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The analysis of corneal asphericity (Q value) and its related factors of 1,683 Chinese eyes older than 30 years.B cell receptor signaling pathway involved in benign lymphoepithelial lesions of the lacrimal gland.Evaluation of MR imaging findings differentiating cavernous haemangiomas from schwannomas in the orbit.Complement System in the Pathogenesis of Benign Lymphoepithelial Lesions of the Lacrimal GlandWords of Wisdom: Re: Long-term Results of Thulium Laser Resection of the Prostate: A Prospective Study at Multiple Centers.Role of IgG4 serology in identifying common orbital lymphoproliferative disordersRelationship between dacryoadenitis subtype of idiopathic orbital inflammatory pseudotumor and paranasal sinusitis.Reproducibility of Perfusion Parameters of Optic Disc and Macula in Rhesus Monkeys by Optical Coherence Tomography Angiography.Genome Wide Association Study Identifies L3MBTL4 as a Novel Susceptibility Gene for HypertensionGut microbiota dysbiosis contributes to the development of hypertension.Lymphoma and inflammation in the orbit: Diagnostic performance with diffusion-weighted imaging and dynamic contrast-enhanced MRI.Pharmacokinetics of pilsicainide hydrochloride for injection in healthy Chinese volunteers: a randomized, parallel-group, open-label, single-dose study.Early auditory preverbal skills development in Mandarin speaking children with cochlear implants.Role of periodically rotated overlapping parallel lines with enhanced reconstruction diffusion-weighted imaging in correcting distortion and evaluating head and neck masses using 3 T MRI.Multiparametric MRI findings of sinonasal rhabdomyosarcoma in adults with comparison to carcinoma.miRNA Profiling of Exosomes from Spontaneous Hypertensive Rats Using Next-Generation Sequencing.Sigmoid plate dehiscence: congenital or acquired condition?Growth pattern of temporal bone pneumatization: a computed tomography study with consecutive age groupsThe distinguishing cellular features of pulmonary artery smooth muscle cells from chronic thromboembolic pulmonary hypertension patientsEffectiveness of 3 T PROPELLER DUO diffusion-weighted MRI in differentiating sinonasal lymphomas and carcinomasThree-dimensional visualization of rat retina by X-ray differential phase contrast tomographic microscopyClinical Predictors of Frontal Ostium Restenosis After Draf 3 Procedure for Refractory Chronic RhinosinusitisMR imaging and CT features of oncocytic papilloma of the sinonasal tract with comparison to inverted papillomaIGFBP5 promotes angiogenic and neurogenic differentiation potential of dental pulp stem cellsInvestigation of inner ear anatomy in mouse using X-ray phase contrast tomographyUltrasound measurements versus invasive intracranial pressure measurement method in patients with brain injury: a retrospective studyImaging re-evaluation of the tympanic segment of the facial nerve canal using cone-beam computed tomography compared with multi-slice computed tomographyCerebral Blood Flow Alterations in High Myopia: An Arterial Spin Labeling Study
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Q33703600-FB0D0C29-7476-43EF-B23B-07AA043EBA82Q33706040-DE0596DD-8486-479C-A3C2-E38F86B577BFQ34037534-C493A8DB-AB18-4BB9-B6A1-5E686E42267EQ35915651-0CE9B449-A77C-4EC8-B764-A11AC81DBAABQ35994539-7F18B5CE-E9C1-4E91-AC2B-44B3B977E688Q36601741-5A53ECA3-1BE6-4826-AA3E-F4EA17B7DFA0Q36832977-52401D3E-B537-49CD-B608-4E3F31BA69DDQ36856575-48AAD316-3296-426B-9CA9-CBE5B6A6016DQ37144556-704280DC-78DD-420D-8C57-FFC4DFF56F7AQ37618646-E42E05AD-AD18-442B-9AE8-05CD28F2D298Q38959737-32BCEEB8-33BC-45B1-96E2-77915B351971Q42640650-3F5ACAF9-07E4-41DC-9E36-972FE1AFB477Q44189422-0C56B59D-F7DE-49AD-B16B-C347295966F4Q45283039-CBA5AEE7-BA42-4438-8904-46CC6D41716AQ51802340-7F544158-3638-45D7-B5A2-6EA78D996F55Q52646898-0DBBA65D-8E52-43FF-9D47-CE2B808E471EQ53027354-55F072C1-F9A9-443F-807C-85573F898F44Q58558005-BAE09712-A72C-4B78-87A6-C845942F7BC2Q86044211-4C736B68-637C-43C4-A25D-4EA6ABF59A93Q87554535-EE182E9C-C85A-4CF0-81E3-56F63274BCD9Q88155323-D8E426F8-4DFC-4CE0-B41F-B5AB3F170C5EQ88612157-1A67A685-133E-4495-90D6-AF615128F2E4Q89485519-1825D824-78DE-4F99-9630-9E498136EC2BQ90625284-A2C6578E-81E5-4129-9139-D2A811C8C8C5Q91014342-ED82817B-D73D-4DD8-839D-82775782EABCQ91659808-E71C6FB5-C406-4E70-A5CA-DFC6A4C189C2Q91720022-BCA76296-BF17-475B-B621-D3B5E53104CDQ94601611-D8160174-D1E2-4665-B5EE-6B6BB6277D2A
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description
researcher (ORCID 0000-0001-9392-6600)
@en
name
Jing Li
@en
type
label
Jing Li
@en
prefLabel
Jing Li
@en
P31
P496
0000-0001-9392-6600