E-ISSN 2218-6050 | ISSN 2226-4485
 

Research Article 


Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors

Yulin Chen, Yunhao Su, Yingbo Liu, Lihui Yang, Fushan Shi, Ji Fu.


Abstract
Background:
Precise intraocular pressure (IOP) quantification is pivotal for investigating glaucoma pathophysiology and establishing reliable animal models.

Aim:
This study comprehensively evaluated the accuracy, precision, and reproducibility of the novel iFalcon™ V100 rebound tonometer using ex vivo and in vivo feline models, referenced against intracameral manometry.

Methods:
Four ex vivo feline eyes and one in vivo subject were included. In the ex vivo phase, IOP was hydrostatically modulated between 5 and 75 mmHg via anterior chamber cannulation. Simultaneous readings were recorded from the iFalcon™ V100 and the reference pressure transducer. Agreement was assessed using linear regression, Bland-Altman analysis, and stratified box plots. In the in vivo phase, bilateral measurements were performed by two independent operators using both the iFalcon™ V100 and an iCare tonometer (Tonovet) to evaluate inter-operator reproducibility and inter-device comparability.

Results:
Linear regression analysis revealed a strong positive correlation between iFalcon™ V100 readings and manometry. Although a slight proportional bias (slope > 1.0) was observed in the high-IOP range—attributed to feline corneal biomechanics—the device maintained excellent linearity. Bland-Altman analysis demonstrated high measurement accuracy with a mean bias of only 0.41 mmHg and 95% limits of agreement (LoA) ranging from -4.17 to 5.00 mmHg. Stratified analysis indicated robust stability within the high-pressure challenge range (30–70 mmHg); however, data acquisition rates decreased during hypotony (<10 mmHg) due to corneal damping effects. In vivo assessments showed no statistically significant differences between operators (P > 0.05) and demonstrated high consistency with the iCare tonometer.

Conclusion:
The iFalcon™ V100 rebound tonometer exhibits sub-mmHg mean accuracy and a wide-range linear response in feline models. Despite a minor species-specific proportional bias, its superior repeatability and inter-operator stability validate its utility as a reliable, non-invasive tool for feline ophthalmic research and longitudinal glaucoma monitoring.

Key words: Intraocular pressure; iFalcon™ V100; Rebound tonometer; Feline model.


 
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How to Cite this Article
Pubmed Style

Chen Y, Su Y, Liu Y, Yang L, Shi F, Fu J. Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. doi:10.5455/OVJ.2026.v16.i7.61


Web Style

Chen Y, Su Y, Liu Y, Yang L, Shi F, Fu J. Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. https://www.openveterinaryjournal.com/?mno=314201 [Access: July 16, 2026]. doi:10.5455/OVJ.2026.v16.i7.61


AMA (American Medical Association) Style

Chen Y, Su Y, Liu Y, Yang L, Shi F, Fu J. Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. doi:10.5455/OVJ.2026.v16.i7.61



Vancouver/ICMJE Style

Chen Y, Su Y, Liu Y, Yang L, Shi F, Fu J. Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. doi:10.5455/OVJ.2026.v16.i7.61



Harvard Style

Chen, Y., Su, . Y., Liu, . Y., Yang, . L., Shi, . F. & Fu, . J. (2026) Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. doi:10.5455/OVJ.2026.v16.i7.61



Turabian Style

Chen, Yulin, Yunhao Su, Yingbo Liu, Lihui Yang, Fushan Shi, and Ji Fu. 2026. Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. doi:10.5455/OVJ.2026.v16.i7.61



Chicago Style

Chen, Yulin, Yunhao Su, Yingbo Liu, Lihui Yang, Fushan Shi, and Ji Fu. "Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors." doi:10.5455/OVJ.2026.v16.i7.61



MLA (The Modern Language Association) Style

Chen, Yulin, Yunhao Su, Yingbo Liu, Lihui Yang, Fushan Shi, and Ji Fu. "Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors." doi:10.5455/OVJ.2026.v16.i7.61



APA (American Psychological Association) Style

Chen, Y., Su, . Y., Liu, . Y., Yang, . L., Shi, . F. & Fu, . J. (2026) Dynamic accuracy of feline rebound tonometry: Validation via implanted sensors. doi:10.5455/OVJ.2026.v16.i7.61