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6.1.2 Fluctuation, circadian rhythms (81)
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Display all abstracts in classification 6.1.2 Fluctuation, circadian rhythms
Search within classification 6.1.2 Fluctuation, circadian rhythms86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Ayaki M
Diagnostics (Basel, Switzerland) 2020; 10:
86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Maeng B
Lab on a chip 2020; 20: 1740-1750
86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Carnero E
PLoS ONE 2020; 15: e0229856
86619 Implantable self-aligning fiber-optic optomechanical devices for in vivo intraocular pressure-sensing in artificial cornea
Hui PC
Journal of biophotonics 2020; 13: e202000031
86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Yang D
American Journal of Ophthalmology 2020; 215: 112-117
86520 Correlation and Agreement Between Water Drinking Test and Modified Diurnal Tension Curve in Untreated Glaucoma Patients in Nigeria
Olatunji OP
Journal of Glaucoma 2020; 29: 498-503
86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Jasien JV
Investigative Ophthalmology and Visual Science 2020; 61: 37
86812 Device profile of the EYEMATE-IO™ system for intraocular pressure monitoring: overview of its safety and efficacy
Enders P
Expert Review of Medical Devices 2020; 17: 491-497
86334 Continuous intraocular pressure monitoring in patients with obstructive sleep apnea syndrome using a contact lens sensor
Carnero E
PLoS ONE 2020; 15: e0229856
86193 The impact of intraocular pressure fluctuations and other factors on conversion of ocular hypertension to primary open-angle glaucoma
Hopf S
International Ophthalmology 2020; 40: 1403-1410
86820 Initial experience in self-monitoring of intraocular pressure
McGarva E
European Journal of Ophthalmology 2020; 0: 1120672120920217
86468 Circadian Regulation of IOP Rhythm by Dual Pathways of Glucocorticoids and the Sympathetic Nervous System
Ikegami K
Investigative Ophthalmology and Visual Science 2020; 61: 26
86814 Using 24-hr ocular dimensional profile recorded with a sensing contact lens to identify primary open-angle glaucoma patients with intraocular pressure constantly below the diagnostic threshold
Shioya S
Acta Ophthalmologica 2020; 98: e1017-e1023
86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Xu J
ACS applied materials & interfaces 2020; 12: 18375-18384
86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Otsuka M
International Ophthalmology 2020; 40: 1963-1968
86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Wasilewicz R
British Journal of Ophthalmology 2020; 104: 1519-1523
86838 Evaluation and treatment of glaucoma 24hours a day. Where are we and where are we going?
Perucho-González L; García-Feijoó J
Archivos de la Sociedad EspaƱola de Oftalmologia 2020; 95: 345-352
86845 Photonic crystal-based smart contact lens for continuous intraocular pressure monitoring
Chang HK
Lab on a chip 2020; 20: 1740-1750
86206 First-in-human continuous 24-hour measurement of intraocular pressure and ocular pulsation using a novel contact lens sensor
Varidel T
British Journal of Ophthalmology 2020; 104: 1519-1523
86243 Correlation Between Office-Hour and Peak Nocturnal Intraocular Pressure in Patients Treated with Prostaglandin Analogs
Liu JHK
American Journal of Ophthalmology 2020; 215: 112-117
86759 Questionnaire survey on complications during 24-h measurement of intraocular pressure-related patterns with a contact lens sensor
Hayashi A
International Ophthalmology 2020; 40: 1963-1968
86280 Diurnal Cycle of Translaminar Pressure in Nonhuman Primates Quantified With Continuous Wireless Telemetry
Samuels BC
Investigative Ophthalmology and Visual Science 2020; 61: 37
86572 Highly Transparent and Sensitive Graphene Sensors for Continuous and Non-invasive Intraocular Pressure Monitoring
Cui T
ACS applied materials & interfaces 2020; 12: 18375-18384
86812 Device profile of the EYEMATE-IO™ system for intraocular pressure monitoring: overview of its safety and efficacy
Cursiefen C
Expert Review of Medical Devices 2020; 17: 491-497
86294 Tear Break-Up Time and Seasonal Variation in Intraocular Pressure in a Japanese Population
Negishi K
Diagnostics (Basel, Switzerland) 2020; 10:
