Inflammatory bowel disease and the associated risk of dry eye and ocular surface injury: a nationwide matched cohort study

Background Inflammatory bowel disease (IBD) is associated with lacrimal gland dysfunction and ocular inflammation. The objective of this research was to elucidate the temporal relationships between IBD, dry eye disease (DED), and corneal surface damage. Methods In a matched nationwide cohort study, we evaluated the risk of DED and corneal surface damage associated with IBD. Multivariable Cox proportional hazards regression analyses were implemented to estimate the risk of ocular complications. Results A total of 54,293 matched pairs were included for analyses. The median follow-up time was 8.3 years (interquartile range: 5.5 – 10.5). The period incidence of DED was 8.18 and 5.42 per 1000 person-years in the IBD and non-IBD groups, respectively. After adjusting for confounders, statistically significant associations were found between IBD and DED [adjusted hazard ratio (aHR): 1.43, 95% confidence interval (CI): 1.35 – 1.51, p < 0.0001], Sjögren’s syndrome-related (aHR: 1.67, 95% CI:1.46 – 1.90, p < 0.0001) and non-Sjögren’s syndrome-related subtypes (aHR: 1.38, 95% CI: 1.30 – 1.46, p < 0.0001). Furthermore, increased risks of corneal surface damage (aHR: 1.13, 95% CI: 1.03 – 1.24, p = 0.0094) among the patients with IBD were observed when compared with the controls. Other independent factors associated with corneal surface damage were age (aHR: 1.003), sex (male vs. female, aHR: 0.85), and monthly insurance premium (501–800 vs. 0–500 U.S. dollars, aHR: 1.45; ≥ 801 vs. 0–500 U.S. dollars, aHR: 1.32). Conclusions Our results suggested that IBD was an independent risk factor for DED and ocular surface damage. Clinical strategies are needed to prevent visual impairment or losses in these susceptible patients. Supplementary Information The online version contains supplementary material available at 10.1186/s12886-023-03165-z.


Background
Dry eye disease (DED) is a highly prevalent disorder and characterized by increased osmolarity of the tear film and inflammation of the ocular surface [1].Epidemiological studies demonstrated that the prevalence of DED ranged from 5 to 50% worldwide [2].In Taiwan, the crude incidence rate of DED was reported to be 4.26 per 1000 population in 2015 [3].In the elderly, the prevalence rate was as high as 33.7% in a Taiwan's community questionnaire survey [4].DED can be classified into aqueous-deficient and evaporative subtypes by the Dry Eye Workshop of Tear Film and Ocular Surface (TFOS) Society [5].The aqueous tear-deficient DED can be further divided into Sjögren's syndrome (SS)-related and non-SS-related subtypes [5,6].The evaporative DED presents normal lacrimal secretory functions but excessive water loss from the exposed ocular surface [5,7].The symptom of DED has a potential adverse impact on patients' physical function and quality of life [8,9].The increased treatment utilization and productivity loss exert a heavy economic burden on patients with DED [9].
Inflammatory bowel disease (IBD) is an immunerelated chronic gastrointestinal inflammation condition, which includes two major types, Crohn's disease (CD) and ulcerative colitis (UC) [10].The prevalence rate of IBD ranged from 2.1% to 12.8% globally, and the incidence rate has been rising in recent years [11].The pathogenesis of IBD remains unclear.Genetic factors, gut microbial, environment and immunological abnormalities are considered as possible causes [12].IBD primarily involves the gastrointestinal wall, with continuous lesions of the mucosal and submucosal layer in UC and skipped lesions of the whole layer in CD [13].In addition to intestinal wall damages and manifestations, IBD may also have a deleterious effect on extraintestinal systems, such as the eye [14].Previous studies have revealed that nearly 2% to 7% patients with IBD had ocular morbidities with episcleritis, scleritis and uveitis in majority [14].Czompa et al. reported that patients with IBD had higher rates of dry eye and thin cornea with reduced tear quantity compared with non-IBD controls [15].However, the relationship between IBD and DED remains unclear due to multiple methodological drawbacks of preceding studies, including small patient sample (< 1000 IBD subjects) [15,16], single-institution settings [15][16][17], and inadequate adjustment for confounding [15][16][17].Importantly, the long-term risk and epidemiological statistics of ocular surface damage in IBD have not been estimated in previous studies.
In a nationwide matched cohort study, we aimed to examine the association between IBD, DED, and corneal surface damage using the administrative data from Taiwan's National Health Insurance (NHI) research database.Based on existing evidence [14][15][16][17], we hypothesized that IBD was significantly associated with more DED and corneal surface damage compared with non-IBD people.

Data source
This study was evaluated and approved by Taipei Medical University -Joint Institutional Review Board (TMU-JIRB-N202210011).This study was conducted in accordance with the Helsinki Declaration and the STROBE study guidelines [18].Written informed consent was waived due to the use of decoded and scrambled beneficiary identifications.The Taiwan government launched a single-payer NHI program in March 1995.Currently, there are more than 23 million Taiwanese residents covered by this program, representing approximately 99.6% of Taiwan's entire population.A comprehensive description of the NHI research database has been given in previous articles and government's official websites [19][20][21][22][23].

Subject eligibility criteria
The participants were considered as having developed an IBD only if the diagnosis was established by board-certified physicians, and the condition occurred at ≥ 2 outpatient visits between January 1, 2002 and June 30, 2013.The diagnostic codes used for this study were based on the International Classification of Diseases, 9th Revision, Clinical Modification (ICD-9-CM) (Supplementary Table S1).The index date for the IBD group was the date when IBD was diagnosed for the first time, whereas the index date for the non-IBD group was the IBD-diagnosed date of the matched IBD subject.Participants with a previous diagnosis of dry eye or corneal diseases were excluded from the analysis, including interstitial and deep keratitis, corneal neovascularization, ocular adnexal burns, open wound of eyeball, corneal ulcers, recurrent corneal erosion, and corneal opacity.Subjects who had used eye lubricants before the index date or died during the study period were also excluded.

Ocular outcomes
The primary outcome assessed was DED, which was defined as the diagnosis established at least twice in conjunction with prescriptions of cyclosporine ophthalmic emulsion (Restasis ® ) treatment by board-certified ophthalmologists (Supplementary Table S1).In the NHI regulations, ophthalmic cyclosporine can be reimbursed when the Schirmer test score was < 5 mm in 5 min [11].DED was further classified into Sjögren's syndrome (SS)-related or non-SS-related subtypes.The secondary outcomes assessed were serious types of ocular surface damages (corneal ulcers, recurrent corneal erosion, and corneal opacity), which were defined as the diagnosis made twice in the ophthalmology care service.Survival times were the corresponding censored observations in subjects without the ocular outcomes.Patient's status was followed up until December 31, 2013.

Patient and clinical characteristics
Insurance premium was categorized into 0 to 500, 501 to 800, and ≥ 801 U.S. dollars per month.The ICD-9-CM codes of medical diagnoses within 2 years before the index date were used to ascertain coexisting diseases potentially related to corneal diseases (Supplementary Table S1) [24].The Charlson comorbidity index score was assessed for clinical prognosis and comorbidity adjustment [25].The prescription of systemic steroids within 6 months after the index date was also analyzed.The numbers of hospital admissions and emergency room visits within 2 years before the index date were calculated to evaluate the level of healthcare resource use.

Statistical analysis
Each IBD subject was matched to a non-IBD subject using the greedy matching methodology with a caliper width of 0.2 SDs of the log odds of the calculated propensity score and without replacement to adjust for the distribution of age, sex, and monthly insurance premium between subjects with and without IBD [26].An absolute standardized mean difference (ASMD) was used to evaluate the baseline patient characteristics between the matched pairs [27].Imbalance was defined as an ASMD value higher than 0.1.To clarify the independent relationship between IBD, DED, and corneal surface damage, multivariable Cox regression models were utilized to estimate the adjusted hazard ratio (aHR) for the ocular outcomes.The variables controlled in the multivariable model were age, sex, insurance premium, collected coexisting diseases, Charlson comorbidity index score, use of systemic corticosteroids, number of hospitalizations, and number of emergency room visits.In addition, the potential differences in cumulative incidences of DED and corneal surface damage between the two groups were evaluated using the Kaplan-Meier method and log rank tests.A two-sided significance level of 0.05 was used to define a statistically significant difference.All the statistical analyses were implemented using SAS V.9.4 (SAS Institute Inc., Cary, NC, USA).

Results
Altogether, a total of 54,293 matched pairs with 841,752 person-years of follow-up were included in this cohort study (Supplementary Figure S1).The median followup time of the entire cohort was 8.3 years (interquartile range: 5.5 -10.5).The distributions of age, sex, and monthly insurance premium were well matched without between-group differences (Table 1).Compared with non-IBD subjects, IBD patients had more comorbidities, uses of systemic steroids, and greater emergence room visits.

Discussion
In this cohort study, patients with IBD had a significantly higher risk of DED and secondary SS than non-IBD individuals.Additionally, we also observed a significant association between IBD and ocular surface damage, especially for recurrent corneal erosion.Our analyses demonstrated several clinical factors associated with corneal injury, providing an important implication in early identification and intervention of severe ocular morbidities in IBD patients.To the best of our knowledge, this is the first large population-based study to evaluate the association between IBD and corneal diseases.Our findings highlight an urgent need for regular ophthalmology surveillance and timely referral to prevent potential vision-threatening complications among patients with IBD.
Although ocular involvement is not uncommon among patients with IBD, few studies have evaluated the longterm temporal relationship between IBD, dry eye, and corneal damage.Most previous studies restricted their study population to single-hospital settings with small patient samples [15][16][17].In a single-center prospective study, Czompa et al. reported that 30 CD patients and 36 UC patients had thinner cornea with reduced tear quantity compared with 80 controls, while the corneal power did not decrease significantly [15].In addition, the corneal volume and anterior chamber volume were lower in the UC group [15].Another study reported that the dry eye rate assessed using the Schimer's test and tear breakup time was three times higher in the IBD group with increased Ocular Surface Disease Index scores compared with the controls [16].Furthermore, the ocular surface had squamous metaplasia and absence of goblet cells in patients with IBD [16].In a retrospective study, Cuny et al. reported that the prevalence of ocular morbidity was 2.6% in IBD, and DED affected 1% of IBD patients [17], which was relatively lower than our results (approximately 9% in the 12-year follow-up).The previous studies had small patient samples with cross-sectional design, making it difficult to accurately evaluate the long-term risk estimates and to clearly delineate the temporal relationship of DED and corneal injury related to IBD.In the present study, our sample size was relatively large with a nationwide coverage, and our analyses included a variety of patient and clinical factors, which have not been examined previously.
The pathological pathway of DED in IBD was still unclear.In an animal study, Sekijima et al. showed that reduced tear secretion, inflammatory cell infiltration and destruction of lacrimal gland were discovered in a mice model with UC, indicating that the inflammation and functional decline of lacrimal gland are potentially responsible for dry eye in UC [28].In humans, Dogan et al. reported that both tear production and tear-film quality were lower among IBD patients; goblet cell losses and squamous metaplasia on the ocular surface were evident [16].These pathological findings might be the results of ocular inflammation [16].Furthermore, T cells, interleukins and interferons are involved in the inflammatory and apoptosis reactions of lacrimal gland, cornea and conjunctiva, contributing to the development and progress of DED [7].Some researchers hypothesized that the mechanism of the ocular manifestations in IBD includes two main pathways: the expansion of immune responses from the intestine or an independent ocular inflammatory event [14].Inflammatory damage of intestinal mucosa facilitates the passage of microorganisms and proteins and activates lymphoid tissue responses, antibody production, antigen-antibody complex formation, and induces systemic inflammation [29].Microbial pathogens may also play a pathogenic role via molecular mimicry although few studies have focused on this mechanism [30].Other studies suggested that genetic factors potentially contribute to the ocular morbidities of IBD.Mallas et al. reported that HLA-B27 type leukocytes were more common among CD patients with extraintestinal manifestations compared with the normal population [31].However, sparse evidence was available to give a definite explanation for the association between IBD and corneal damage.More studies are warranted to elucidate the biological mechanism and immunological processes of corneal diseases in IBD.
Epidemiological studies estimated that the rate of ocular morbidities in IBD ranged from 2 to 7%, occurring more frequently in CD than UC [14,32].Some risk factors were reported, including presence of both colitis and ileocolitis and multi-organ involvement (e.g., arthralgia) [33,34].Our results suggested that older age and female sex were also risk factors for corneal surface damage, which have not been reported previously.Our results highlight the importance of regular ophthalmology follow-up for potential corneal surface damage in patients with IBD.Early diagnoses and intervention for ocular complications are pivotal in improving the quality of life and reducing the economic burden in IBD patients.
Our study showed that IBD patients had an increased long-term risk of secondary SS compared with general population.Few studies have investigated the relationship between IBD and SS.There were only case series on SS as an extraintestinal manifestations in IBD [35][36][37].The etiology of SS in IBD remains unknown nowadays.Mandl et al. has shown that severe dysbiosis was more common in patients with primary SS and was associated with disease activity [30].In a small cohort, Palm et al. did not find an association between SS and IBD, which might be due to insufficient statistical power [35].Our results suggested that clinicians should be aware of the risk of secondary SS in IBD patients.Ophthalmology and rheumatology consultations may be helpful in preventing SS-associated complications.Future efforts should be put on elucidating the pathogenesis and prophylactic strategy for IBD-associated SS.There were some limitations in our study.First, the activity and severity of IBD (e.g., affected bowel segments and extraintestinal organ involvement) were unknow due to data unavailability in the NHI database.Therefore, we could not analyze the relationship between the activity of IBD and risk of corneal damage [38].Second, we had no information about patients' daily activities (e.g., physical capacity and sleep duration), physical examination findings, biochemical and laboratory data, pharmacological treatment details (e.g., immunomodulators and biologics), and clinical presentations (e.g., subjective symptoms of DED) of the included patients.Therefore, the interaction between IBD-related medications, immune system functions, and ocular diseases could not be evaluated in this study [38,39].Third, we only evaluated three forms of ocular surface damages (corneal ulcers, recurrent corneal erosion, and corneal opacity), which was based on physiology plausibility, data availability, and existing literature [40].Further studies are needed to clarify whether IBD patients were susceptible to other types of ocular surface injury.Fourth, the propensity-score matching process only included the parameters of age, sex, and monthly insurance premium between the two groups to minimize sample losses and to ensure sufficient statistical power of the matched dataset.A large sample is necessary in evaluating the long-term risk of SS and corneal surface damage associated with IBD because the incidence rates were relatively low.Finally, the subjects were followed up only until the end of 2013 due to the NHI regulations.

Conclusions
This large population-based cohort study found that patients with IBD had a significantly higher risk of DED, secondary SS, and corneal damage.Gastroenterologists treating patients with IBD should be aware of these possible sight-threatening complications and refer patients with corneal manifestations to ophthalmologists for evaluation and management.More attention should be paid to patients at high risk of corneal injury, such as older, female patients with both colitis and ileocolitis and multiple organ involvement.Prophylactic and therapeutic strategies should be further developed to promote vision health in these susceptible patients.
• fast, convenient online submission • thorough peer review by experienced researchers in your field • rapid publication on acceptance • support for research data, including large and complex data types • gold Open Access which fosters wider collaboration and increased citations maximum visibility for your research: over 100M website views per year

•
At BMC, research is always in progress.

Learn more biomedcentral.com/submissions
Ready to submit your research Ready to submit your research ?Choose BMC and benefit from: ?Choose BMC and benefit from:

Fig. 1
Fig. 1 Cumulative risk of dry eye disease (DED) (A), Sjögren's syndrome (SS)-related DED (B), non-SS-related DED (C), and corneal surface damage (D) between patients with and without inflammatory bowel disease with number of subjects at risk

Table 1
Baseline characteristics of subjects with and without inflammatory bowel diseaseAbbreviation: ASMD absolute standardized mean difference, IBD inflammatory bowel disease, SD

Table 2
Risk of dry eye and ocular surface damage for subjects with and without inflammatory bowel diseaseAbbreviation: aHR adjusted hazard ratio, CI confidence interval, IBD inflammatory bowel disease, IRR incidence rate ratio

Table 3
Univariate and multivariable analyses for dry eye diseaseAbbreviation: aHR adjusted hazard ratio, COPD chronic obstruction pulmonary disease, cHR crude hazard ratio

Table 4
Stratified analyses of dry eye disease for subjects with and without inflammatory bowel diseaseAbbreviation: aHR adjusted hazard ratio, CI confidence interval, IBD inflammatory bowel disease, IRR incidence rate ratio

Table 5
Univariate and multivariable analyses for corneal surface damageAbbreviation: aHR adjusted hazard ratio, COPD chronic obstruction pulmonary disease, cHR crude hazard ratio