Terms: = Brain cancer AND SND1, Q7KZF4, TDRD11, p100, ENSG00000197157, 27044
31 results:
1. Application of remimazolam-0.6% sevoflurane anesthesia for flash visual evoked potential monitoring during pituitary adenoma resection: a non-inferiority randomized controlled trial.
Shi F; Tang R; Du X; Li X; Wu G
BMC Anesthesiol; 2024 Feb; 24(1):85. PubMed ID: 38424486
[TBL] [Abstract] [Full Text] [Related]
2. Efficacy of intraoperative visual evoked potential amplitude reduction in predicting visual outcome after extended endoscopic endonasal resection of craniopharyngiomas.
Tao X; Fan X; Gui S; Liu J; Yang X; Li K; Yang J; Li C; Qiao H
J Neurosurg; 2024 May; 140(5):1270-1275. PubMed ID: 37948695
[TBL] [Abstract] [Full Text] [Related]
3. Cleavage of tropomodulin-3 by asparagine endopeptidase promotes cancer malignancy by actin remodeling and snd1/RhoA signaling.
Chen B; Wang M; Qiu J; Liao K; Zhang W; Lv Q; Ma C; Qian Z; Shi Z; Liang R; Lin Y; Ye J; Qiu Y; Lin Y
J Exp Clin Cancer Res; 2022 Jun; 41(1):209. PubMed ID: 35765111
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4. Multimodal Imaging and Visual Evoked Potentials Reveal Key Structural and Functional Features That Distinguish Symptomatic From Presymptomatic Huntington's Disease brain.
Thota SM; Chan KL; Pradhan SS; Nagabushana B; Priyanka GB; Sunil HV; Kanneganti V; Vasoya P; Vinnakote KM; Viswamitra S; Thambisetty M; Kumar D; Tiwari V; Joshy EV; Sivaramakrishnan V
Neurol India; 2021; 69(5):1247-1258. PubMed ID: 34747792
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5. Alterations in the Global Proteome and Phosphoproteome in Third Generation EGFR TKI Resistance Reveal Drug Targets to Circumvent Resistance.
Zhang X; Maity TK; Ross KE; Qi Y; Cultraro CM; Bahta M; Pitts S; Keswani M; Gao S; Nguyen KDP; Cowart J; Kirkali F; Wu C; Guha U
Cancer Res; 2021 Jun; 81(11):3051-3066. PubMed ID: 33727228
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6. Clinical utility of complex assessment with evoked potentials in acute lymphoblastic leukemia survivors: comparison of various treatment protocols.
Kroczka S; Stepien K; Witek-Motyl I; Kwiecinska K; Kapusta E; Biedron A; Skorek P; Skoczen S
BMC Cancer; 2021 Feb; 21(1):150. PubMed ID: 33568096
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7. Visual function assessed by visually evoked potentials in adults with orbital and other primary intracranial tumors.
Dotto PF; Berezovsky A; Sacai PY; Rocha DM; Fernandes AG; Salomão SR
Eur J Ophthalmol; 2021 May; 31(3):1351-1360. PubMed ID: 32468859
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8. Preoperative visual evoked potential in the prediction of visual outcome after pituitary macroadenomas surgery.
Taghvaei M; Sadrehosseini SM; Ostadrahimi N; Sarraf P; Zeinalizadeh M
Pituitary; 2019 Aug; 22(4):397-404. PubMed ID: 31140112
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9. The novel chromatin architectural regulator snd1 promotes glioma proliferation and invasion and predicts the prognosis of patients.
Yu L; Xu J; Liu J; Zhang H; Sun C; Wang Q; Shi C; Zhou X; Hua D; Luo W; Bian X; Yu S
Neuro Oncol; 2019 Jun; 21(6):742-754. PubMed ID: 30753603
[TBL] [Abstract] [Full Text] [Related]
10. The importance of the electrophysiological tests in the early diagnosis of ganglion cells and/or optic nerve dysfunction coexisting with pituitary adenoma: an overview.
Lachowicz E; Lubiński W
Doc Ophthalmol; 2018 Dec; 137(3):193-202. PubMed ID: 30374652
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11. miR-320a functions as a suppressor for gliomas by targeting snd1 and β-catenin, and predicts the prognosis of patients.
Li H; Yu L; Liu J; Bian X; Shi C; Sun C; Zhou X; Wen Y; Hua D; Zhao S; Ren L; An T; Luo W; Wang Q; Yu S
Oncotarget; 2017 Mar; 8(12):19723-19737. PubMed ID: 28160566
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12. MAPK activation and HRAS mutation identified in pituitary spindle cell oncocytoma.
Miller MB; Bi WL; Ramkissoon LA; Kang YJ; Abedalthagafi M; Knoff DS; Agarwalla PK; Wen PY; Reardon DA; Alexander BM; Laws ER; Dunn IF; Beroukhim R; Ligon KL; Ramkissoon SH
Oncotarget; 2016 Jun; 7(24):37054-37063. PubMed ID: 27175596
[TBL] [Abstract] [Full Text] [Related]
13. Inhibitory effect of miR-184 on the potential of proliferation and invasion in human glioma and breast cancer cells in vitro.
Feng R; Dong L
Int J Clin Exp Pathol; 2015; 8(8):9376-82. PubMed ID: 26464691
[TBL] [Abstract] [Full Text] [Related]
14. Tumor necrosis factor-like weak inducer of apoptosis (TWEAK) promotes glioma cell invasion through induction of NF-κB-inducing kinase (NIK) and noncanonical NF-κB signaling.
Cherry EM; Lee DW; Jung JU; Sitcheran R
Mol Cancer; 2015 Jan; 14(1):9. PubMed ID: 25622756
[TBL] [Abstract] [Full Text] [Related]
15. Suppression of miR-184 in malignant gliomas upregulates snd1 and promotes tumor aggressiveness.
Emdad L; Janjic A; Alzubi MA; Hu B; Santhekadur PK; Menezes ME; Shen XN; Das SK; Sarkar D; Fisher PB
Neuro Oncol; 2015 Mar; 17(3):419-29. PubMed ID: 25216670
[TBL] [Abstract] [Full Text] [Related]
16. Usefulness of intraoperative monitoring of visual evoked potentials in transsphenoidal surgery.
Kamio Y; Sakai N; Sameshima T; Takahashi G; Koizumi S; Sugiyama K; Namba H
Neurol Med Chir (Tokyo); 2014; 54(8):606-11. PubMed ID: 25070017
[TBL] [Abstract] [Full Text] [Related]
17. Smac mimetic promotes glioblastoma cancer stem-like cell differentiation by activating NF-κB.
Tchoghandjian A; Jennewein C; Eckhardt I; Momma S; Figarella-Branger D; Fulda S
Cell Death Differ; 2014 May; 21(5):735-47. PubMed ID: 24488095
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18. Identification of non-canonical NF-κB signaling as a critical mediator of Smac mimetic-stimulated migration and invasion of glioblastoma cells.
Tchoghandjian A; Jennewein C; Eckhardt I; Rajalingam K; Fulda S
Cell Death Dis; 2013 Mar; 4(3):e564. PubMed ID: 23538445
[TBL] [Abstract] [Full Text] [Related]
19. Visual evoked potentials in patients with pineal gland cyst.
Bosnjak J; Mikula I; Miskov S; Budisic M; Ivkic G; Demarin V
Wien Klin Wochenschr; 2012 Sep; 124(17-18):605-10. PubMed ID: 22869040
[TBL] [Abstract] [Full Text] [Related]
20. Identification and characterization of somatosensory off responses.
Spackman L; Boyd S; Towell T
Brain Res; 2006 Oct; 1114(1):53-62. PubMed ID: 16952337
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