtained with speckle-tracking compared with healthy controls.
AB - Background: Increased arterial stiffness has been shown to be associated with aging and cardiovascular risk factors. Speckle-tracking algorithms are being used to measure myocardial strain. The aims of this study were to evaluate whether speckle-tracking could be used to measure carotid arterial strain (CAS) reproducibly in healthy volunteers and to determine if CAS was lesser in individuals with diabetes. Methods: Bilateral electrocardiographically gated ultrasound scans of the distal common carotid arteries (three cardiac cycles; 14-MHz linear probe; mean frame rate, 78.7 ± 8.9 frames/sec) were performed twice (2-4 days apart) on 10 healthy volunteers to test repeatability. Differences in CAS between healthy subjects (n = 20) and patients with diabetes (n = 21) were examined. Peak CAS was measured in each of six equal segments, and averages of all segments (i.e., the global average), of the three segments nearest the probe, and of the three segments farthest from the probe (i.e., the far wall average) were obtained. Results: Global CAS (intraclass correlation coefficient = 0.40) and far wall average (intraclass correlation coefficient = 0.63) had the greatest test-retest reliability. Global and far wall averaged CAS values were lower in patients with diabetes (4.29% [SE, 0.27%] and 4.30% [SE, 0.44%], respectively) than in controls (5.48% [SE, 0.29%], P =.001, and 5.58% [SE, 0.44%], P =.003, respectively). This difference persisted after adjustment for age, gender, race, and hemodynamic parameters. Conclusions: Speckle-tracking to measure CAS is feasible and modestly reliable. Patients with diabetes had lower CAS obtained with speckle-tracking compared with healthy controls.
KW - Carotid arteries
KW - Diabetes mellitus
KW - Elasticity
KW - Speckle-tracking
KW - Ultrasonography
UR - http://www.scopus.com/inward/record.url?scp=80055010295&partnerID=8YFLogxK
U2 - 10.1016/j.echo.2011.08.002
DO - 10.1016/j.echo.2011.08.002
M3 - Article
AN - SCOPUS:80055010295
SN - 0894-7317
VL - 24
SP - 1276-1284.e5
JO - Journal of the American Society of Echocardiography
JF - Journal of the American Society of Echocardiography
IS - 11
ER -