Comparison of human tear film osmolarity measured by electrical impedance and freezing point depression techniques

Tear hyperosmolarity is diagnostic of dry eye disease (DED), yet difficulty in measurement has limited its utility; development of new instruments could facilitate its clinical application. This study compares the new OcuSense TearLab osmometer (OcuSense, Inc, San Diego, CA), based on electrical imp...

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Published in	Cornea Vol. 29; no. 9; p. 1036
Main Authors	Tomlinson, Alan, McCann, Louise C, Pearce, Edward I
Format	Journal Article
Language	English
Published	United States 01.09.2010
Subjects	Adult Diagnostic Techniques, Ophthalmological - instrumentation Dry Eye Syndromes - diagnosis Electric Impedance False Positive Reactions Female Humans Male Osmolar Concentration Predictive Value of Tests Reproducibility of Results Sensitivity and Specificity Tears - chemistry Transition Temperature Vapor Pressure
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ISSN	1536-4798
DOI	10.1097/ICO.0b013e3181cd9a1d

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Abstract	Tear hyperosmolarity is diagnostic of dry eye disease (DED), yet difficulty in measurement has limited its utility; development of new instruments could facilitate its clinical application. This study compares the new OcuSense TearLab osmometer (OcuSense, Inc, San Diego, CA), based on electrical impedance "lab-on-a-chip" nanoliter technology, with the freezing point depression Clifton Osmometer (Clifton Technical Physics, Hartford, NY). Thirty-six subjects were recruited: 15 DED (9 women, 6 men age: 41 +/- 16 years) and 21 controls (12 women, 9 men age: 35 +/- 12 years); criteria for DED were noninvasive tear breakup time <10 seconds, Schirmer I test <5 mm, and positive symptoms. Samples were collected from the inferior tear meniscus for testing with both osmometers. Osmolarity values measured with OcuSense TearLab were 308 +/- 6 and 321 +/- 16 mOsm/L for controls and dry eye, respectively, and those measured with Clifton were 310 +/- 7 and 323 +/- 14 mOsm/L for controls and dry eye, respectively; these values were significantly different. Significant correlation was found between OcuSense and Clifton measurements (r = 0.904; P = 0.006). Bland-Altman analysis revealed agreement between techniques; the majority of points fell within the 95% confidence limits, and actual values differed by less than 1%. A cutoff value of >316 mOsm/L, derived from the distribution of osmolarity values, was used to diagnose DED with an effectiveness of 73% sensitivity, 90% specificity, and 85% positive predictive value for the OcuSense and 73% sensitivity, 71% specificity, and 65% positive predictive value for the Clifton in the study samples. Tear film osmolarity measured with the OcuSense TearLab system correlates well with the Clifton Osmometer. The new instrument has the potential to provide clinicians with a readily available clinically applicable measure, which could become the gold standard in DED.
AbstractList	Tear hyperosmolarity is diagnostic of dry eye disease (DED), yet difficulty in measurement has limited its utility; development of new instruments could facilitate its clinical application. This study compares the new OcuSense TearLab osmometer (OcuSense, Inc, San Diego, CA), based on electrical impedance "lab-on-a-chip" nanoliter technology, with the freezing point depression Clifton Osmometer (Clifton Technical Physics, Hartford, NY). Thirty-six subjects were recruited: 15 DED (9 women, 6 men age: 41 +/- 16 years) and 21 controls (12 women, 9 men age: 35 +/- 12 years); criteria for DED were noninvasive tear breakup time <10 seconds, Schirmer I test <5 mm, and positive symptoms. Samples were collected from the inferior tear meniscus for testing with both osmometers. Osmolarity values measured with OcuSense TearLab were 308 +/- 6 and 321 +/- 16 mOsm/L for controls and dry eye, respectively, and those measured with Clifton were 310 +/- 7 and 323 +/- 14 mOsm/L for controls and dry eye, respectively; these values were significantly different. Significant correlation was found between OcuSense and Clifton measurements (r = 0.904; P = 0.006). Bland-Altman analysis revealed agreement between techniques; the majority of points fell within the 95% confidence limits, and actual values differed by less than 1%. A cutoff value of >316 mOsm/L, derived from the distribution of osmolarity values, was used to diagnose DED with an effectiveness of 73% sensitivity, 90% specificity, and 85% positive predictive value for the OcuSense and 73% sensitivity, 71% specificity, and 65% positive predictive value for the Clifton in the study samples. Tear film osmolarity measured with the OcuSense TearLab system correlates well with the Clifton Osmometer. The new instrument has the potential to provide clinicians with a readily available clinically applicable measure, which could become the gold standard in DED.
Author	Pearce, Edward I Tomlinson, Alan McCann, Louise C
Author_xml	– sequence: 1 givenname: Alan surname: Tomlinson fullname: Tomlinson, Alan email: a.tomlinson@gcal.ac.uk organization: Department of Vision Sciences, Glasgow Caledonian University, United Kingdom. a.tomlinson@gcal.ac.uk – sequence: 2 givenname: Louise C surname: McCann fullname: McCann, Louise C – sequence: 3 givenname: Edward I surname: Pearce fullname: Pearce, Edward I
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SubjectTerms	Adult Diagnostic Techniques, Ophthalmological - instrumentation Dry Eye Syndromes - diagnosis Electric Impedance False Positive Reactions Female Humans Male Osmolar Concentration Predictive Value of Tests Reproducibility of Results Sensitivity and Specificity Tears - chemistry Transition Temperature Vapor Pressure
Title	Comparison of human tear film osmolarity measured by electrical impedance and freezing point depression techniques
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