The role of artificial intelligence in analysis of biofluid markers for diagnosis and management of glaucoma: A systematic review

Pucchio, Aidan; Krance, Saffire H.; Pur, Daiana R.; Bassi, Arshpreet; Miranda, Rafael N; Felfeli, Tina

doi:10.1177/11206721221140948

Cited by 3 publications

(3 citation statements)

References 67 publications

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“…The use of biomarker analysis with artificial intelligence has been demonstrated in many ophthalmic diseases, such as glaucoma, uveitis, uveal melanoma, age-related macular degeneration, corneal and ocular surface diseases, and retinal occlusive diseases. [8][9][10][11][12] Herein, we evaluated the variability of intraocular inflammatory biomarkers in multiplex assays of intraocular biofluid samples.…”

Section: Introductionmentioning

confidence: 99%

Variability of Replicates of Intraocular Inflammatory Biomarkers in Ocular Fluid Samples Analyzed with Multiplex Assays

Lamoureux,

Wong,

Felfeli

2023

OPTH

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Certain factors such as instrumental and sample processing errors may contribute to variability of ocular biofluid samples when they are run as replicates with multiplex assays. There is a paucity of literature on the variability of replicates in multiplex assays. This study aims to evaluate whether there is significant variability in replicate analyses of multiplex assays. Methods: A total of 152 human ocular biofluid samples (51 aqueous humor and 101 vitreous) were collected and assayed for 27 cytokine biomarker concentrations (pg/mL). Samples were evaluated as replicates (duplicate analysis) at four different time points. Statistical methods including paired samples t-test, 3-way ANOVA, intraclass correlation coefficient (ICC; <0.5-0.75=poor-moderate, 0.75->0.90 =good-excellent reliability), and coefficients of variation (CV) were employed to evaluate for statistical significance, with Bonferroni corrected P=0.002. Results: Among the 4104 biomarker replicate assays for aqueous humor and vitreous, two analytes (PDGF-BB and IL-7) had a statistically significant difference between the sampled concentrations of the replicates in vitreous samples (mean (diff)=2.05, P<0.001, mean (diff)=1.56, P<0.001, respectively). Majority of the ICC values fell within the good-excellent range (86% of samples) with a minority falling in the poor-moderate range (14% of samples). More variability was noted in the vitreous humour, with five analytes (IL-2, IL-10, IL-12(p70), IL-13, IL-17) demonstrating an average ICC of less than 0.5. The CV calculated for each set of replicates suggested that 93% of replicates had an acceptable level of quantitative assay variability (CV<20%). Conclusion:This study demonstrates that the analysis of most biomarkers in ocular fluids may not require the use of replicates. However, certain analytes such as PDGF-BB and IL-7 may require the use of replicates to ensure reliable results. Caution should be taken when applying these findings to other laboratory settings as our study was conducted by an experienced technician using a standardized protocol. In less standardized settings, replicates may be required in order to ensure accuracy of results. These findings may guide researchers with the design of their studies on ophthalmic biomarker analysis.

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Section: Introductionmentioning

confidence: 99%

Variability of Replicates of Intraocular Inflammatory Biomarkers in Ocular Fluid Samples Analyzed with Multiplex Assays

Lamoureux,

Wong,

Felfeli

2023

OPTH

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“…Cytokines are low-molecular-weight glycoprotein molecules produced by both immune and non-immune cells that serve as indicators of normal biological processes, pathogenic processes or pharmacological responses to a therapeutic intervention 1. Recently, there has been a growing interest in using cytokines in aqueous humour and vitreous collected via anterior chamber (AC) paracentesis and vitreous sampling, respectively, as surrogate markers to understand disease pathogenesis, monitor disease progression and assess treatment response 2–12. Given the emerging research and clinical practices based on cytokine analysis, it is imperative to ensure that methodologies to measure cytokines are robust.…”

Section: Introductionmentioning

confidence: 99%

“…1 Recently, there has been a growing interest in using cytokines in aqueous humour and vitreous collected via anterior chamber (AC) paracentesis and vitreous sampling, respectively, as surrogate markers to understand disease pathogenesis, monitor disease progression and assess treatment response. [2][3][4][5][6][7][8][9][10][11][12] Given the emerging research and clinical practices based on cytokine analysis, it is imperative to ensure that methodologies to measure cytokines are robust. Any conclusions drawn from poor handling of the ocular samples and unreliable method of cytokine quantification could potentially result in misled clinical decisions with negative outcomes.…”

Section: Introductionmentioning

confidence: 99%

Evaluating the long-term biological stability of cytokine biomarkers in ocular fluid samples

Felfeli,

Park,

Nestor

et al. 2023

BMJ Open Ophth

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PurposeThe quality of biological fluid samples is vital for optimal preanalytical procedures and a requirement for effective translational biomarker research. This study aims to determine the effects of storage duration and freeze-thawing on the levels of various cytokines in the human aqueous humour and vitreous samples.Methods and analysisHuman ocular aqueous humour and vitreous samples were obtained from 25 eyes and stored at −80°C for analysis. All samples were assayed for 27 cytokine biomarker concentrations (pg/mL) using a multiplex assay. Four sample storage durations following sample collection were evaluated (1 week, 3 months, 9 months and 15 months). Additionally, samples underwent up to three freeze-thaw cycles within the study period.ResultsAmong the 27 cytokine biomarkers, concentrations of four cytokines (Interleukin (IL)−2, IL-10, IL-12 and platelet-derived growth factor-BB) were significantly decreased by storage duration at all time points, as early as 3 months following sample collection (range of 9%–37% decline between 1 week and 15 months, p<0.001). Freeze-thawing of up to three cycles did not significantly impact the cytokine biomarker concentrations in aqueous humour or vitreous. Separability of patient-specific cytokine biomarker profiles in the principal component analysis remained relatively the same over the 15 months of storage duration.ConclusionThe findings from this study suggest that several intraocular cytokine biomarkers in human aqueous humour and vitreous samples may be susceptible to degradation with long-term storage, as early as 3 months after collection. The overall patient-specific cytokine biomarker profiles are more stable than concentrations of individual cytokines. Future studies should focus on developing guidelines for optimal and standardised sample handling methods to ensure correct research findings about intraocular biomarkers are translated into clinical practice.

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Applications of artificial intelligence and bioinformatics methodologies in the analysis of ocular biofluid markers: a scoping review

Pucchio,

Krance,

Pur

et al. 2023

Graefes Arch Clin Exp Ophthalmol

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The role of artificial intelligence in analysis of biofluid markers for diagnosis and management of glaucoma: A systematic review

Cited by 3 publications

References 67 publications

Variability of Replicates of Intraocular Inflammatory Biomarkers in Ocular Fluid Samples Analyzed with Multiplex Assays

Variability of Replicates of Intraocular Inflammatory Biomarkers in Ocular Fluid Samples Analyzed with Multiplex Assays

Evaluating the long-term biological stability of cytokine biomarkers in ocular fluid samples

Applications of artificial intelligence and bioinformatics methodologies in the analysis of ocular biofluid markers: a scoping review

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