EVALUATION OF INTRAOCULAR PRESSURE AND CENTRAL CORNEAL THICKNESS CHANGES AFTER HEMODIALYSIS IN PATIENTS WITH CHRONIC RENAL FAILURE

Background: This study evaluated short-term changes in intraocular pressure (IOP) and corneal thickness (CCT) following haemodialysis (HD) in chronic renal failure (CRF) patients. Methods: We studied 34 eyes of 34 patients with CRF undergoing HD. Patients included in the study were classied into two subgroups: group 1 (with DM) and group 2 (non DM). All patients underwent a detailed ophthalmological examination including CCT and IOP before and after the HD session. Total body weight and body volume loss after haemodialysis were also measured. Results: The sex distribution of patients were 22 female (64.7%) and 12 male (35.3%). The DM group was comprised of 19 patients (55.9%), and the non-DM had 15 (44.1%). The mean age was 60.3 ± 17.2 (range 21–88) years, and the dialysis time was 51.4 ± 38.5 (range 5–132) months. The mean IOP change after HD decreased from 15.88±2.37 to 14.11±2.02 mmHg (95% CI, 1.40–2.11; p < 0.001). The mean CCT decreased from 554.88±14.27 to 550.52±13.67 μm. (95% CI, 1.97–4.08; P = p < 0.001). The loss in body volume was positively correlated with a decrease in IOP (r = 0.737, p < 0.001) and CCT (r = 0.784, p < 0.001). Conclusions: In patients with CRF who have glaucoma, visual acuity may be adversely affected by IOP and CCT changes following HD. Therefore, a detailed ophthalmologic examination should be performed to take preventive measures for at-risk patients before and after HD.


Background
During haemodialysis (HD), diffusion eliminates osmotically active materials, resulting in a body uid loss and reduced blood osmolarity [1]. Consequently, these changes can affect ocular parameters such as central corneal thickness (CTT) and intraocular pressure (IOP).
Both the uremic state and dialysis procedure itself can cause several ocular abnormalities in patients with chronic renal failure (CRF) undergoing HD [2,3]. CRF patients treated with HD have various ophthalmologic ndings such as increased tear osmolarity, dry eyes and corneal endothelium changes. [4,5]. In CRF patients, posterior segment ndings such as retinopathy and neuropathy may be seen depending on both HT and DM. [6,7].
Systemic hemodynamic parameters, as well as eye uid volume and composition, can change with HD.
There are many studies examining the anterior and posterior segment showed signi cant changes in IOP and CC [8][9][10][11][12]. Given the contradictory reports of HD affecting IOP, precise and mechanistic insights of HD on IOP are not well-established [11,13,14]. If the CCT values are above or below normal, they lead to an incorrect evaluation of IOP values. Therefore, this study aimed to evaluate IOP changes after HD sessions. We also aim to demonstrate the possible association between IOP, CRF, total body volume losses, and serum osmolality. We

Methods
We performed this prospective cross-sectional study in the ophthalmology outpatient clinic of our hospital. We performed the study after the approval of the ethics committee of Gazi Yasargil Training and Research Hospital (decision # 2018/84). And our study was performed according to the Declaration of Helsinki. We received written informed consent from all patiens before including in the study.
In total, we examined the right eyes of 34 chronic renal failure patients undergoing HD in the Dialysis Unit of our Hospital. Patients included in the study were classi ed into two subgroups: group 1 (with DM, 15 patients) and group 2 (non DM, 19 patients). All subjects underwent haemodialysis sessions three to four times a week on average using high performance dialysis devices with a blood circulation rate of 250 ml / min. Patients who had visual acuity over 20/200 and had received HD treatment in the morning sessions for at least three months were included in this study. Patients with corneal haze, history of ocular surgery in the previous three months, history of glaucoma, laser photocoagulation, or ocular trauma were excluded from the study.
All patients underwent a detailed ophthalmological examination including CCT and IOP before and after the HD session. Anterior and posterior segments were examined with slit-lamp biomicroscopy. Bestcorrected visual acuity was measured with a Snellen chart. IOP was measured by Goldmann applanation tonometer, while CCT was measured by ultrasonic pachymetry. (Compact Touch, Quantel Medical, France).
Each measurement was made in the right eye of each patient within an hour before beginning HD and within one hour after completing a single HD session. To reduce the effects of corneal diurnal variation, we only included morning session HD patients. CCT was obtained by calculating the average of three measurements taken from the central cornea. Body weight was measured before and after HD, and volume loss after HD was calculated.

Statistical analysis
We performed all statistical analyzes using SPSS software (Version 22.0; SPSS Inc., Chicago, IL, USA). A paired T test was used to evaluate IOP and CCT changes before and after HD. Pearson correlation test was performed to evaluate the correlation between total body volume loss and IOP decrease and CCT decrease. Mann-Whitney test was performed to compare the groups (with DM and non DM). Only the right eyes were analysed. For all results was accepted as statistically signi cant if p value <0.05.

Discussion
We found that the IOP and CCT decreased signi cantly following haemodialysis. Also, mean body volume and weight decreased signi cantly after haemodialysis.
The kidneys are important to homeostasis as they protect the body uid electrolyte balance. Therefore, hemodynamic parameters and uid electrolyte balance are disturbed when kidney failure occurs. We attempt to improve these parameters with haemodialysis. HD may cause changes in plasma colloid osmotic pressure and serum osmolarity, which may affect many systemic parameters. [15] There are many studies that showing that haemodialysis either increases, decreases, or does not change IOP and/or CCT [9,[16][17][18][19][20][21]. The possible causes of lower IOP and CCT after HD are: correcting the amount of excessively accumulated and abnormally dispersed uid in the body, or increased plasma colloid osmotic pressure. Due to increased plasma colloid pressure, the liquid can ow from the aqueous humus to the plasma. this may lead to a decrease in both IOP and CCT. Some studies have reported that intraocular pressure increases due to increased uid ow from serum to humour aquosa and impaired uid output in the trabecular network during HD

Conclusions
While HD corrects the body's uid electrolyte imbalance due to kidney failure, many ocular parameters, such as IOP and CCT, may change quickly due to changes in the aqueous humour. However, s many studies report very different results for both IOP changes and CCT changes. Therefore, more studies are needed to understand the importance of IOP changes and CCT changes in CRF patients.

Consent for publication
Not applicable in this study.

Availability of data and materials
All data generated and analyzed during this study were included in this manuscript.

Competing interests
The authors declare that they have no competing interests.

Funding
The study was funded by departmental resources.  Figure 1 Correlation between total body volüme loss and decrease of intraocular pressure.

Figure 2
Correlation between total body volüme loss and decrease of central corneal thickness.