Evaluation of neutrophil-to-lymphocyte ratio and platelet-to-lymphocyte ratio as potential markers for ulcerative colitis: a retrospective study

Ulcerative colitis (UC) is a chronic idiopathic inflammatory disease affecting the large intestine. It is characterized by relapsing mucosal inflammation. The aim of treatment is to induce and maintain disease remission. Assessing disease activity may help in optimizing the management of UC patients. C-reactive protein (CRP), erythrocyte sedimentation rate (ESR) and fecal calprotectin (FC) are frequently used for activity assessment of UC. These markers are nonspecific and may be influenced by other causes of inflammation. Some patients with severely active UC may have a normal CRP or ESR [1].

Recently, hematological parameters neutrophil-to-lymphocyte ratio (NLR), and platelet-to-lymphocyte ratio (PLR) have been reported as inflammation indicators. They are helpful in assessing severity of many chronic diseases, such as chronic obstructive pulmonary disease, hepatic echinococcosis, rheumatoid arthritis and many inflammatory diseases [2‐8]. Growing evidence also suggested that increased NLR or PLR indicates poor prognosis and/or survival for multiple cancers. It is reported that elevated pre-treatment NLR is related to shorter overall survival and progression free survival [9, 10]. Several studies have indicated that the level of NLR and PLR was elevated in inflammatory bowel disease (IBD) [11‐16].

NLR and PLR can be easily derived from the complete blood count, which is simple and cheap. Several studies indicated NLR and PLR could be used to evaluate UC severity. However, these results are mainly based on a relatively small number of patients. These studies did not explore the correlation between NLR, PLR and FC. FC can be used as a non-invasive stool biomarker, we estimate the association between PLR or NLR with FC in this study. We aimed to compare the NLR and PLR of patients with UC during remission and active phase. Furthermore, the correlation of PLR or NLR with other clinical indicators was examined.

In our retrospective study in a single UC cohort, we found that PLR and NLR were elevated in active UC patients in comparison to those in remission. NLR and PLR are positively correlated with inflammatory markers, such as CRP, ESR and FC. This is similar to previous studies. In a retrospective cohort including 119 active UC patients and 77 inactive patients, a NLR cut-off level of 2.16 indicated active UC [17]. In a Korean study, the cutoff value of NLR and PLR for detecting UC was 2.26 and 179.8, respectively [19]. A retrospective study compared the NLR of patients with UC during remission and active phase, and found the mean NLR of UC patients during active and inactive phase was 4.78 and 2.01. The ROC curve analysis revealed that the NLR and PLR cut-off level for active UC was 2.2 and 133.87, respectively [20]. A Turkish study of 71 UC patients and 140 controls indicated the cut-off value of NLR for active UC was 2.3 9 [21]. Another case–control study including 80 UC patients, NLR level in UC patients with active phase were higher than those in remission and controls. Using a ROC curve, NLR cut-off level of 1.9 predicted active UC [22]. NLR and PLR may be simple measures of disease severity in UC.

Neutrophils are the first leukocytes to be recruited to the inflammatory site with the capacity to kill pathogens. Besides their ability to eliminate pathogens, neutrophils take part in the immune response [23]. Interleukin-6 (IL-6), tumor necrosis factor-α (TN F-α) and other pro-inflammatory cytokines play a role in the activation and release of neutrophils. Neutrophil accumulation and crypt abscesses are classic features of inflamed mucosa of UC. Excessive accumulation of neutrophils in the intestine is associated with the disease severity and mucosal injury [24‐26]. The absolute neutrophil count and the platelet count is frequently increased in IBD [27].

Thrombocytosis may occur in UC and indicate active disease. Platelet count is regarded as a useful measure of systemic inflammation. A positive correlation was observed between platelet counts and disease severity. Clinically active UC patients have a higher platelet count than those with inactive UC. It is also reported that platelet count is associated with disease relapse in UC [28‐30]. Similarly, we observed that both neutrophil counts and platelet counts were elevated in the clinically active patients as compared to those in remission.

From this retrospective cohort study, we found PLR and NLR were positively correlated with FC. We also evaluated the cut-off value of FC to predict clinical remission. Previous study reported that the cut-off FC value of 200 μg/g indicated mucosal healing [31]. Our study found the cut-off FC level for clinical remission determined as Truelove and Witts was 653 μg/g. Lee et al also found a high cut-off FC value for clinical remission (1272.0 mg/kg), they defined the clinical remission by partial mayo score [32]. The sample size, study design and varying definitions of remission may lead to different results.

Our study has several limitations. A key limitation was the retrospective study design, we did not enroll all consecutive UC patients due to loss of laboratory examination data. The enrolled participants come from a single center with all Chinese subjects. Another limitation is that patients in the mild group based on Truelove and Witts criteria were classified as remission, we are unable to estimate endoscopic disease activity and histological remission in this study, because endoscopy had not been performed in some patients. We did not evaluate the impact of treatment, such as the use of immunomodulators, corticosteroids and biologic agents, which could potentially affect the leukocyte and thus the value of NLR and PLR [33]. Our study found male predominance in the active UC cases, the influence of gender on NLR and PLR were not investigated. Additionally, our study did not identify biomarkers that are clearly superior to ESR and CRP. However, NLR and PLR offer the advantage of being easily attainable and low cost in clinical practice. They are simple, easily measured and may be evaluated in every institution. Further studies are needed to determine whether combination of NLR, PLR and other non-invasive markers may be more useful predictors of disease activity. Finally, co-morbid conditions and nonspecific inflammation may influence inflammatory responses in patients with UC, we did not evaluate the association due to insufficient data.

In conclusion, our study indicated that NLR and PLR could be used in patients with UC as noninvasive markers of disease activity. Further study with prospective design and larger numbers of UC cases is warranted to explore the potential role of NLR and PLR in predicting disease activity.