Page 169 - 《应用声学》2020年第6期

P. 169

第 39 卷第 6 期杜宜纲等：血管超声成像之高级功能的技术特点与临床应用 963

[32] Ribatti D, Nico B, Crivellato E. The development of the hemodynamics at the carotid bifurcation[J]. Brain and Be-
vascular system: a historical overview[J]. Vascular Mor- havior, 2018, 8(11): e01139.
phogenesis, 2014: 1–14. [47] 徐斌, 张丹, 刘兴洲, 等. 颈动脉粥样硬化斑块内新生血管超
[33] Stein J H, Korcarz C E, Hurst R T, et al. Use of carotid ul- 声造影特点的初步临床研究 [J]. 中国卒中杂志, 2009, 4(7):
trasound to identify subclinical vascular disease and eval- 557–561.
uate cardiovascular disease risk: a consensus statement Xu Bin, Zhang Dan, Liu Xingzhou, et al. Neovasculariza-
from the american society of echocardiography carotid tion within carotid atherosclerotic plaques with contrast-
intima-media thickness task force. Endorsed by the so- enhanced ultrasonography angiography—Preliminary
ciety for vascular medicine[J]. Journal of the American clinical experience[J]. Chinese Journal of Stroke, 2009,
Society of Echocardiography, 2008, 21(2): 93–111. 4(7): 557–561.
[34] Mahmood B, Ewertsen C, Carlsen J, et al. Ultrasound [48] Amamoto T, Sakata N, Oqata T, et al. Intra-plaque
vascular elastography as a tool for assessing atheroscle- vessels on contrast-enhanced ultrasound sonography pre-
rotic plaques—A systematic literature review[J]. Ultra- dict carotid plaque histology[J]. Cerebrovascular Diseases,
sound International Open, 2016, 2(4): E106–E112. 2018, 46(5–6): 265–269.
[35] Ramnarine K V, Garrard J W, Kanber B, et al. Shear [49] Huang R, Abdelmoneim S S, Ball C A, et al. Detection
wave elastography imaging of carotid plaques: feasible, of carotid atherosclerotic plaque neovascularization using
reproducible and of clinical potential[J]. Cardiovascular contrast enhanced ultrasound: a systematic review and
Ultrasound, 2014, 12: 49. meta-analysis of diagnostic accuracy studies[J]. Journal of
[36] Naim C, Cloutier G, Mercure E, et al. Characterisation of
the American Society of Echocardiography, 2016, 29(6):
carotid plaques with ultrasound elastography: feasibility
491–502.
and correlation with high-resolution magnetic resonance
[50] 牛宏珍, 勇强, 张蕾, 等. 超微血流显像与超声造影评价极低
imaging[J]. European Radiology, 2013, 23(7): 2030–2041.
回声区斑块内新生血管分布的研究初探 [J]. 心肺血管病杂志,
[37] Huang C, Pan X, He Q, et al. Ultrasound-based carotid
2018, 37(12): 1046–1048, 1057.
elastography for detection of vulnerable atherosclerotic
Niu Hongzhen, Yong Qiang, Zhang Lei, et al. Superb
plaques validated by magnetic resonance imaging[J]. Ul-
microvascular imaging in evaluation of neovascularization
trasound in Medicine and Biology, 2016, 42(2): 365–377.
in carotid plague within juxtaluminal hypoechoic area in
[38] Luo J, Li R X, Konofagou E E. Pulse wave imaging of
ultrasonic images[J]. Journal of Cardiovascular and Pul-
the human carotid artery: an in vivo feasibility study[J].
monary Diseases, 2018, 37(12): 1046–1048, 1057.
IEEE Transactions on Ultrasonics, Ferroelectrics, and Fre-
[51] 张蕾, 勇强, 包晶晶, 等. 超微血流成像与彩色多普勒超声诊断
quency Control, 2012, 59(1): 174–181.
肾动脉狭窄的对比研究 [J]. 中国超声医学杂志, 2018, 34(10):
[39] Meinders J M, Hoeks A P G. Simultaneous assess-
911–915.
ment of diameter and pressure waveforms in the carotid
Zhang Lei, Yong Qiang, Bao Jingjing, et al. Compari-
artery[J]. Ultrasound in Medicine and Biology, 2004,
son on the diagnosis value between superb micro-vascular
30(2): 147–154.
imaging and color Doppler sonography in renal artery
[40] van Popele N M, Grobbee D E, Bots M L, et al. Associ-
stenosis[J]. Chinese Journal of Ultrasound in Medicine,
ation between arterial stiﬀness and atherosclerosis—The
2018, 34(10): 911–915.
Rotterdam study[J]. Stroke, 2001, 32(2): 454–460.
[52] 邓悦鸿, 高林. 利用彩色多普勒超声对白内障患者眼部血管
[41] Goddi A, Bortolotto C, Fiorina I, et al. High-frame rate
的血流动力学研究 [J]. 中国临床医学影像杂志, 2015, 26(9):
vector ﬂow imaging of the carotid bifurcation[J]. Insights
627–630.
Imaging, 2017, 8(3): 319–328.
Deng Yuehong, Gao Lin. Study on ophthalmic vascular
[42] Fiorina I, Raciti M V, Goddi A, et al. Ultrasound vector
hemodynamic with color Doppler ultrasound in patients
ﬂow imaging-could be a new tool in evaluation of arteri-
ovenous ﬁstulas for hemodialysis?[J] Journal of Vascular with cataract[J]. Journal of China Clinic Medical Imaging,
Access, 2017, 18(4): 284–289. 2015, 26(9): 627–630.
[43] Hansen P M, Olesen J B, Pihl M J, et al. Volume [53] Yiu B Y S, Yu A C H. GPU-based minimum vari-
ﬂow in arteriovenous ﬁstulas using vector velocity ul- ance beamformer for synthetic aperture imaging of the
trasound[J]. Ultrasound in Medicine and Biology, 2014, eye[J]. Ultrasound in Medicine and Biology, 2015, 41(3):
40(11): 2707–2714. 871–883.
[44] Hansen K L, Moller-Sorensen H, Kjaergaard J, et al. Aor- [54] Grant E G, Benson C B, Moneta G L, et al. Carotid artery
tic valve stenosis increases helical ﬂow and ﬂow complex- stenosis: gray-scale and Doppler US diagnosis-Society of
ity—A study of intraoperative cardiac vector ﬂow imag- radiologists in ultrasound consensus conference[J]. Radi-
ing[J]. Ultrasound in Medicine and Biology, 2017, 43(8): ology, 2003, 229(2): 340–346.
1607–1617. [55] Australasian Society for Ultrasound in Medicine. Guide-
[45] Brandt A H, Moshavegh R, Hansen K L, et al. Vector lines, policies and statements d14 colour duplex Doppler
ﬂow imaging compared with pulse wave Doppler for esti- ultrasound extracranial carotid artery disease [EB/OL].
mation of peak velocity in the portal vein[J]. Ultrasound [2015-09]. [2020-03-01]. https://www.ultrasound paedia.
in Medicine and Biology, 2018, 44(3): 593–601. com/uploads/53003/uﬁles/Carotid/Pathology/ASUM_
[46] Meyer P, Pelz J O. Blood ﬂow reversal from the exter- 2015-Duplex-Ultrasound-Extracranial-Carotid-Artery-
nal into the internal carotid artery—New insights into the Disease.pdf.

164 165 166 167 168 169 170 171 172 173 174