about
Safety of energy based devices for hemostasis in thyroid surgeryIntraoperative neural monitoring in thyroid surgery: lessons learned from animal studiesEarly intact PTH (iPTH) is an early predictor of postoperative hypocalcemia for a safer and earlier hospital discharge: an analysis on 260 total thyroidectomiesIndocyanine green-enhanced fluorescence for assessing parathyroid perfusion during thyroidectomyContinuous intraoperative neural monitoring of the recurrent nerves in thyroid surgery: a quantum leap in technology.Posterior cricoarytenoid muscle electrophysiologic changes are predictive of vocal cord paralysis with recurrent laryngeal nerve compressive injury in a canine model.The electrophysiology of thyroid surgery: electrophysiologic and muscular responses with stimulation of the vagus nerve, recurrent laryngeal nerve, and external branch of the superior laryngeal nerve.Vocal cord paralysis predicted by neural monitoring electrophysiologic changes with recurrent laryngeal nerve compressive neuropraxic injury in a canine model.Transoral thyroidectomy: why is it needed?Giant lipoma arising from deep lobe of the parotid gland.Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case reportMorbidity after total thyroidectomy for benign thyroid disease: comparison of Graves' disease and non-Graves' disease.Anatomical variations of recurrent laryngeal nerve during thyroid surgery: how to identify and handle the variations with intraoperative neuromonitoring.Continuous monitoring of the recurrent laryngeal nerve in thyroid surgery: a critical appraisal.Endoscopic screening for synchronous esophageal neoplasia among patients with incident head and neck cancer: Prevalence, risk factors, and outcomes.Neuromonitoring in endoscopic and robotic thyroidectomy.Stimulating dissecting instruments during neuromonitoring of RLN in thyroid surgery.Safety of LigaSure in recurrent laryngeal nerve dissection-porcine model using continuous monitoring.Severity of Recurrent Laryngeal Nerve Injuries in Thyroid Surgery.The mechanism of recurrent laryngeal nerve injury during thyroid surgery--the application of intraoperative neuromonitoring.Gastric acid secretion and gastrin release during continuous vagal neuromonitoring in thyroid surgery.Novel quantitative analysis of autofluorescence images for oral cancer screening.Recurrent laryngeal nerve management in thyroid surgery: consequences of routine visualization, application of intermittent, standardized and continuous nerve monitoring.Recurrent laryngeal nerve safety parameters of the Harmonic Focus during thyroid surgery: Porcine model using continuous monitoring.Usefulness of CBCT and guidance software for percutaneous embolization of a lymphatic leakage after thyroidectomy for cancer.Electromyographic study of differential sensitivity to succinylcholine of the diaphragm, laryngeal and somatic muscles: a swine model.Recent developments in the follow-up, prevention and management of complications in thyroid surgery.Intraoperative neuromonitoring for the early detection and prevention of RLN traction injury in thyroid surgery: a porcine model.Preoperative, intraoperative and postoperative anesthetic prospective for thyroid surgery: what's new.Association between polymorphisms in DNA base excision repair genes XRCC1, APE1, and ADPRT and differentiated thyroid carcinoma.The efficacy of intraoperative corticosteroids in recurrent laryngeal nerve palsy after thyroid surgery.Speech therapy after thyroidectomy.Trachway video intubating stylet allows for optimization of electromyographic endotracheal tube placement for monitored thyroidectomy.Comparison of EMG signals recorded by surface electrodes on endotracheal tube and thyroid cartilage during monitored thyroidectomy.The feasibility of sugammadex for general anesthesia and facial nerve monitoring in patients undergoing parotid surgery.Exclusive real-time monitoring during recurrent laryngeal nerve dissection in conventional monitored thyroidectomy.Reversal of rocuronium-induced neuromuscular blockade by sugammadex allows for optimization of neural monitoring of the recurrent laryngeal nerve.Analyzing cost-effectiveness of neural-monitoring in recurrent laryngeal nerve recovery course in thyroid surgery.Influence of intravenous anesthetics on neuromonitoring of the recurrent laryngeal nerve during thyroid surgery.Optimal depth of NIM EMG endotracheal tube for intraoperative neuromonitoring of the recurrent laryngeal nerve during thyroidectomy.
P50
Q28067716-355435FC-62D6-405C-A2F9-D15A8668540FQ28077073-25D08197-5163-4BAD-A869-450ACC320530Q28077154-BF54D6A1-785D-40DF-9BEE-F6024D532964Q28079744-5A697CAA-46A7-4207-8231-8084BED77EADQ30313493-B104A942-C0C0-486E-838F-080FA67FE3F1Q30313810-430C5D64-6A7B-4F68-AA9C-B50F639FC5C1Q30314149-CC9E6DAA-655D-4102-8503-1D155AB0D09FQ30316200-BF90372C-0A6E-46F5-AAE2-0F2CFDEB036EQ33890079-6E53BEDF-9083-4291-9DA8-26520CCF0C08Q34691473-2F23A330-DBF0-4A5D-9D02-E367D9CDA7B2Q35744982-002189E8-BBCA-40E8-810E-219DC2AF4E53Q36655711-923A4CB0-63A9-4000-BDD9-1ED9AC61707EQ37815302-9843DC2B-CC02-43CB-BFB0-7388C010A14AQ38174938-B65E47D8-555B-4957-AFCA-5B5DD8F296D9Q38652479-0E624C3E-94F0-45CE-8A5B-AF4A79F98BEAQ38821654-71D307A9-85E3-4060-BBA9-F9C0500BECB4Q39025186-C3AFC6D5-94F4-4725-8ADB-51E67CA4E9C1Q39437439-B1FB566D-6D83-44D3-B649-AC09E3A31397Q40053335-5EA56622-9C71-469D-8540-394E5BCFA224Q40081851-5A3556E5-E0E7-4BD6-A2A5-04353EA5E635Q40364710-D78CACAA-F670-4BC8-9E29-8977DB264994Q40463550-D30A46BC-ABCA-4F56-B120-4F2527979A58Q40572455-956EFACC-8B3B-4BA1-ADB1-5EA8ABBBCB64Q40710490-45AF30E7-BC68-4E1E-8F6F-4C1318F96A49Q41891255-84721288-37D4-4475-8808-C43AD91FB94AQ42772047-188DB6AE-52FF-426A-AF55-AD0993DF7591Q44097169-E465261F-4F99-44CA-AA2E-62E97035EEE4Q45011212-5C4234BE-B434-4870-95A3-8986411057B9Q46315760-4E8A131A-A0D6-439E-A27D-78BAA7CA2895Q46380723-5CADB267-4674-40C2-B3F7-B450044B596FQ46945452-44C0E3A6-2F6F-483E-B8AB-50BB08A3FF48Q47149636-E0ECF6B8-61F2-40C2-BAE3-7C94BF19D8B6Q47163927-31CC190F-7C39-4D25-A6CB-DB24B388E8E6Q47247415-B30A51F3-C9D2-4175-958C-9F203E4F8A7EQ47262747-354C73A2-47E8-41BE-99DF-3C9B6488A952Q47438302-D72A5F45-ECC1-424A-B435-5DB1B9ED478CQ47606088-583C9AD5-3D7D-42E4-B784-D10FA0142C13Q47610276-9BF19ECC-4DEE-48D9-AAC8-5C357FD00208Q47784445-2F3C2FB8-5C20-4A2A-A96B-F13084E903F1Q47791046-26C3C441-1A8C-43B5-9AAB-B2E67FE49B61
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Che-Wei Wu
@ast
Che-Wei Wu
@en
Che-Wei Wu
@es
Che-Wei Wu
@nl
Che-Wei Wu
@sl
type
label
Che-Wei Wu
@ast
Che-Wei Wu
@en
Che-Wei Wu
@es
Che-Wei Wu
@nl
Che-Wei Wu
@sl
prefLabel
Che-Wei Wu
@ast
Che-Wei Wu
@en
Che-Wei Wu
@es
Che-Wei Wu
@nl
Che-Wei Wu
@sl
P106
P31
P3835
che-wei-wu2
P496
0000-0003-1052-5348