[1] LI S,FISHER M. Improving large animal ischemic stroke models for
translational studies in the era of recanalization[J/OL]. Stroke,2023,54(1):e16-e19[2024-08-01]. https://doi.org/10.1161/STROKEAHA.122.041354.
[2] BARRETT K
M,LAL B K,MESCHIA
J F. Stroke:advances in medical therapy and acute
stroke intervention[J/OL]. Curr Cardiol Rep,2015,17(10):79[2024-08-01].
https://doi.org/10.1007/s11886-015-0637-1.
[3] TEDYANTO E,TINI K,PRAMANA N. Magnetic resonance imaging in acute ischemic
stroke[J/OL]. Cureus,2022,14(7):e27224[2024-08-01].
https://doi.org/10.7759/cureus.27224.
[4] LASOŃ W,JANTAS D,LEŚKIEWICZ M,et al. Vitamin D3 and ischemic stroke:a
narrative review[J/OL]. Antioxidants(Basel),2022,11(11):2120[2024-08-01].
https://doi.org/10.3390/antiox11112120.
[5] RAMADHONI P D. Mechanical thrombectomy as
the treatment of choice for ischemic stroke large vessel acocclusion[J]. Arkus,2021,4(1):191-194.
[6] PACHAY A
J Z,CHáVEZ E V E,CARRERA W A C,et al. Emerging therapies in
the management of acute ischemic stroke:innovative
approaches and clinical outcomes—a comprehensive
literature review[J]. International Journal of Medical Science and Clinical
Research Studies,2024,4(3):581-588.
[7] GONG P,ZHANG W,HE Y,et al.
Classification and characteristics of mesenchymal stem cells and its potential
therapeutic mechanisms and applications against ischemic stroke[J/OL]. Stem
Cells Int,2021,2021:2602871[2024-08-01].
https://doi.org/10.1155/2021/2602871.
[8] KIDWELL C
S,HSIA A W. Imaging of the brain and cerebral vasculature
in patients with suspected stroke:advantages and disadvantages
of CT and MRI[J]. Curr Neurol Neurosci Rep,2006,6(1):9-16.
[9] BANG
O Y,CHUNG J W,SON J P,et al. Multimodal MRI-based triage for acute stroke therapy:challenges and progress[J/OL]. Front Neurol,2018,9:586[2024-08-01].
https://doi.org/10.3389/fneur.2018.00586.
[10] ALBERS G W,THIJS V N,WECHSLER L,et al. Magnetic resonance imaging profiles predict clinical response
to early reperfusion:the diffusion and perfusion
imaging evaluation for understanding stroke evolution(DEFUSE)study[J]. Ann Neurol,2006,60(5):508-517.
[11] NEZU T,MUKAI T,UEMURA J,et
al. Multiple infarcts are associated with long-term stroke recurrence and
all-cause mortality in cryptogenic stroke patients[J]. Stroke,2016,47(9):2209-2215.
[12] CAO L M,HUANG X M,WANG H L. Relevance of small
right-to-left shunt in contrast-enhanced transcranial Doppler in young and
middle-aged patients with cryptogenic stroke:a report
of two cases and literature review[J]. Int J Neurosci,2022,132(11):1118-1122.
[13] YAO Q Y,XIONG H H,ZHANG D X,et
al. Synchronous multimode ultrasound for assessing right-to-left shunt:a prospective clinical study[J/OL]. Front Neurol,2023,14:1148846[2024-08-01].
https://doi.org/10.3389/fneur.2023.1148846.
[14] 姚漫涓,龙霞,任力杰,等. 同步经颅多普勒发泡试验联合对比增强经胸超声心动图在右向左分流中应用的研究进展[J].
中西医结合心脑血管病杂志,2023,21(20):3765-3767.
YAO
M J,LONG X,REN L J,et al. Research progress on simultaneous contrast-enhanced
transcranial Doppler foam test combined with contrast transthoracic echocardiography
in right-to-left shunt[J]. Chinese Journal of Integrative Medicine on
Cardio-Cerebrovascular Disease,2023,21(20):3765-3767.
[15] LIU R J,YU X D,ZHANG L P,et
al. Computed tomography(CT)imaging
evaluation of integrated traditional Chinese medicine cooperative therapy in
treating acute cerebral infarction:a randomized
controlled trial[J/OL]. Medicine(Baltimore),2020,99(18):e19998[2024-08-01]. https://doi.org/10.1097/MD.0000000000019998.
[16] GONZáLEZ-AQUINES A,MORENO-ANDRADE T,GóNGORA-RIVERA F,et al. The role of
tractography in ischemic stroke:a review of the
literature[J]. Medicina Universitaria,2018,20(4):161-165.
[17] LI X T,YUAN J L,HU W L. Vertebrobasilar artery
dissection manifesting as Millard-Gubler syndrome in a young ischemic stroke
patient:a case report[J]. World J Clin Cases,2019,7(1):73-78.
[18] FU P C,WANG J Y,SU Y,et al.
Intravascular ultrasonography assisted carotid artery stenting for treatment of
carotid stenosis:two case reports[J]. World J Clin
Cases,2023,11(29):7127-7135.
[19] ROBBA C,CARDIM D,SEKHON M,et
al. Transcranial Doppler:a stethoscope for the
brain-neurocritical care use[J]. J Neurosci Res,2018,96(4):720-730.
[20] XU W H,WANG H,WANG B,et al.
Disparate cardio-cerebral vascular modulation during standing in multiple system
atrophy and Parkinson disease[J]. J Neurol Sci,2009,276(1/2):84-87.
[21] 蔡华彬,范文捷,熊亦璇,等.
轻型急性缺血性卒中患者TCD卧立位试验与其预后的相关性研究[J]. 临床神经病学杂志,2022,35(5):355-358.
CAI H B,FAN W J,XIONG Y X,et al. Association
between supine-to-standing TCD test and prognosis in patients with mild acute
ischemic stroke[J]. J Clin Neurol,2022,35(5):355-358.
[22] PENG S J,CHEN Y W,YANG J Y,et
al. Automated cerebral infarct detection on computed tomography images based on
deep learning[J/OL]. Biomedicines,2022,10(1):122[2024-08-01].
https://doi.org/10.3390/biomedicines10010122.
[23] LI B,LIU G P. Magnetic resonance imaging image segmentation under
artificial intelligence neural network for evaluation of the effect of butyphthalide
combined with edaravone on neurological function in patients with acute
cerebral infarction[J/OL]. Front Neurorobot,2021,15:719145[2024-08-01].
https://doi.org/10.3389/fnbot.2021.719145.
[24] MURRAY N M,UNBERATH M,HAGER G D,et al. Artificial intelligence to diagnose ischemic stroke and
identify large vessel occlusions:a systematic
review[J]. J Neurointerv Surg,2020,12(2):156-164.
[25] MAINALI S,DARSIE M E,SMETANA K S. Machine learning in
action:stroke diagnosis and outcome prediction[J/OL]. Front
Neurol,2021,12:734345[2024-08-01]. https://doi.org/10.3389/fneur.2021.734345.
[26] CHEN Y J,SONG Y Y,HUANG J,et
al. Increased circulating exosomal miRNA-223 is associated with acute ischemic
stroke[J/OL]. Front Neurol,2017,8:57[2024-08-01]. https://doi.org/10.3389/fneur.2017.00057.
[27] OSTOLAZA A,BLANCO-LUQUIN I,URDáNOZ-CASADO
A,et al. Circular RNA expression profile in blood
according to ischemic stroke etiology[J/OL]. Cell Biosci,2020,10:34[2024-08-01].
https://doi.org/10.1186/s13578-020-00394-3.
[28] DOEHNER W,VON HAEHLING S,SUHR J,et al. Elevated plasma levels of neuropeptide proenkephalin A
predict mortality and functional outcome in ischemic stroke[J]. J Am Coll
Cardiol,2012,60(4):346-354.
[29] GOYAL M,HILL M D,SAVER J L,et
al. Challenges and opportunities of endovascular stroke therapy[J]. Ann Neurol,2016,79(1):11-17.
[30] SAVER J L,GOYAL M,BONAFE A,et
al. Stent-retriever thrombectomy after intravenous t-PA vs.
t-PA alone in stroke[J]. N Engl J Med,2015,372(24):2285-2295.
[31] ALBERS G W,MARKS M P,KEMP S,et
al. Thrombectomy for stroke at 6 to 16 hours with selection by perfusion
imaging[J]. N Engl J Med,2018,378(8):708-718.
[32] NOGUEIRA R
G,JADHAV A P,HAUSSEN
D C,et al. Thrombectomy 6 to 24 hours after stroke with
a mismatch between deficit and infarct[J]. N Engl J Med,2018,378(1):11-21.
[33] TURK A S,3rd,SIDDIQUI A,FIFI
J T,et al. Aspiration thrombectomy versus stent
retriever thrombectomy as first-line approach for large vessel occlusion(COMPASS):a multicentre,randomised,open label,blinded outcome,non-inferiority trial[J].
Lancet,2019,393(10175):998-1008.
[34] MA H,CAMPBELL B C V,PARSONS M W,et al. Thrombolysis guided by perfusion imaging up to 9 hours after
onset of stroke[J]. N Engl J Med,2019,380(19):1795-1803.
[35] HACKE W,DONNAN G,FIESCHI C,et
al. Association of outcome with early stroke treatment:pooled
analysis of ATLANTIS,ECASS,and
NINDS rt-PA stroke trials[J]. Lancet,2004,363(9411):768-774.
[36] LI S Y,GU H Q,LI H,et al.
Reteplase versus alteplase for acute ischemic stroke[J]. N Engl J Med,2024,390(24):2264-2273.
[37] XIONG Y Y,CAMPBELL B C V,SCHWAMM L H,et al. Tenecteplase for ischemic stroke at 4.5 to 24 hours without
thrombectomy[J]. N Engl J Med,2024,391(3):203-212.
[38] YAGHI S,WILLEY J Z,CUCCHIARA B,et al. Treatment and outcome of hemorrhagic transformation after
intravenous alteplase in acute ischemic stroke:a
scientific statement for healthcare professionals from the American Heart
Association/American Stroke Association[J/OL]. Stroke,2017,48(12):e343-e361[2024-08-01].
https://doi.org/10.1161/STR.0000000000000152.
[39] LU X C,ZHANG J,DING Y,et
al. Novel therapeutic strategies for ischemic stroke:recent
insights into autophagy[J/OL]. Oxid Med Cell Longev,2022,2022:3450207[2024-08-01].
https://doi.org/10.1155/2022/3450207.
[40] LI G L,YE C S,ZHU Y,et al.
Oxidative injury in ischemic stroke:a focus on NADPH oxidase
4[J/OL]. Oxid Med Cell Longev,2022,2022:1148874[2024-08-01].
https://doi.org/10.1155/2022/1148874.
[41] XU S B,LU J N,SHAO A W,et
al. Glial cells:role of the immune response in ischemic
stroke[J/OL]. Front Immunol,2020,11:294[2024-08-01].
https://doi.org/10.3389/fimmu.2020.00294.
[42] ZHANG Y,MA L H,REN C H,et al. Immediate remote ischemic
postconditioning reduces cerebral damage in ischemic stroke mice by enhancing
leptomeningeal collateral circulation[J]. J Cell Physiol,2019,234(8):12637-12645.
[43] DOEPPNER T
R,HERZ J,GÖRGENS
A,et al. Extracellular vesicles improve post-stroke
neuroregeneration and prevent postischemic immunosuppression[J]. Stem Cells
Transl Med,2015,4(10):1131-1143.
[44] DE KEYSER J. Autologous mesenchymal stem cell
transplantation in stroke patients[J]. Ann Neurol,2005,58(4):653-654.
[45] DEUS I A,MANO J F,CUSTóDIO C
A. Perinatal tissues and cells in tissue engineering and regenerative
medicine[J/OL]. Acta Biomater,2020,110:1-14[2024-08-01].
https://doi.org/10.1016/j.actbio.2020.04.035.
[46] NITO C,SUDA S,NITAHARA-KASAHARA Y,et al. Dental-pulp stem
cells as a therapeutic strategy for ischemic stroke[J/OL]. Biomedicines,2022,10(4):737[2024-08-01]. https://doi.org/10.3390/biomedicines10040737.
[47] PHAN T G,MA H,LIM R,et al.
Phase 1 trial of amnion cell therapy for ischemic stroke[J/OL]. Front Neurol,2018,9:198[2024-08-01].
https://doi.org/10.3389/fneur.2018.00198.
[48] LI B,OUCHI T,CAO Y B,et
al. Dental-derived mesenchymal stem cells:state of the
art[J/OL]. Front Cell Dev Biol,2021,9:654559[2024-08-01].
https://doi.org/10.3389/fcell.2021.654559.
[49] LI C,SUN T,JIANG C. Recent advances in
nanomedicines for the treatment of ischemic stroke[J]. Acta Pharm Sin B,2021,11(7):1767-1788.
[50] KONG J L,CHU R X,WANG Y. Neuroprotective treatments for ischemic stroke:opportunities for nanotechnology[J/OL]. Adv Funct Mater,2022,32(52):2209405[2024-08-01]. https://doi.org/10.1002/adfm.202209405.
[51] HAN Q,WANG C C,LIU J,et
al. Application of nanozymes and its progress
in the treatment of ischemic stroke[J]. Transl Stroke
Res,2024,15(5):880-892.
[52] ZHANG
H Y,ZHAO Z Q,SUN S N,et al. Molecularly self-fueled nano-penetrator for nonpharmaceutical
treatment of thrombosis and ischemic stroke[J/OL]. Nat Commun,2023,14(1):255[2024-08-01]. https://doi.org/10.1038/s41467-023-35895-5.
[53] ZHAO Y,LI Q,NIU J Y,et al.
Neutrophil membrane-camouflaged polyprodrug nanomedicine for inflammation
suppression in ischemic stroke therapy[J/OL]. Adv Mater,2024,36(21):e2311803[2024-08-01]. https://doi.org/10.1002/adma.202311803. |