Evaluation of Crohn’s Disease Small-Bowel Mucosal Healing Using Capsule Endoscopy and Usefulness of Leucine-Rich α2-Glycoprotein

Recently, the importance of achieving clinical and deep remissions with mucosal healing (MH) has been demonstrated as a therapeutic goal to avoid Crohn’s disease (CD) surgical operations. Although ileocolonoscopy (CS) is considered the gold standard, there are increasing reports on the benefits of capsule endoscopy (CE) and serum leucine-rich α2-glycoprotein (LRG) for evaluating small-bowel lesions in CD. We evaluated the data of 20 patients with CD who underwent CE in our department between July 2020 and June 2021 and whose serum LRG level was measured within 2 months. Concerning the mean LRG value, there was no significant difference between the CS-MH and CS-non-MH groups. Conversely, the mean LRG level was 10.0 μg/mL in seven patients in the CE-MH group and 15.2 μg/mL in 11 patients in the CE-non-MH group with a significant difference between the two groups (p = 0.0025). This study’s findings show that CE can sufficiently determine total MH in most cases, and LRG is useful for evaluating CD small-bowel MH because of its correlation with CE-MH. Furthermore, satisfying CS-MH criteria and a cut-off value of 13.4 μg/mL for LRG suggests its usefulness as a CD small-bowel MH marker, which could be incorporated into the treat-to-target strategy.


Introduction
Crohn's disease (CD) is a chronic inflammatory disease of pan-enteric lesions, from the mouth to the anus, characterized by granulomatous inflammation of all layers and a discontinuous distribution. Patients with CD frequently require surgery because of stenosis, bleeding, abscess, and perianal disease [1]. Currently, the treatment and prognosis of CD are changing dramatically with the emergence of anti-TNF-α antibodies and other biological agents, such as anti-interleukin (IL)-12/23 antibodies and anti-α4β7 integrin antibodies.
Recently, the importance of achieving clinical and deep remissions with mucosal healing (MH) has been demonstrated as a therapeutic goal to avoid CD surgical operations [2]. Moreover, more attention has been paid to the treat-to-target (T2T) approach for CD [3]. T2T regards clinical remission as a short-term optimal goal and MH as a long-term goal and involves appropriate evaluation of disease activity using biomarkers and endoscopy. Although ileocolonoscopy (CS) is considered the gold standard for determining MH in CD, there are increasing reports on the usefulness of capsule endoscopy (CE) for evaluating small-bowel lesions in CD cases [4][5][6][7]. In patients with suspected CD, CE has shown good included in the study (Figure 1). Table 1 and Table S1 show the patient characteristics. The serum LRG levels were measured in all 20 patients within 2 months and were analyzed by LSI Medience (Tokyo, Japan). CS was performed within 2 months in 12 of the 20 cases. Clinical disease activity was assessed using the CDAI, and clinical remission was defined by an index of <150 [30]. The Lewis Score (LS) [31] and Capsule Endoscopy Crohn's Disease Activity Index (CECDAI) [32] were used as the CE activity scores. The LS [31] divides the small bowel into three segments by transit time and assigns scores to endoscopic findings (i.e., mucosal edema, ulcers, and strictures) and characteristics of CD. Scores <135, 135-790, and >790 points indicate normal or MH, mild inflammation, and moderate-tosevere inflammation, respectively. Another score, known as the CECDAI score, divides the small bowel into two segments and includes the degree and extent of mucosal inflammation and the presence of strictures [33]. Scores <3.5, 3.5-5.8, and >5.8 points indicate normal or MH, mild-to-moderate inflammation, and moderate-to-severe inflammation, respectively. MH in CE was defined as an LS of <135 and CECDAI score <3.5 points. We defined the group that achieved MH in LS and CECDAI as the "CE-MH group" and the group that did not achieve MH as the "CE-non-MH group." Furthermore, we defined the group that achieved MH within the CS observation range (terminal ileum-rectum) as the "CS-MH group" and the group that did not achieve MH as the "CS-non-MH group." This study was approved by the Ethics Committee of Hirosaki University Graduate School of Medicine (approval number: 2019-110-1). We obtained written informed consent from all patients (or guardians) before inclusion in this study.

Study Design and Patients
The study included 29 consecutive patients with CD who underwent CE in our department between July 2020 and June 2021. Cases of incomplete CE, in which the cecum was not reached, and inaccessibility of videos due to mechanical errors were excluded from the study. We excluded nine patients without LRG measurements. Finally, 20 patients were included in the study (Figure 1). Table 1 and Table S1 show the patient characteristics. The serum LRG levels were measured in all 20 patients within 2 months and were analyzed by LSI Medience (Tokyo, Japan). CS was performed within 2 months in 12 of the 20 cases. Clinical disease activity was assessed using the CDAI, and clinical remission was defined by an index of <150 [30]. The Lewis Score (LS) [31] and Capsule Endoscopy Crohn's Disease Activity Index (CECDAI) [32] were used as the CE activity scores. The LS [31] divides the small bowel into three segments by transit time and assigns scores to endoscopic findings (i.e., mucosal edema, ulcers, and strictures) and characteristics of CD. Scores <135, 135-790, and >790 points indicate normal or MH, mild inflammation, and moderate-to-severe inflammation, respectively. Another score, known as the CECDAI score, divides the small bowel into two segments and includes the degree and extent of mucosal inflammation and the presence of strictures [33]. Scores <3.5, 3.5-5.8, and >5.8 points indicate normal or MH, mild-to-moderate inflammation, and moderateto-severe inflammation, respectively. MH in CE was defined as an LS of <135 and CECDAI score <3.5 points. We defined the group that achieved MH in LS and CECDAI as the "CE-MH group" and the group that did not achieve MH as the "CE-non-MH group." Furthermore, we defined the group that achieved MH within the CS observation range (terminal ileum-rectum) as the "CS-MH group" and the group that did not achieve MH as the "CSnon-MH group." This study was approved by the Ethics Committee of Hirosaki University Graduate School of Medicine (approval number: 2019-110-1). We obtained written informed consent from all patients (or guardians) before inclusion in this study.

Capsule Endoscopy Procedure
Small-bowel patency was confirmed using patency capsules (PC; Medtronic, Minneapolis, MN, USA) in all patients before the CE procedure. The PillCam TM SB3 (Medtronic) was used for all patients. The patient was instructed to ingest the PC at 23:00 (or before going to bed), 2 days before the CE examination. The patient was allowed to take 20 mL of 0.75% sodium picosulfate hydrate and 34 g of magnesium citrate at 21:00 on the day before the CE examination in preparation for the procedure and fasted for 12 h after. At 9:00 on the CE examination day, after confirming small-bowel patency (confirmation of PC excretion without collapse or PC existence in the colon within 30-33 h), the patient ingested the CE with water after drinking dimethicone water. The patient was released after identification of the intestinal villi using a real-time viewer. Drinking water was

Capsule Endoscopy Procedure
Small-bowel patency was confirmed using patency capsules (PC; Medtronic, Minneapolis, MN, USA) in all patients before the CE procedure. The PillCam TM SB3 (Medtronic) was used for all patients. The patient was instructed to ingest the PC at 23:00 (or before going to bed), 2 days before the CE examination. The patient was allowed to take 20 mL of 0.75% sodium picosulfate hydrate and 34 g of magnesium citrate at 21:00 on the day before the CE examination in preparation for the procedure and fasted for 12 h after. At 9:00 on the CE examination day, after confirming small-bowel patency (confirmation of PC excretion without collapse or PC existence in the colon within 30-33 h), the patient ingested the CE with water after drinking dimethicone water. The patient was released after identification of the intestinal villi using a real-time viewer. Drinking water was permitted for 2 h, and a meal was permitted for 4 h after CE ingestion. At 12 h after ingestion, the data recorder was removed, and CE excretion was confirmed visually by the patient. All images were analyzed using the RAPID 8 software (Given Imaging, Dublin, Ireland) by two board-certified physicians of the Japanese Association for Capsule Endoscopy. The LS was incorporated into the RAPID 8 software.

Statistical Analysis
The CRP levels, Alb levels, LRG levels, CDAI scores, LS, and CECDAI scores were compared between the CS-MH and CS-non-MH groups and between the CE-MH and CEnon-MH groups; a two-tailed t-test was used to compare these parameters in these groups. Spearman's correlation coefficient was used to analyze the correlation between LRG and CE activity scores (LS and CECDAI) and each disease activity marker (CRP, Alb, CDAI). p-values <0.05 were considered statistically significant. All analyses were performed using GraphPad PRISM7 software (San Diego, CA, USA).

Patient Characteristics
The clinical and demographic characteristics of patients are shown in Table 1. The study included 20 patients (12 male and eight female patients) with a mean age of 33  years. The disease locations were as follows: three had an ileal type, 15 had the ileocolonic type, and two had the colonic type. According to clinical activity assessed using CDAI, 16, 2, 1, and 1 patients were in remission, had mild diseases, had moderate disease, and had severe disease, respectively, with a mean CDAI score of 97.2 (20-327) points. The mean Alb, CRP, and LRG levels were 4.31 (3.6-5.1) g/dL, 0.155 (0.02-1.33) mg/dL, and 13.32 (8.5-22.2) µg/mL, respectively. CS was performed within 2 months in 12 of 20 cases, and CS-MH was achieved in five of 12 cases (41.7%). CE-MH was achieved in nine of 20 cases (45%), with mean LS and CECDAI scores of 642.8 (0-3789) and 6.3 (0-18), respectively.

Connection between Crohn's Disease Activity Markers and the Achieving Mucosal Healing in Ileocolonoscopy
Three to five patients (60%) in the CS-MH group had active lesions in the small intestine, and none of the five patients (0%) in the CS-non-MH group (two cases of colonic type were excluded) achieved CE-MH. The mean LRG was 13.52 (9.7-16.1) µg/mL in the CS-MH group and 16.86 (9.9-22.2) µg/mL in the CS-non-MH group, with no significant difference between the two groups (p = 0.254). Other disease activity markers (CRP, Alb, CDAI, LS, and CECDAI) also showed no significant difference between the two groups ( Figure 2). LS: Lewis Score, CECDAI: Capsule Endoscopy Crohn's Disease Activity Index, CS: ileocolonoscopy, MH: mucosal healing, CE: capsule endoscopy. "CS-MH" means the group that achieved MH within the CS observation range (terminal ileum-rectum). "CE-MH" means the group that achieved MH in both LS < 135 and CECDAI < 3.5.

Connection between Crohn's Disease Activity Markers and the Achieving Mucosal Healing in Ileocolonoscopy
Three to five patients (60%) in the CS-MH group had active lesions in the small intestine, and none of the five patients (0%) in the CS-non-MH group (two cases of colonic type were excluded) achieved CE-MH. The mean LRG was 13.52 (9.7-16.1) μg/mL in the CS-MH group and 16.86 (9.9-22.2) μg/mL in the CS-non-MH group, with no significant difference between the two groups (p = 0.254). Other disease activity markers (CRP, Alb, CDAI, LS, and CECDAI) also showed no significant difference between the two groups ( Figure 2).

Connection between Crohn's Disease Activity Markers and the Achievement of Mucosal Healing in Capsule Endoscopy
In the CE-MH group (two colonic types were excluded), CS was performed in two of the seven patients; all patients achieved CS-MH. Among the 11 patients in the CE-non-MH group, five of the eight patients (62.5%) who underwent CS were CS-non-MH. The mean LRG level was 10.0 μg/mL in seven patients of the CE-MH group and 15.2 μg/mL in 11 patients of the CE-non-MH group with a significant difference between the two groups (p = 0.0025). Furthermore, the mean CECDAI was 0.43 (0-3) in the CE-MH group and 10.09 (3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15)(16)(17)(18) in the CE-non-MH group with a significant difference between the two groups (p = 0.0001). In addition, there was a significant difference in CDAI and LS between the two groups (p = 0.0437 and p = 0.042, respectively). Conversely, there was no significant

Connection between Crohn's Disease Activity Markers and the Achievement of Mucosal Healing in Capsule Endoscopy
In the CE-MH group (two colonic types were excluded), CS was performed in two of the seven patients; all patients achieved CS-MH. Among the 11 patients in the CE-non-MH group, five of the eight patients (62.5%) who underwent CS were CS-non-MH. The mean LRG level was 10.0 µg/mL in seven patients of the CE-MH group and 15.2 µg/mL in 11 patients of the CE-non-MH group with a significant difference between the two groups (p = 0.0025). Furthermore, the mean CECDAI was 0.43 (0-3) in the CE-MH group and 10.09 (3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15)(16)(17)(18) in the CE-non-MH group with a significant difference between the two groups (p = 0.0001). In addition, there was a significant difference in CDAI and LS between the two groups (p = 0.0437 and p = 0.042, respectively). Conversely, there was no significant difference in the CRP (p = 0.2895) and Alb (p = 0.7190) levels between the two groups ( Figure 3).   Figure 4 shows a significant correlation coefficient of r = 0.56 between the LRG levels and LS and r = 0.62 between the LRG levels and CECDAI values. LRG showed significant correlations with all disease activity markers: r = 0.5430 between the LRG and CRP levels, r = 0.5138 between the LRG and Alb levels, and r = 0.6411 between the LRG levels and CDAI score.   Figure 4 shows a significant correlation coefficient of r = 0.56 between the LRG levels and LS and r = 0.62 between the LRG levels and CECDAI values. LRG showed significant correlations with all disease activity markers: r = 0.5430 between the LRG and CRP levels, r = 0.5138 between the LRG and Alb levels, and r = 0.6411 between the LRG levels and CDAI score. difference in the CRP (p = 0.2895) and Alb (p = 0.7190) levels between the two groups (Figure 3).  Figure 4 shows a significant correlation coefficient of r = 0.56 between the LRG levels and LS and r = 0.62 between the LRG levels and CECDAI values. LRG showed significant correlations with all disease activity markers: r = 0.5430 between the LRG and CRP levels, r = 0.5138 between the LRG and Alb levels, and r = 0.6411 between the LRG levels and CDAI score.  As shown in Figure 5, a significant correlation was observed between the CRP levels and LS (r = 0.6132) but not between the Alb levels and LS (r = 0.01253) and between the CDAI score and LS (r = 0.4355). Concerning CECDAI, a significant correlation was observed between the CRP levels and CECDAI score (r = 0.5907) and between the CDAI and CECDAI (r = 0.5389) scores but not between the Alb levels and CECDAI score (r = 0.1403).

Correlation of Leucine-Rich α2-Glycoprotein with Crohn's Disease Activity Markers
Diagnostics 2023, 13, x FOR PEER REVIEW 7 of 12 As shown in Figure 5, a significant correlation was observed between the CRP levels and LS (r = 0.6132) but not between the Alb levels and LS (r = 0.01253) and between the CDAI score and LS (r = 0.4355). Concerning CECDAI, a significant correlation was observed between the CRP levels and CECDAI score (r = 0.5907) and between the CDAI and CECDAI (r = 0.5389) scores but not between the Alb levels and CECDAI score (r = 0.1403).  Figure 6 shows original pictures of CE findings in a 42-year-old male patient (Table  S1). We present this case as an example that the LRG level is useful as a CD small-bowel MH marker to decide concerning the next treatment. In May 2021, the patient underwent emergency surgery for acute abdomen. As the intraoperative findings showed stricture with a longitudinal ulcer and perforation in the ileum, partial ileal resection was performed. CD was suspected on the pathological findings. However, findings of upper and lower gastrointestinal endoscopy were normal. He had no fever, abdominal pain, or anal lesions. He had 1-2 loose stools per day and remission in CD severity (CDAI score, 70 points). Laboratory tests indicated the following: white blood cell count, 5320/μL; CRP levels, 0.11 mg/dL; and LRG levels, 14.2 μg/mL. CE revealed active small-bowel lesions, such as notch-like depressions and longitudinal ulcer scars in the jejunum and aphthous and linear ulcers in the distal ileum (LS, 1036 points; CECDAI score, 8 (moderate-severe)).   (Table  S1). We present this case as an example that the LRG level is useful as a CD small-bowel MH marker to decide concerning the next treatment. In May 2021, the patient underwent emergency surgery for acute abdomen. As the intraoperative findings showed stricture with a longitudinal ulcer and perforation in the ileum, partial ileal resection was performed. CD was suspected on the pathological findings. However, findings of upper and lower gastrointestinal endoscopy were normal. He had no fever, abdominal pain, or anal lesions. He had 1-2 loose stools per day and remission in CD severity (CDAI score, 70 points). Laboratory tests indicated the following: white blood cell count, 5320/µL; CRP levels, 0.11 mg/dL; and LRG levels, 14.2 µg/mL. CE revealed active small-bowel lesions, such as notch-like depressions and longitudinal ulcer scars in the jejunum and aphthous and linear ulcers in the distal ileum (LS, 1036 points; CECDAI score, 8 (moderate-severe)).

The Original Pictures of CE Findings
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Discussion
MH has become widely accepted as a therapeutic target for CD, as it is associated with reducing hospitalization and surgery. The findings of this study revealed that assessment using the existing disease activity markers and CS alone is insufficient for smallbowel MH determination. CE is useful for total MH determination that satisfies CS-MH and CE-MH as well as CD small-bowel MH determination. The LRG levels showed a significant correlation with disease activity markers, including the CE activity score. Moreover, satisfying CS-MH and a cut-off value of 13.4 μg/mL for LRG proposed by Kawamoto et al. was useful as an indicator of CD small-bowel MH or total MH [28].
Previous reports have shown that the CDAI score and CRP levels do not reflect CD small-bowel lesion activity [6,15]. Although the level of CRP, one of the major acute phase proteins synthesized in the liver, is induced by IL-6 [34], it may not always reflect disease activity in inflammatory diseases, such as systemic lupus erythematosus and ulcerative colitis (UC), which are primarily regulated by cytokines other than IL-6 [35]. In contrast, CS is still considered the gold standard for determining MH in CD. However, the indication of CS should be carefully considered because of its invasiveness and the possibility of accidental complications, which might result in disease aggravation [36]. Samuel et al. reported that CS does not provide sufficient information on the small bowel because it is almost impossible to observe the proximal side of the terminal ileum [14]. Concerning the activity scores using CS, the CD endoscopy index of severity [37] and the simple endoscopic score for CD (SES-CD) are generally used [38]; however, the risk of underestimating lesions in the proximal small intestine has been highlighted [14]. BAE and CE are also used to evaluate lesions in the proximal small bowel. Studies using BAE have reported that the presence of ≥0.5 cm ulcerative lesions is an independent risk factor for relapse and surgery [15], thus making it useful for small-bowel MH determination but unsuitable for frequent monitoring because of the increased invasiveness. In contrast, CE can be used to evaluate the entire small bowel with relatively minimal invasion in cases with confirmed small-bowel patency. A meta-analysis showed that CE has equivalent or higher diagnostic accuracy than other modalities in patients with suspected CD [7]. In this meta-analysis of 19 trials, there was a significant increment of diagnostic accuracy with CE, compared with CS (22%; 95% CI, 5-39%; p < 0.00001), radiography (32%; 95% CI, 16-

Discussion
MH has become widely accepted as a therapeutic target for CD, as it is associated with reducing hospitalization and surgery. The findings of this study revealed that assessment using the existing disease activity markers and CS alone is insufficient for small-bowel MH determination. CE is useful for total MH determination that satisfies CS-MH and CE-MH as well as CD small-bowel MH determination. The LRG levels showed a significant correlation with disease activity markers, including the CE activity score. Moreover, satisfying CS-MH and a cut-off value of 13.4 µg/mL for LRG proposed by Kawamoto et al. was useful as an indicator of CD small-bowel MH or total MH [28].
Previous reports have shown that the CDAI score and CRP levels do not reflect CD small-bowel lesion activity [6,15]. Although the level of CRP, one of the major acute phase proteins synthesized in the liver, is induced by IL-6 [34], it may not always reflect disease activity in inflammatory diseases, such as systemic lupus erythematosus and ulcerative colitis (UC), which are primarily regulated by cytokines other than IL-6 [35]. In contrast, CS is still considered the gold standard for determining MH in CD. However, the indication of CS should be carefully considered because of its invasiveness and the possibility of accidental complications, which might result in disease aggravation [36]. Samuel et al. reported that CS does not provide sufficient information on the small bowel because it is almost impossible to observe the proximal side of the terminal ileum [14]. Concerning the activity scores using CS, the CD endoscopy index of severity [37] and the simple endoscopic score for CD (SES-CD) are generally used [38]; however, the risk of underestimating lesions in the proximal small intestine has been highlighted [14]. BAE and CE are also used to evaluate lesions in the proximal small bowel. Studies using BAE have reported that the presence of ≥0.5 cm ulcerative lesions is an independent risk factor for relapse and surgery [15], thus making it useful for small-bowel MH determination but unsuitable for frequent monitoring because of the increased invasiveness. In contrast, CE can be used to evaluate the entire small bowel with relatively minimal invasion in cases with confirmed small-bowel patency. A meta-analysis showed that CE has equivalent or higher diagnostic accuracy than other modalities in patients with suspected CD [7]. In this metaanalysis of 19 trials, there was a significant increment of diagnostic accuracy with CE, compared with CS (22%; 95% CI, 5-39%; p < 0.00001), radiography (32%; 95% CI, 16-48%; p < 0.00001), and CTE (47%; 95% CI, 31-63%; p = 0.009) but not MRE (10%; 95% CI, −14-34%; p = 0.43) [7]. More recently, two quantitative CE activity scores, LS and CECDAI, are available for monitoring CD. Although LS is derived from the most severe segment of the small bowel, CECDAI is a cumulative score that represents the summation of segmental scores for the proximal and distal small bowel. LS ≥ 350 points has been reported as a predictor of relapse within 24 weeks [39]; however, it has not been established as a method for evaluating small-bowel MH. In the present study, all patients in the CE-MH group satisfied CS-MH. In contrast, patients in the CS-non-MH group did not satisfy CE-MH, indicating that CE can detect CD small-bowel MH and total MH in most cases.
LRG reflects IBD activity more acutely than previous serum markers [26]. Several studies have evaluated LRG in patients with UC. Serada et al. reported an increased LRG level in patients with UC; the values correlated with clinical activity better than CRP [26]. Shinzaki et al. demonstrated that the serum LRG levels significantly increased and correlated with clinical and endoscopic activities in patients with UC [27]. Conversely, there are still few reports on the usefulness of LRG in detecting MH in patients with CD [40]. Yasutomi et al. showed that the correlations with the endoscopic activity and predictability of MH of LRG were similar to those of CRP and comparable to those of FC. In addition, it should be noted that the LRG levels discriminated patients with MH from those with endoscopic activity among patients with CD with normal CRP levels. However, the cut-off value for LRG as a CD small-bowel MH marker has not been established. LRG levels ≥16 µg/mL can reportedly differentiate between active (CDAI ≥ 150 points and SES-CD ≥4 points) or inactive CD (according to the manufacturer's instructions; Sekisui Medical Co., Tokyo, Japan). Kawamoto et al. reported a cut-off value of 13.4 µg/mL for LRG as a predictor of ≥0.5-cm small-bowel ulcerative lesions using BAE [28]. Yasutomi et al. reported a cut-off value of 13 µg/mL as a predictor of SES-CD of 0 [40]. A study using CE proposed a cut-off value of 14 µg/mL as a predictor of LS < 350 points with 80% specificity and a negative predictive value of 100% [29]. Compared with the results obtained in other studies conducted on a larger number of patients [26,27,40], this study shows the same results that LRG could discriminate patients with MH from those with endoscopic activity among patients with IBD with normal CRP levels. In this study, the LRG levels showed a significant correlation with disease activity markers, including CE activity scores. Furthermore, satisfying CS-MH and a cut-off value of 13.4 µg/mL for LRG suggested its usefulness as an indicator of CD small-bowel MH and total MH. These results show that LRG is useful as a CD small-bowel MH marker that could be incorporated into T2T. Therefore, efficiently using LRG could reduce the invasion of patients with CD (a burden for the endoscopist) and the country's medical expenses.
This study has some limitations. First, this is a single-center study with a small sample size because the CE system is expensive, and our hospital is the only institution with a CE system in our medical area. In the future, multicenter studies are required. Although there was no recommended regimen for CE preparation, we performed CE according to the standard bowel cleansing preparation. Therefore, similar results would be obtained in multicenter studies. Second, this is a single-arm study without including a healthy control group; it was impossible to perform the exact measurement on healthy individuals. Third, the FC level was not measured in this study because the health insurance system in Japan did not cover its measurement. A further study of the relationship between the LRG and FC levels should be conducted, although a comparison of the accuracy of LRG and FC has been reported [40]. Fourth, the information concerning the lesions found in CE and its location was not examined in this study. A further study of the severity and location found in CE is required, as we know that patients with proximal small-bowel lesions have a worse prognosis.

Conclusions
The findings of our study showed that CS alone is insufficient to determine smallbowel MH, while CE can sufficiently determine total MH in most cases. CE is beneficial for CD small-bowel MH evaluation, and satisfying CS-MH and a cut-off value of 13.4 µg/mL for LRG suggests its usefulness as a CD small-bowel MH marker, which could be incorporated into the T2T approach.