Intrasession repeatability of ocular anatomical measurements obtained with a multidiagnostic device in healthy eyes

Background To evaluate the intrasession repeatability of anterior chamber depth (ACD), central (CCT) and peripheral corneal thickness (PCT), white-to-white diameter (WTW), and irido-corneal angle (IA) measurements obtained with a multidiagnostic device in healthy eyes. Methods A total of 107 eyes of 107 patients ranging in age from 23 to 65 years were examined with the VX120 system (Visionix-Luneau Technologies). Three consecutive measurements were obtained with this device to assess the intrasession repeatability of ACD, CCT, PCT at different nasal and temporal locations, WTW, and nasal and temporal IA. Data analysis included the calculation of within-subject standard deviation (Sw), intrasubject precision (1.96xSw), coefficient of variation (CV) and intraclass correlation coefficient (ICC). Results The Sw and CV for ACD was 0.03 mm and 1.16%, respectively, with an ICC of 0.992. The Sw values for central and peripheral pachymetric measurements were below 9 μm, with CV of less than 1.6% and ICC of 0.976 or higher. For IA measurements, Sw values of 0.84 or lower were found, with a CV between 1 and 2%, and an ICC of more than 0.970. The Sw for WTW was 0.24 mm and the CV was 1.95%. No statistically significant correlations were found between any anatomical parameter evaluated and their Sw and CV values associated (−0.220 ≤ r ≤ 0.204, p ≥ 0.125). Conclusions The VX120 system is able to provide repeatable measurements of anatomical parameters in healthy eyes. Inter-observer repeatability should be evaluated in future studies.

Recently, a new multidiagnostic platform has been developed that provides automatic measurements of corneal topography, corneal, internal and ocular aberrations, pachymetry, anterior chamber depth, irido-corneal angle, pupil diameter under different luminance conditions and intraocular pressure (IOP), which is the VX120 system (Visionix-Luneau Technologies, Chartres, France). To date, there are no scientific studies evaluating the reliability of this device. The aim of the current study was to evaluate the intrasession repeatability of anterior segment anatomical measurements obtained with the VX120 system in a sample of normal healthy eyes.

Patients
A total of 107 healthy eyes of 107 patients ranging in age from 23 to 65 years old were enrolled in this prospective study of evaluation of a technology. All subjects were selected randomly from patients attending to the Optometry Clinic of the University of Alicante, where this investigation was developed. One eye only from each subject was chosen randomly for the study using a random number sequence (dichotomic sequence, 0 and 1) in order to avoid the potential interference of the correlation that often exists between the two eyes of the same person. All patients were informed previously about the study and signed an informed consent in accordance with the tenets of the Helsinki Declaration. An approval for the performance of the study was obtained from the Ethics Committee of the University of Alicante (Spain).
The inclusion criteria were the following: eyes without active ocular pathology, age of more than 18 years, and the presence of a refractive error between +5.00 and −10.00 D. The following conditions were defined as exclusion criteria for the study: any systemic pathology at the moment of examination, previous ocular surgery, glaucoma, less than 18 complete consecutive Placido rings projected on the cornea and therefore considered for the corneal analysis, pseudophakia, corneal ectatic diseases, and any other type of pathological condition of the eye.

Examination protocol
A complete eye exam was performed in all cases that included measurement of uncorrected (UDVA) and corrected distance visual acuity (CDVA), manifest refraction, air tonometry (VX120 system, Visionix-Luneau Technologies, Chartres, France), and corneal topographic and anterior segment analysis with the VX120 system (Visionix-Luneau Technologies, Chartres, France). All measurements were performed by the same experienced examiner (ALN), taking three consecutive measurements in order to analyze the intrasession repeatability of some anatomical measurements. Specifically, the repeatability of the following parameters was evaluated: anterior chamber depth (ACD), peripheral corneal thickness at 1, 2 and 3 mm from vertex nasally (PCT N1 , PCT N2 , and PCT N3 ), peripheral corneal thickness at 1, 2 and 3 mm from vertex temporally (PCT T1 , PCT T2 , and PCT T3 ), central corneal thickness (CCT) (Fig. 1), nasal and temporal irido-corneal angles (IA N and IA T ), and horizontal white-to-white corneal diameter (WTW).

The VX120 system
The VX120 system is a multidiagnostic platform that combines several technologies in order to provide an integral exam of the anterior segment of the eye. Specifically, the system combines a Scheimpflug imaging-based system, a Placido disk corneal topographer, a Hartmann-Shack aberrometer, and an air tonometer. The information used to provide all corneal topographic information is provided by a Placido disk system that projects 24 rings on the corneal surface, measuring more than 100,000 points. Refractive and ocular aberrometric data are obtained with a Hartmann-Shack system that measures 1500 points in 0.2 s in an area ranging from 2.0 to 7.0 mm of diameter. The Scheimpflug imaging-based system uses monochromatic blue light of 455 nm to obtain pachymetric measurements with a resolution of ± 1 μm, and iridocorneal angle measurements with a resolution of ± 1°. With the data obtained with all these technologies, the system also provides tangential and axial curvature data of the anterior corneal surface, internal wavefront aberrations, visual quality simulations, central and peripheral corneal pachymetry data, and IOP measurements.

Statistical analysis
The statistical analysis was performed using the software SPSS version 15.0 for Windows (SPSS, Chicago, Illinois, USA). Normality of all data distributions was confirmed by means of the Kolmogorov-Smirnov test. Then, parametric statistics was applied. Intrasession repeatability for anatomical parameters was assessed according to the following variables: the within-subject standard deviation (S w ) of the 3 consecutive measurements, intrasubject precision (1.96 x S w ), and the intraclass correlation coefficient (ICC). The within-subject standard deviation (S w ) is a simple way of estimating the size of the measurement error. The intraobserver precision was defined as (±1.96 x S w ) and this parameter indicates how large is the range of error of the repeated measurements for 95% of observations. Finally, the ICC is an ANOVA-based type of correlation that measures the relative homogeneity within groups (between the repeated measurements) in ratio to the total variation. The ICC will approach 1.0 when there is no variance within repeated measurements, indicating total variation in measurements is due solely to variability in the parameter being measured. Furthermore, Pearson correlation coefficients were used to assess the correlation between different parameters evaluated. All statistical tests were 2-tailed, and p-values less than 0.05 were considered statistically significant. Table 1 summarizes the main characteristics of the sample evaluated. The sample was comprised of 49 males (45.8%) and 58 females (54.2%), with a mean age of 47.8 years old. Table 2 summarizes the outcomes of the intrasession repeatability analysis for all anatomical parameters evaluated. The S w and CV for ACD was 0.03 mm and 1.16%, respectively, with an ICC 0.992. The S w values for central and peripheral pachymetric measurements were below 9 μm, with CV of less than 1.6% and ICC of 0.976 or higher. For IA measurements, S w values of 0.84 or lower were found, with a CV between 1 and 2%, and ICC of more than 0.970. The S w for WTW was 0.24 mm and the CV was 1.95%. Table 3 displays the coefficients of correlation of the magnitude of different anatomical parameters and the S w and CV values associated to each parameter. As shown, no statistically significant correlations were found (−0.220 ≤ r ≤ 0.204, p ≥ 0.125). Likewise, no significant correlations were found between mean keratometry, corneal eccentricity, corneal astigmatism or spherical equivalent and the S w values obtained for each anatomical parameter evaluated (−0.253 ≤ r ≤ 0.275, p ≥ 0.125).

Discussion
The concept of integrating several clinical tests in one device in order to simplify the activity in clinical setting has been investigated extensively in the last years. Some multidiagnostic platforms combining different technologies have been developed and commercially released [1,[21][22][23]. One of the potential concerns about these systems if they are able to provide consistent and reliable measurements that can be considered as interchangeable with those measurements provided by goldstandard or widely tested devices. The current study was aimed at confirming if one experienced operator was able to obtain repeatable measurements of different anatomical parameters of the anterior segment with the multidiagnostic platform VX120. If this intrasession repeatability is confirmed, future studies will be conducted to analyze the inter-observer repeatability and the interchangeability of VX120 measurements with those obtained by other different currently available topography systems or tomographers.
In our study, the intrasession repeatability of ACD measurements was excellent, with S w of 0.03 mm, CV of 1.16% and ICC of 0.992. This confirms that the multidiagnostic device evaluated is able to provide repeatable consecutive measurements of the depth of the anterior chamber of the healthy eye. Our intrasession repeatability outcomes for ACD are consistent with those reported with other commercially available devices, including Scheimpflug-based topography systems, [3,5,6,[10][11][12][13][14][16][17][18][19] biometers, [2-4, 8, 9, 15, 17] and optical coherence tomographers [3,11] (Table 4). Kurian et al. [2] obtained in 100 eyes evaluated with the Other authors have also reported S w values below 0.06 mm for the same and other optical biometers [8,9,15,17]. Likewise, several studies have evaluated the consistency of ACD measurements using Scheimpflug imaging-based topography systems, such as the Sirius (CSO), Galilei (Ziemer) and Pentacam Abbreviations: SD standard deviation, CV coefficient of variation, S w within-subject standard deviation, Pr intrasubject precision: 1.96 x S w , ICC intraclass correlation coefficient, ACD anterior chamber depth, PCT N1 , PCT N2 , and PCT N3 peripheral corneal thickness at 1, 2 and 3 mm from vertex nasally, PCT T1 , PCT T2 , and PCT T3 peripheral corneal thickness at 1, 2 and 3 mm from vertex temporally, CCT central corneal thickness, IA N and IA T nasal and temporal irido-corneal angles and WTW horizontal white-to-white corneal diameter  Abbreviations: SD standard deviation, S w within-subject standard deviation, ICC intraclass correlation coefficient, CoV coefficient of variation, D diopter for 1.96xS w corresponding to ACD measurements in a sample of 100 healthy subjects. Likewise, Masoud et al. [10] obtained a CV < 2% in 100 healthy eyes of 50 patients, Nasser et al. [16] a CV of 0.56% in 45 healthy eyes, and Montalbán et al. [18] S w , CV and ICC of 0.02 mm, 0.54% and 0.999 in 117 healthy eyes, respectively. Hernández-Camarena and coauthors [12] performed a comparative study of the repeatability of ACD measurements obtained with the Galilei G2 (Ziemer), Pentacam HR (Oculus) and Sirius (CSO) systems in 84 healthy eyes and found CV values below 1% in all cases. Shetty and coauthors [13] performed a similar comparison but in 55 keratoconus eyes and obtained S w values of 0.03, 0.05 and 0.03 mm with the Pentacam, Galilei and Sirius systems, respectively. Therefore, the VX120 platform that uses Scheimpflug imaging for measuring ACD provides repeatable measurements of this anatomical parameter, with levels of reliability that are consistent with those found for other systems also based on Scheimpflug imaging or optical biometry ( Table 4). The intrasession repeatability of central and peripheral pachymetric readings obtained with the VX120 system in our sample was also excellent, with S w values below 9 μm, CV below 1.6% and ICC of more than 0.97. Specifically, S w for central corneal thickness was 6.41 μm in our sample, a value which is consistent with those reported using the Sirius system in healthy (Prakash et al. [6] S w : 5 μm; Montalbán et al. [18] S w : 2.80 μm; Chen et al. [17] S w : 3.10 μm) and keratoconus eyes (Montalbán et al. [14] S w : 2.30 μm). However, VX120 pachymetric repeatability outcomes were better than those reported for optical biometry systems (Zhao et al. [15] S w : 14.24 μm, healthy eyes; Kunert et al. [4] S w : 19.5 μm) ( Table 4). Concerning peripheral pachymetry, the readings obtained with the VX120 system were very repeatable, with S w values ranging from 5.91 to 8.98 μm. Milla and coauthors [20] evaluated the intrasession consistency of peripheral pachymetry obtained with the Scheimpflug imaging-based topography system Sirius from CSO and obtained S w values ranging from 3.1 to 5.8 μm. These values are consistent with those found in the current study. Likewise, other authors have reported similar S w or even worse than those obtained in the current series for minimal corneal thickness (Shetty et al. [13] S w 9.33 μm Pentacam, S w 11.64 μm Galilei, S w 8.88 μm Sirius, Montalbán et al. [14] S w 3.18 μm) ( Table 4).
Besides ACD and pachymetry, the intrasession repeatability of WTW and iridocorneal angle measurements was also evaluated. In our series, excellent intrasession repeatability was found for WTW, with values of 0.24 mm, 1.95% and 0.873 for S w , CV and ICC, respectively. Shajari and coauthors [3] reported in a sample of 40 healthy subjects in which WTW was measured with the Pentacam HR, IOL-Master 500, Lenstar 900 and Visante systems, a value of approximately 0.5 μm for 1.96xS w . Likewise, excellent intrasession repeatability for WTW has been also reported by other authors using a variety of devices: Galilei (Shin et al. [5] ICC > 0.980 for cataract eyes; Savini et al. [19] ICC > 0.94 for healthy eyes), Lenstar 900 (Zhao et al. [15] Sw: 0.274 μm for healthy eyes), Aladdin biometer (Huang et al. [8] ICC > 0.94 for healthy eyes, ICC: 0.795 for cataract eyes), Sirius (Montalbán et al. [14] S w : 0.07 mm for keratoconus eyes, Montalbán et al. [18] S w : 0.06 mm for healthy eyes), and IOL-Master system (Srivannaboon et al. [9] ICC > 0.93 for cataract eyes). Concerning iridocorneal angle, an excellent intrasession repeatability was also obtained for nasal and temporal measurements over a horizontal scan, with Sw < 0.9°, CV < 2.3% and ICC > 0.97. This level of repeatability is consistent with that reported for other Scheimpflug imaging-based topography systems [6,10,19]. Prakash et al. [6] reported values of 1.96xS w < 2°in iridocorneal angle measurements obtained with the Sirius system from CSO in a sample of 100 healthy subjects. Masoud et al. [10] found CV values below 2% for anterior chamber angle measurements obtained with the same topography system in another sample of 100 healthy eyes. Likewise, Savini et al. [19] found CV values below 3.5% and ICC values of more than 0.94 for iridocorneal angle measurements in four quadrants obtained using the Galilei system in 45 healthy eyes. Therefore, the multidiagnostic platform VX120 is also able to provide repeatable measurements of WTW and iridocorneal angle, with levels of intrasession repeatability comparable to those reported for other commercially available systems (Table 4).
Finally, the level of correlation between the magnitude of all anatomical variables evaluated and their S w and CV values associated. Thus, we investigated if the level of repeatability of each anatomical parameter was dependent on its magnitude. This analysis revealed that this dependency was not present for any anatomical variable evaluated. Therefore, the VX120 system provides anatomical measurements of the anterior segment, with minimal repeatability errors that do not seem to increase in cases with extreme values within the normal range. More studies are needed to corroborate this finding in eyes with abnormal or pathological anterior segment, such as microcorneas and ectatic corneas.
The results of this study have only demonstrated that the VX120 system is able to provide repeatable measurements, which is crucial for being used as a diagnostic tool in clinical practice. However, future studies are necessary to evaluate the inter-observer repeatability and the interchangeability of the measurements provided by the VX120 platform with those obtained with other commercially available systems. In any case, good interobserver repeatability is expected to be found considering that measurements are taken automatically by the VX120 system, with minimal intervention from the observer. Indeed, the observer does not have to focus or center because this is done automatically by the system.

Conclusion
The multidiagnostic system VX120 seems to be able to provide consistent repeated measurements of ACD, central and peripheral pachymetry, WTW and iridocorneal angle in healthy eyes. The level of repeatability of the measurement of these anatomical parameters with the VX120 system is not dependent on the magnitude of such parameters, with the same precision ability for short and long eyes, small and large corneas, and eyes with deep and shallow anterior chamber within the normal range. Future studies should be conducted to confirm if this level of intrasession repeatability for the anatomical parameters evaluated is also observed in pathological eyes or after specific types of eye surgery. Furthermore, although measurements are done automatically by the device with minimal intervention of the operator, future inter-observer repeatability studies should be also performed.