Pterygium is a common disease of the ocular surface characterized by the invasion of fibrovascular tissue from the bulbar conjunctiva onto the cornea. It can cause chronic ocular irritation, induced astigmatism, tear film disturbances, and decreased vision secondary to growth over the visual axis [
Various methods (i.e., the BUT, Schirmer, and mucus fern tests) are available for the investigation of DES. However, these tests are not always reliable, and none of them alone is sufficient for diagnosis [
Seventy-four eyes of 74 patients that underwent primary pterygium surgery were enrolled consecutively in this prospective study. Clinical visits were made at baseline (before surgery), 1, 7, and 15 days, and 3, 12, and 18 months after surgery. At the baseline, 3-, 12-, and 18-month visits, measurements of tear osmolarity and BUT and the Schirmer test were performed by the same investigator (KT) for each patient. The presence of fibrovascular tissue with a horizontal length from limbus to cornea of ≥2 mm (measured by slit lamp biomicroscopy) was accepted as pterygium and treated by pterygium surgery. Extent of its invasion onto the cornea was assessed for determining severity of pterygium. Fibrovascular growth onto the cornea of >0.5 mm recorded during the postoperative follow-up period was accepted as recurrence of pterygium. The patients were divided into 2 groups: Group 1, which consisted of patients in whom pterygium did not recur, and Group 2, which consisted of patients in whom pterygium recurred after surgery. All patients were informed about the study procedure and gave written informed consent to participate. This study followed the Tenets of the Declaration of Helsinki and was approved by the Recep Tayyip Erdogan University Medical Faculty Ethics Committee.
Each patient underwent a standard ophthalmological examination to exclude patients with ocular or extraocular diseases other than pterygium that could affect tear film function, such as blepharitis, ocular allergy, thyroid diseases, lacrimal system disorders, diabetes, collagen diseases, and use of any topical or systemic drug during the 3-month period before the examination.
After topical and subconjunctival administration of 2% lidocaine for anesthesia, the head of the pterygium was separated and dissected away from the cornea. The pterygium was resected, the episcleral and Tenon’s tissues were dissected away from the overlying sclera, and the dissociated edges of the conjunctiva were closed with 10/0 polyglycolic acid suture, leaving a 4 mm area of bare sclera. At the end of the surgery, 0.3% tobramycin ointment was applied topically before patching. Prednisolone acetate (1%) and 0.3% tobramycin were applied topically 4 times daily for 2 weeks. The sutures were removed 7 days after surgery.
The Schirmer test was performed without topical anesthesia. The length of the strip that was wet after 5 minutes was measured and accepted as the test result. The BUT was measured using fluorescein and a slit lamp with cobalt blue illumination. The average value of 2 consecutive measurements was used for analysis. The BUT was evaluated at least 30 minutes after the Schirmer test.
Tear osmolarity was measured using the TearLab Osmolarity System (TearLab Corp., San Diego, CA, USA) at least 30 minutes after the tear function tests for each patient. When the system was ready, the patient was requested to look up, and a handled pen with a chip test card that could serve as a laboratory assay mounted on its tip was touched to the inferior tear meniscus located above the lower eyelid. After the green light on the pen went out, indicating the conclusion of the tear-collection process, the pen was placed on the TearLab Reader. The code on the chip test card was entered into the TearLab Reader, and the results of the measurement process were obtained within a maximum of 30 seconds. Values of >312 mOsm/L were considered indicative of DES [
Statistical analyses were performed using SPSS version 16.00. All variables were distributed normally and expressed as the mean ± standard deviation. Categorical variables were compared between the groups using the chi-square test. The Friedman test and paired
There were 50 patients (32 male and 28 female) in Group 1 and 24 patients (15 male and 9 female) in Group 2. All recurrences of pterygium occurred between the 3rd and 18th postoperative months. The mean age was
The comparisons of tear osmolarity, BUT, and Schirmer test results between the groups during the follow-up period are shown in Table
The comparisons of the tear osmolarity, break-up time (BUT), and Schirmer test results within the groups during the follow-up period (mean ± SD).
Group 1 |
Group 2 |
|
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Tear osmolarity (mOsm/L) | ||
Baseline | 304.9 ± 8.0 | 304.0 ± 11.8 |
3rd month |
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12th month |
|
|
18th month |
|
|
BUT (second) | ||
Baseline |
|
|
3rd month |
|
|
12th month |
|
|
18th month |
|
|
Schirmer test (mm) | ||
Baseline |
|
|
3rd month |
|
|
12th month |
|
|
18th month |
|
|
Group 1 includes patients with no recurrence of pterygium after primary pterygium surgery.
Group 2 includes patients with recurrence of pterygium after primary pterygium surgery.
Fourteen of 50 eyes (28.0%) in Group 1 and 8 of 24 eyes (33.3%) in Group 2 exhibited DES preoperatively (
The BUT results changed significantly over the follow-up period within Group 1 (
Preoperatively, the length of the fibrovascular tissue correlated with the tear osmolarity and BUT (
There was no correlation between the length of the recurrent fibrovascular tissue and the results of the dry eye tests 18 months after surgery in the recurrent pterygium group (all
This study has demonstrated that tear osmolarity and BUT values improved significantly after primary pterygium excision in Group 1. On the other hand, although tear osmolarity levels were significantly better 3 months after surgery in Group 2, they deteriorated and exceeded baseline levels after 12 and 18 months. In addition, the incidence of DES significantly decreased after excision of pterygium in both groups and increased again only in cases of recurrent pterygium. Furthermore, the BUT values of Group 2 and Schirmer test results of both groups were similar to baseline levels throughout the follow-up period.
Tear hyperosmolarity has been identified as an important factor in the pathogenesis of DES and has recently been included as a part of the definition of dry eye [
In the present study, we found statistically significant differences in the mean tear osmolarity values within the groups over time. However, these changes (ranging from 300 to 306 mOsm/L) may not be clinically relevant. We speculated that changes in the prevalence of dry eye might be more important than the differences in the mean tear osmolarity values. According to the cut-off value for tear osmolarity, 28% of the patients in Group 1 had DES before surgery. The prevalence of DES decreased after surgery, and only 8% of the patients had DES 18 months after pterygium removal. In contrast, 33.3% of the patients in Group 2 had DES before surgery based on their tear osmolarity values. The prevalence of DES decreased after surgery, and only 8.3% of the patients had DES 3 months after surgery. However, 18 months after surgery the prevalence of DES in Group 2 (29.1%) had rebounded almost to the preoperative level.
In summary, the prevalence of DES according to the tear osmolarity level decreased significantly after surgical excision of pterygium but increased again after recurrence of pterygium. Accordingly, we concluded that the presence of pterygium seems to cause DES.
Several studies have investigated the relationship between pterygium and changes in tear film function [
We believe that these contradictory results may have been obtained because the methods that were used to evaluate tear function were not objective and quantitative. The present study has shown that although the BUT test results improved after surgical treatment of pterygium with no recurrence, the Schirmer test results did not change. Therefore, we can speculate that the quantity of the tear film in patients with pterygium is adequate but that its quality or composition is abnormal. In addition, to the best of our knowledge, this is the first time that tear osmolarity levels have been used to determine the composition of the tear film in patients with pterygium, and we revealed that it improved after surgical treatment and remained stable for 18 months after surgery so long as the pterygium did not recur.
UV-mediated genetic trauma may affect the expression of cytokines, such as interleukin (IL)-6 and IL-8, in patients with pterygium [
Tear osmolarity can be measured by various methods that rely on changes in the freezing point or electrical conductivity of the tears [
A meta-analysis found that the recurrence rate after pterygium surgery was higher when the bare sclera technique was used than when a limbal conjunctival autograft was employed [
The recurrence rate of pterygium ranges from 24% to 89% when treated with the bare sclera technique [
One limitation of our study is that there were gaps between visits, the longest of which was 9 months. Therefore, we do not know for certain the earliest time at which tear osmolarity increased or pterygium recurred.
We reasonably supposed that pterygium recurrence may lead to dry eye because the pterygium disturbs tear function. Conversely, it can be speculated that dry eye may cause the recurrence of pterygium or that more severe underlying dry eye may contribute to recurrence. However, the essentially equal results for the tear osmolarity, BUT, and Schirmer test in our 2 groups prior to surgery provide strong evidence that it is pterygium recurrence that leads to dry eye.
In conclusion, this study revealed that tear hyperosmolarity and abnormal tear film function are associated with pterygium. Pterygium excision improved tear osmolarity and tear film function. However, tear osmolarity deteriorated again with the recurrence of pterygium. Therefore, we infer that pterygium seems to cause DES and that surgical removal of pterygium alleviates pterygium-related DES.
None of the authors has conflict of interests with the paper.