about
Marked increases in mucociliary clearance produced by synergistic secretory agonists or inhibition of the epithelial sodium channel.Neck circumference and lowest oxygen saturation are independently associated with high coexistence of hypertension in obstructive sleep apneaProtease-activated receptor 2-dependent fluid secretion from airway submucosal glands by house dust mite extract.Von-Willebrand disease presenting as intractable epistaxis after nasal polypectomyThe dimension of hyoid bone is independently associated with the severity of obstructive sleep apnea.Hypoxia-mediated mechanism of MUC5AC production in human nasal epithelia and its implication in rhinosinusitis.Tongue Volume Influences Lowest Oxygen Saturation but Not Apnea-Hypopnea Index in Obstructive Sleep Apnea.Inhibition of airway surface fluid absorption by cholinergic stimulationLowest Oxyhemoglobin Saturation May Be an Independent Factor Influencing Auditory Function in Severe Obstructive Sleep Apnea.Treatment outcomes of sinonasal adenoid cystic carcinoma: 30 cases from a single institution.Differential characteristics of pediatric sinusitis in patients who underwent endoscopic sinus surgery: children vs. adolescents.Role of surgical treatment for esthesioneuroblastomas: 31-Year experience at a single institution.Thick airway surface liquid volume and weak mucin expression in pendrin-deficient human airway epithelia.Th2 cytokines differentially regulate psoriasin expression in human nasal epithelia.Alteration of Inflammatory Mediators in the Upper and Lower Airways under Chronic Intermittent Hypoxia: Preliminary Animal Study.Synergistic mucus secretion by histamine and IL-4 through TMEM16A in airway epithelium.Comparison of robotic and coblation tongue base resection for obstructive sleep apnoea.Damage of Inner Ear Sensory Hair Cells via Mitochondrial Loss in a Murine Model of Sleep Apnea With Chronic Intermittent Hypoxia.Chronological Change of Right Ventricle by Chronic Intermittent Hypoxia in Mice.Predictors of success in combination of tongue base resection and lateral pharyngoplasty for obstructive sleep apnea.Hypoxia Modulates Epithelial Permeability via Regulation of Vascular Endothelial Growth Factor in Airway Epithelia.Endoscope-guided coblator tongue base resection using an endoscope-holding system for obstructive sleep apnea.Newly developed method for mouse olfactory behavior tests using an automatic video tracking system.Oxygen Matters: Hypoxia as a Pathogenic Mechanism in Rhinosinusitis.Development of a Gustatory Function Test for Clinical Application in Korean Subjects.Radiological comparison of inferior turbinate hypertrophy between allergic and non-allergic rhinitis: does allergy really augment turbinate hypertrophy?Robotic nasopharyngectomy via combined endonasal and transantral port: a preliminary cadaveric study.T-helper 2 cytokine-induced heat shock protein 70 secretion and its potential association with allergic rhinitis.Surgical outcomes of overlapping lateral pharyngoplasty with or without coblator tongue base resection for obstructive sleep apnea.Endoscopic surgery for inverted papilloma originating from the sphenoid sinus and related clinical characteristics.Computational analysis of airflow dynamics for predicting collapsible sites in the upper airways: A preliminary studyMultiple airborne allergen-induced eosinophilic chronic rhinosinusitis murine model.Neural Dynamics of Olfactory Perception: Low- and High-Frequency Modulations of Local Field Potential Spectra in Mice Revealed by an Oddball Stimulus.Results of salvage therapy after failure of initial treatment for advanced olfactory neuroblastomaMeasurement of fluid secretion from intact airway submucosal glandsImproved outcomes after low-concentration hypochlorous acid nasal irrigation in pediatric chronic sinusitisIn response to Improved outcomes after low-concentration hypochlorous acid nasal irrigation in pediatric chronic sinusitisBetter surgical outcome by image-guided navigation system in endoscopic removal of sinonasal inverted papillomaCan drug-induced sleep endoscopy improve the success rates of tongue base surgery?Sinonasal pleomorphic adenoma: A single institution case series combined with a comprehensive review of literatures
P50
Q30828169-B72D95FC-C0DD-41BC-A666-3F4456B03E93Q33941632-DF254F11-9FC7-4D31-B577-025AB9DA7891Q34111487-49679113-68B5-46DE-930E-0F477B1C7039Q34153104-B79304A3-7976-48E7-B0BA-1D5DA23360E8Q35061262-36259EF0-1F7E-4FDF-B116-9E1FB820A88DQ35170901-52A2C0A9-7E92-4493-86EF-549BF9CC978FQ35747707-0A9090EA-29CF-48B9-A195-17BEA4FB7F78Q36548925-A9297E90-A716-402D-8E99-AFADB8894197Q36897043-4C4B3925-9170-4E50-A587-76DE1FB464F5Q38147673-599DC73B-2D3E-445D-9B69-7F5D770E081EQ38609553-7D72AC52-B5DB-4DF3-87DE-AECA69637724Q39191232-72E14DD8-56CA-40A1-9856-6F195EC4CB36Q40660110-3C4EB58D-884E-4B97-A26F-0A1BC072C7ECQ41596026-8B53BE21-C8D9-457B-A31A-760109BA52BDQ42361196-D292BF9D-1CB9-4CC3-9F53-B5303A922C52Q46360480-ECC38B22-FD7B-484B-81EE-0E7A7E7AE48EQ47299426-36AC659A-7DA1-43C7-9D2C-D5D32C5E00D5Q47682701-94F41A51-4666-4169-A674-B8CF3A723C9BQ47717912-1E16E028-D1A9-4D33-8A27-BD4EE3A02B92Q47761064-6B941C69-2B10-4875-A448-50533F11AEBCQ47867638-2549EF2F-17CA-417C-8D36-EEA9CEE975FFQ47919296-0038A6B0-AB9E-40D8-8056-2AD0F03C128DQ48564568-B0B65BCC-0EAA-4B0D-B692-2D2C21B4342BQ49797908-AF9322DB-8349-402A-9411-E6FBC6F75D36Q50045221-1C3F8D84-4FD6-49F8-928A-920BBB244946Q50126333-5471066B-445D-40D3-A8AE-B4AF2596EBCDQ50931034-268E32FA-D320-410E-814D-1A794029CE34Q50971659-87FAC5E8-C548-4527-B5D4-925FBF2E674DQ53077781-06589294-4E18-4489-AB74-D95441BDD040Q53405299-FA822AB5-1B8D-4605-96CA-638A0271CBC1Q58565531-E63B760C-14E0-48ED-96A7-BB8B8A52832BQ64906789-BE37D3A7-7DEA-4F6D-B8B8-E079879E1CD3Q64996341-FE951A37-96EC-45C7-AA39-C80609819673Q80803139-A91FC7E0-B601-4BFE-B662-56975D776E61Q84050975-84FFB80D-CA25-4EEB-9016-E2D23C6A451AQ86162182-B31F4A1D-DB78-45EC-B3DF-BAC10CA432D3Q87658001-10B46357-5DC7-4F44-8F1F-7E2158633DB9Q88424858-69D1D7C1-7145-49E3-B384-847EDD2005C2Q89863814-9CD4F991-A2F1-46EF-B213-6C4D2094CC53Q91026171-E9013575-111D-4C17-BF1C-77EE566DFBF2
P50
description
researcher ORCID ID = 0000-0002-2851-3225
@en
wetenschapper
@nl
name
Hyung-Ju Cho
@ast
Hyung-Ju Cho
@en
Hyung-Ju Cho
@es
Hyung-Ju Cho
@nl
type
label
Hyung-Ju Cho
@ast
Hyung-Ju Cho
@en
Hyung-Ju Cho
@es
Hyung-Ju Cho
@nl
prefLabel
Hyung-Ju Cho
@ast
Hyung-Ju Cho
@en
Hyung-Ju Cho
@es
Hyung-Ju Cho
@nl
P31
P496
0000-0002-2851-3225