The aim of our study was to assess changes of tear film osmolarity after micro-incision 25G+ pars plana vitrectomy (PPV) in a prospective study.
Methods
The group consisted of 21 patients (17 women, 4 men) with an average age of 70,52 years [48; 85]. All patients underwent 25G + PPV surgery due to a disorder of the vitreomacular interface (macular hole or epimacular membrane). Only patients who did not use artificial tears before the surgery and who had not been diagnosed with dry eye syndrome at ours or another institution were included in the study. Except cataract surgery, all ocular surface diseases, intraocular diseases, trauma or surgery were exclusion criterias.
Tear film osmolarity was measured in both eyes in every patient before surgery, 10 days after surgery and 30 days after surgery. A paired test was used for statistical evaluation.
Results
No statistically significant change in osmolarity was found in the operated eyes (p > 0.05). No statistically significant changes in time (p > 0.05) were found when both eyes were compared. There were no postoperative complications or failure to observe the study protocol.
Conclusion
Micro-incision 25G + PPV does not affect the osmolarity of the tear film.
Hinweise
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Abkürzungen
PPV
Pars plana vitrectomy
Search strategy and selection criteria
For the discussion and review, we have searched PubMed and Web of Science databases for scientific articles on the presented topic. As there is a relative dearth of literature, we used as many published articles with related terms as possible. Some articles were based on a very small samples.
Background
The tear film protects the eye surface and takes part in refraction. Traditionally, it is divided into 3 layers - aqueous, lipid and mucin [1]. Recently, however, there is more talk about the muco-aqueous, a single layer forming a compact gel [1]. Tear film dysfunction is called dry eye, but the term ocular surface disease is common.
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Ocular surface or dry eye disease is a multi-factorial disorder of the ocular surface due to loss of balance of the tear film, and ocular symptoms, in which tear film instability and hyperosmolarity, ocular surface inflammation and damage, and neurosensory abnormalities play etiological roles [2].
The above implies that the tear film’s insufficiency or instability manifests as hyperosmolarity [3]. Evaluation of tear film osmolarity is therefore an important examination in the diagnosis of ocular surface disease. However, it should be noted that the tear film hyperosmolarity can also develop in patients with normal measured values. In addition to this, osmolarity does not correlate very well with symptoms and objective findings [4].
Tear film osmolarity reflects the balance between tear production, evaporation, dissipation and absorption [5]. There are several articles about changes of tear film osmolarity after various anterior segment surgeries. Our aim was to find out whether these changes in the tear film are possible after 25G+ PPV. Even though this type of surgery is without any doubts for the posterior segment of the eye, the ports are introduced via the conjunctiva and there is often at least mild reaction of the conjunctiva after the surgery. Therefore we would like to find out whether the 25G+ PPV can induce any changes in tear film osmolarity.
Tearlab®
TearLab® osmolarity measurements are considered accurate and, according to some publications, a very objective assessment of the severity of the dry eye [6‐9]. Unlike other osmolarity measurement methods, TearLab® is easy to perform in everyday clinical practice.
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It is an osmometer that only needs around 50 nl tears to measure the tear film osmolarity. The measurement itself is based on electrical impedance [10]. The examination is very quick, easy for the patient and staff and easy to repeat. It is important not to affect the examination by other factors (dripping drops, other eye examinations). For this reason, it is usually included at the beginning of the examination.
Methods
The aim of the study was to evaluate changes in tear film osmolarity after 25G + PPV in a narrowly selected group of patients. The results were then compared with the available literature on changes in osmolarity after intraocular operations.
In this study, patients underwent 25G + PPV. All operations were performed in a standardized manner such as sutureless surgery, with minimal cryoretinopexy and using a gas filling.
25G PPV is considered to be a safe microincision technique used on the anterior segment of the eye for the abovementioned reasons. Possible eye changes following the operation (e.g. intraocular pressure, corneal thickness or other anterior segment changes) are reported as temporary [11]. Osmolarity examinations were carried out with the TearLab® instrument on both eyes always before surgery (on the day of the surgery or the preceding day), then after 10 days (± 2 days) and after 30 days (± 3 days). The osmolarity was always measured as the first examination in the morning (7–9 A.M.) after arrival at the clinic. Only after that the next examination (eg visus, intraocular pressure ...) were performed, patients were instructed not to apply any drops at least 2 h before the examination.
TearLab® examination was performed in every patient in the same manner. Original TearLab® cartridges were used, one cartridge for one measurement on one eye. Tear film sample was collected from the tear film fluid near eyelid margin as recommended by the manufacturer of the device. When error was noticed or the sample was not readable, the measurement was always immediately repeated with new original cartridge.
All patients were given the same drops during the follow-ups. On day 1, all received Dexamethasonum 1 mg/ml and Levofloxacinum hemihydricum 5 mg/ml eye drops by default. Both drops were discontinued according to instructions 7 days before the last follow-up. During the study period, patients were instructed not to apply any artificial tears.
The results were statistically evaluated and then interpreted. A paired test was used for statistical evaluation. For comparison with the available literature, we went through the PubMED and Web of Science databases. The searched terms were: tear osmolarity, tearfilm osmolarity, tear osmolarity surgery, tearfilm osmolarity surgery, intraocular surgery osmolarity and PPV osmolarity. We went through about 600 records in total, but there was not much literature on the relationship between osmolarity and intraocular surgery in indexed journals. All relevant articles were used in the discussion at the end of the article. We analyzed the available articles and used important data from them for our discussion.
The group consisted of 21 patients (17 women, 4 men) with an average age of 70,52 years [48–85 years, SD 78884]. All patients underwent 25G + PPV surgery due to a disorder of the vitreomacular interface (macular hole or epimacular membrane).
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Only patients who did not use artificial tears before surgery and who had not been diagnosed with dry eye syndrome at ours or another institution were included in the study. Exclusion criteria were regular active application of any eye drops (artificial tears, antiglaucomatics, etc.), eye surgery in the past (with the exception of uncomplicated cataract surgery, at least 30 days of active eye surface disease (eg. pinguecula, pterygium, conjunctivitis), an obvious low patient compliance and any other eye disease that the investigator believed could affect the results.
Only patients who underwent cataract surgery long time before enrollment to the study were included in the study. No patients after cataract surgery who had complications during the surgery or afterwards, or who used any chronic medication because of the surgery were included in the study.
All patients enrolled in the study were indicated for uncomplicated pars plana vitrectomy (PPV) with a diagnosis of the macular hole or epiretinal membrane. Patients undergoing PPV due to other diagnosis were not included.
None of the patients enrolled were a contact lens wearer.
Table shows the measured results before the surgery, 10 days after surgery and 30 days after surgery
Before surgery
10 Days after surgery
30 days after surgery
Avg
SD
Avg
SD
Avg
SD
Operated Eye (mOsmol / L)
299.00
11.549
303.86
18.180
297.38
16.375
Heatlhy Eyes (mOsmol / L)
303.33
15.389
301.90
13.160
299.10
13.946
Table 2
Shows all measurements of osmolarity before the surgery (V0), 10 days after surgery (V1) and 30 days after surgery (V2). OD is for right eye, OS for left. The measurements of the eye with surgery is always in the first column in the table
Age
Eye with surgery
V0
V1
V2
Surgery
Fellow Eye
Surgery
Fellow Eye
Surgery
Fellow Eye
85
OD
311
304
287
286
303
313
66
OD
321
317
308
299
290
302
48
OD
295
287
288
291
287
299
57
OD
324
301
303
322
305
313
75
OD
289
295
313
297
309
295
70
OD
295
294
302
298
306
293
73
OS
300
333
297
330
290
320
67
OS
300
312
300
307
299
308
79
OS
308
324
304
320
326
332
71
OD
296
291
292
297
284
294
65
OD
308
304
298
304
279
304
82
OS
313
332
292
307
290
308
75
OD
282
283
310
299
279
276
73
OD
299
298
355
326
302
302
72
OS
292
296
297
288
286
277
68
OS
292
289
299
286
289
280
65
OD
292
327
354
301
349
301
77
OD
293
294
295
290
289
296
72
OS
280
283
289
308
285
290
71
OS
290
302
297
288
298
292
80
OS
299
304
301
296
300
286
The mean osmolarity of the operated eyes before surgery was 299.00 mOsmol / L [280; 324], (SD 11.549), the mean osmolarity of the non-operated eyes was 303.33 mOsmol / L [283, 33] (SD 15.389).
The mean osmolarity of the operated eyes 10 days after surgery was 303.86 mOsmol / L [289; 335] (SD 18.180), the mean osmolarity of the non-operated eyes was 301.90 mOsmol / L [286; 330] (SD 13.160).
The mean osmolarity of the operated eyes 1 month after the operation was 297.38 mOsmol / L [285; 349] (SD 16.375), the mean osmolarity of the non-operated eyes was 299.10 mOsmol / L [276; 332] (SD 13.946).
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No statistically significant change in osmolarity was found in the operated eyes (p > 0.05). The preoperative vs post-operative changes over time were compared. A paired test was used for statistical evaluation.
No statistically significant changes in time (p > 0.05) were found when both eyes were compared. No statistically significant change in tear osmolarity in the control eyes was observed between each time point. Figure 1 shows pre- and post-operative changes of tear osmolarity in control eyes vs cases.
×
There were no postoperative complications or failure to observe the study protocol.
Discussion
We found no published studies on changes in osmolarity after PPV. In general, there is a dearth of information on changes in osmolarity after ophthalmological operations. Although it is commonly believed that PPV does not affect the quality of the eye surface, it has been shown that PPV causes some changes on the surface of the eyeball - inter alia, an increase in interleukin concentrations [12]. In general, surgery can be considered a form of trauma, which naturally leads to an inflammatory reaction [13]. This suggests that changes to the eye surface may occur after PPV, although we know that PPV does not affect the anterior segment in the long term [11]. However, we know from clinical practice that even uncomplicated PPV causes, for example, chemosis and conjunctival hyperaemia. These factors may lead to the assumption that osmolarity may change after PPV.
There are reports that evaluate changes in osmolarity after cataract surgery. The conclusions of these studies vary. Some describe a short-term increase in osmolarity after cataract surgery [14]. However, others show that after cataract surgery there is no statistically significant change in tear film osmolarity [15, 16]. Similarly, an increase in osmolarity was confirmed in patients with trabeculectomy. However, Lee et al. did not take into account pre-existing dry eye syndrome or ophthalmological medications [17].
Pterygium surgery is not an intraocular operation, but given that the surgeon works on a bulbar conjunctiva, among other things in the anatomical area of the conjunctiva above the pars plana that is affected by PPV, the data may be relevant. In general, pterygium alone has been shown to increase tear film osmolarity [18]. It is not surprising, therefore, that pterygium surgery, as one of the few ophthalmic operations, reduces tear film osmolarity in the long run. This study also suggested osmolarity binding to pterygium itself - pterygium recurrence causes increased osmolarity [19].
However, it is clear from our results that no statistically significant changes in osmolarity were observed. In general, the prevailing opinion is that inflammation or damage to the eye surface (which can be considered due to surgery) leads to hyperosmolarity, but this was not confirmed on our sample of patients.
One drawback of our study is relatively small small size albeit we took precautions to create samples for achieving the most objectivity. For example, some published papers take no account of drops applied to the eye during the postoperative period or drops applied prior to surgery. In addition, all patients underwent both technically similar operations, which increases the objectivity of our results.
Conclusion
Our study appears to be among the first to investigate changes in osmolarity after micro-incision vitrectomy. Micro-incision uncomplicated 25G + PPV does not affect the osmolarity of the tear film in patients who did not suffer from other eye or systemic diseases. The question is whether PPV performed in complicated diagnoses such as diabetic retinopathy, emotions, or trauma can affect tear film osmolarity, therefore it is desirable that further research be undertaken to investigate osmolarity in both more complicated PPV and patients with associated diagnoses.
Acknowledgements
Not applicable.
Ethics approval and consent to participate
The study protocol follows the Declaration of Helsinki Ethical Principles for Medical Research Involving Human Subjects and it was approved by ethical committee of University Hospital Ostrava, Czech Republic. Written informed consent was obtained from all participants who took part in the study.
Consent for publication
Not applicable.
Competing interests
The authors state that there are no conflicts of interest regarding the publication of this article.
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