Immunoglobulin (Ig) G4-related sclerosing cholangitis in patients resected for presumed perihilar cholangiocarcinoma: a 10-year experience
Introduction
Immunoglobulin (Ig) G4-related sclerosing cholangitis (IgG4-SC), also called IgG4-associated cholangitis (IAC) (1), is a multi-organ inflammatory disorder which is responsive to steroid therapy (2). Distinguishing IgG4-SC from perihilar cholangiocarcinoma (PHC) is challenging as the presentation of these diseases may be similar, and accurate diagnostic serological markers have still not been found. Therefore, up to one-third of patients, before being diagnosed with IgG4-SC, underwent surgery that was presumed to be for PHC (3). The general diagnostic methods for IgG4-SC include preoperative imaging observations, endoscopic retrograde cholangiopancreatography (ERCP), brush cytology, and detection of sIgG4. Imaging examinations of IgG4-SC can detect the extrahepatic bile duct or the bile duct around the porta hepatis, which is one of the signs of primary liver cancer.
In a series of reports prior to 2008, the benign lesion resection rate of PHC was considered to vary from 8% to 22% (4). It is unclear whether this was due to IgG4-SC. The International Consensus Pathology Criteria for IgG4-related Disease (ICPD) have been developed to determine the diagnosis of IgG4-SC in resected specimens (5). Pathological sections are characterized by infiltration of lymphocytes and a large number of IgG4 plasma cells, accompanied by typical histopathological changes, including storage fibrosis and obliterative phlebitis.
The purpose of this study was to investigate the incidence rate of IgG4-SC in patients with primary liver cancer and to reveal whether the incidence rate of IgG4-SC has declined in the 10 years since 2010. In addition, we aimed to evaluate the diagnostic dilemma of IgG4-SC.
We present the following article in accordance with the STROBE reporting checklist (available at http://dx.doi.org/10.21037/atm-21-140).
Methods
Study subjects and data collection
All patients who underwent radical resection of presumed primary liver cancer in West China Hospital of Sichuan University from January 2010 to December 2019 were included. Demographic characteristics, initial symptoms, clinical manifestations (jaundice, abdominal pain, weight loss, nausea, and vomiting), and blood chemistry and serological tests, including total bilirubin (TB), alanine transaminase (ALT), gamma glutamyltransferase (GGT), carbohydrate antigen 19-9 (CA 19-9), carcinoembryonic antigen (CEA), cancer antigen 125 (CA-125), alpha fetoprotein (AFP), and sIgG4, were collected retrospectively. In addition, information on biliary drainage procedures, types of resection, postoperative outcomes, and complications [histopathology, incidence rate, Clavien-Dindo classification of complications and mortality (6,7)] were recorded. Patients were divided into the PHC group and the IgG4-SC group, and their clinical and laboratory characteristics were analyzed.
Histopathological evaluation
The resected specimens of all patients with benign diseases were reevaluated by a professional pathologist who was not informed of the diagnostic information, and the paraffin-embedded resected specimens were assessed according to the ICPD (5). The 3 major histopathological features associated with IgG4-SC were dense lymphoplasmacytic infiltration, fibrosis, and focal and occlusive phlebitis. Secondary criteria were phlebitis without cavity occlusion and eosinophilia. The criteria were positive or negative. Immunohistochemical staining of IgG4 plasma cells was also performed, and IgG4 cell counts were obtained for surgical specimens. The diagnostic accuracy of plasma cell numbers depends largely on the selected reference values, and the different organizational conditions and changes. In a case-control study on endoscopic biopsies of the ampulla of Vater and bile duct wall, a threshold of 10 IgG4+ plasma cells/(high power field, HPF) yielded limited sensitivity but reasonable specificity (8). In this study, 2 or 3 histological features combined with more than 10 IgG4 plasma cells/HPF in each surgical specimen were considered to be highly suggestive of IgG4-SC. Benign disease that did not meet the IgG4-SC histological criteria or other diagnoses were considered atypical inflammation/fibrosis. This study did not reassess and excluded resected specimens from patients with malignant disease.
All procedures performed in this study involving human participants were in accordance with the Declaration of Helsinki (as revised in 2013). This retrospective study was approved by the Ethics Committee of West China Hospital of Sichuan University (2020 Year of Approval No. 388) and waived the need for informed consent.
Statistical analysis
The characteristics of the different patients in the IgG4-SC group and the PHC group were analyzed by descriptive statistical methods, and the differences between groups were compared using the independent sample t-test and chi square test. SPSS 26 software was used for statistical analysis, and significant differences were defined as P value <0.05.
Results
Population characteristics
A total of 289 patients underwent radical resection for presumed PHC at our hospital from January 2010 to December 2019. Among the 263 (91%) patients with malignant disease, 235 (81%) were diagnosed with PHC and 28 (10%) of them had a malignancy other than PHC, including intrahepatic cholangiocarcinoma, gallbladder carcinoma, and hepatocellular carcinoma involving the perihilar bile ducts.
A total of 26 patients (9%) had benign disease, without histological evidence of malignancy. Among them, 23 had sclerosing inflammation, 1 had cystadenoma, and 2 had xanthogranulomatous cholangitis. Additionally, 18 had a definitive diagnosis of IgG4-SC. The misdiagnosis rate was 19% (54/289), of which, 26 patients had benign disease, and 28 patients had malignancies (Table 1).
Full table
Histopathological evaluation of IgG4-SC
A total of 26 resection specimens were available for reevaluation of IgG4-SC, including 23 patients with a sclerosing type of inflammation. In addition, 18 resection specimens met the adjusted pathological criteria for IgG4-SC (Figure 1A,B). Moreover, 7 patients scored over 50 IgG4+ plasma cells/HPF, and 22 scored over 10 IgG4+ plasma cells/HPF (Figure 1C, Table 2). The remaining 5 patients were difficult to classify and were excluded from this study.
Full table
Demographic, clinical characteristics, blood chemistry, and serology
Demographic, clinical characteristics, blood chemistry, and serology are shown in Table 3. The mean age of onset was similar between the two groups (59 vs. 57, P=0.39), however, the percentage of male patients in the IgG4-SC group was significantly higher than in the PHC group (83% vs. 59%, P=0.004). Compared with PHC patients, IgG4-SC patients were more prone to abdominal pain and weight loss (P<0.001).
Full table
There was no significant difference in the rate of jaundice between 2 groups (76% vs. 78%, P=0.85), however, patients with PHC were supported by a higher preoperative TB level (199 vs. 47 µmol/L, p<0.001). Furthermore, preoperative ALT and GGT were also significantly higher in the PHC group (143 vs. 73 U/L, P=0.013, 677 vs. 391 U/L, respectively, P=0.029). CA 19-9 and CA-125 levels were higher in PHC patients compared to IgG4-SC patients (387 vs. 66, 59 vs. 26 U/mL, respectively, P<0.001), while the two groups had similar CEA levels (16 vs. 9 ng/mL, P=0.73).
Pre-operative drainage, resection type, morbidity, and perioperative mortality
At the same time as radical resection, patients with PHC received extended hemihepatectomy more often than patients with IgG4-SC (88% vs. 44%, P<0.001), and patients with PHC had more frequent preoperative drainage (37% vs. 11%, P=0.027). However, there was no significant difference in postoperative morbidity between the two groups (P=0.29; Table 4). The PHC group had higher perioperative mortality, but the difference between the two groups was not statistically significant (3.8% vs. 0%, P=0.447; Table 4).
Full table
Imaging and diagnostic endoscopic techniques
This study also evaluated the presence of extrabiliary IgG4-related disease (RD) in patients with IgG4-SC on preoperative MRI/CT scans. Two patients presented with chronic pancreatitis (parenchymal atrophy and calcification), with no typical change in autoimmune pancreatitis (AIP; diffuse enlargement of the pancreas; Figure 2A,B). No other possible manifestations of IgG4-RD were found in preoperative imaging.
In summary, of the 289 patients who underwent PHC resection, 26 (9%) were eventually diagnosed as benign. There were 18 patients (6% of the total) diagnosed with IgG4-SC by histology, accounting for 69% of all benign diseases.
Discussion
IgG4-SC is a biliary manifestation of IgG4-RD and a subgroup of SC, which is defined as the progressive narrowing and destruction of the bile duct caused by diffuse inflammation and fibrosis. The clinical features of IgG4-SC are: (I) chronic cholestasis enzyme elevation, (II) continuously increasing serum IgG4 levels, (III) intrahepatic and/or extrahepatic bile duct segmental or diffuse stenosis, and bile duct wall thickening, (IV) histologically visible lymphoplasmacytic and IgG4-positive plasma cell infiltration and fibrosis, (V) IgG4-RD in other organs, mainly involving AIP, (VI) effectiveness of steroid therapy.
Unfortunately, due to the rare occurrence of the disease and the lack of a diagnostic gold standard, the clinical, serological, and imaging characteristics of IgG4-SC have not been clearly described. In 2008, Ghazale et al. described the clinical characteristics, treatment responses, and recurrence predictors of 53 IgG4-SC patients (3). Six years later, Huggett et al. found that AIP and IgG4-SC were significantly related to morbidity and mortality in a cohort of 115 patients, including 68 IgG4-SC patients, which is the largest series of IgG4-SC cases reported so far (9). At the same time, isolated IgG4-SC without evidence of pancreas or other organ involvement is uncommon, and it is difficult to distinguish it from preoperative PHC.
In this study, we reported the incidence of IgG4-SC in a large cohort of 289 patients resected for presumed primary liver cancer over the past 10 years. We found that 26 patients (9%) had benign diseases rather than PHC, which was lower than the literature since 2008 (10,11). This may be due to the improvements in imaging methods over the past decade. Eighteen patients with benign diseases were clearly diagnosed as IgG4-SC. In our study, this disease mainly affected men aged 26 to 72 (male to female ratio was 5:1), and it usually manifested as obstructive jaundice, weight loss, and abdominal pain. The preoperative TB, ALT, GGT, CA 19-9, and CA-125 levels in the PHC group were significantly increased, and the incidence of large-area resection in the PHC group was also higher than that of the IgG4-SC group, suggesting that IgG4-SC mostly showed mild bile duct obstruction and with less cholestasis. Patients with less cholestasis and significantly elevated levels of CA 19-9 and CA-125 were more likely to develop PHC.
Although sIgG4 levels are often elevated in IgG4-SC, when they are only slightly elevated [<4× upper limit of normal (ULN)] the diagnostic value is limited, as approximately 15% of PHC patients have elevated sIgG4 levels, and 20% of IgG4-SC patients have normal sIgG4 levels. Therefore, merely elevated sIgG4 does not exclude PHC, and using a 2-fold cut-off for sIgG4 may not be able to reliably distinguish IgG4-SC. When the cut-off value is 4 times, ULN-sIgG4 is 100% specific for IgG4-SC (12). In our study, less than one-third of patients had preoperative sIgG4 levels. The preoperative sIgG4 level of the IgG4-SC group was significantly higher than that of the PHC group (3.81 vs. 1.00 mg/mL, P=0.039). Among them, 19% of PHC patients had elevated sIgG4 levels (>1.5 mg/mL), and 20% of IgG4-SC patients had normal sIgG4 levels. The sensitivity and specificity of sIgG4 for diagnosing IgG4-SC were 80% and 81%, respectively. Therefore, when there is only a slight increase in sIgG4 (1–4× ULN), the diagnostic value is limited. In addition, when the cut-off value is 4 times the ULN, sIgG4 has 100% specificity for IgG4-SC, however, the sensitivity quickly drops to 20%.
Considering the small sample sizes of the 2 groups, these data may not reflect the true situation. However, increasing the detection rate of sIgG4 can reduce the misdiagnosis rate to a certain extent. According to research by the National People’s Congress, in the background of dense lymphoplasma cell infiltration, IgG4+ plasma cell infiltration, as well as the presence of storage fibrosis and/or phlebitis obliterans, are highly suggestive of IgG4-RD (5). In addition, Masaki et al. also showed that reducing the critical level of >50 IgG4+ plasma cells/HPF to the critical level of >10 IgG4+ plasma cells/HPF, when combined with the above major histological criteria, will not reduce specificity but will increase sensitivity (13). In our study, 2 or 3 histological features combined with >10 IgG4+ plasma cells/HPF in each surgical specimen were considered to be highly suggestive of IgG4-SC. By scoring the IgG4+ plasma cell infiltration and typical histopathological characteristics in the excised specimens, we found that 78% (n=18/23) of patients had histological evidence of IgG4-SC, and there were only 7 patients who scored greater than 50 IgG4+ cells in the 23 cases of benign diseases. Furthermore, there were 18 cases of IgG4+ cells/HPF >10 who also met the main histological criteria, which is consistent with the above conclusions.
Although endoscopic biopsy through the bile duct and Vater’s nipple is an important method to exclude PHC, it is very difficult to obtain a large enough pathological sample with IgG4-SC characteristics (14). The specimens are usually too small to observe the full spectrum of lymphoplasmacytic cholangitis. Therefore, preoperative imaging should be given priority. Cholangiography [ERCP or magnetic resonance cholangiopancreatography (MRCP)] and computed tomography (CT) plus venography can detect stenosis of the bile duct tree, thickening and enhancement of the bile duct wall, dilation of the upstream bile duct, and in some cases soft tissue masses are suspected of being malignant (14-16). By reviewing the imaging data, we found that there were no clinical or imaging features that could clearly distinguish PHC from IgG4-SC. However, the preoperative imaging examinations should always be strict.
In recent years, the awareness of IgG4-SC in patients with primary liver cancer has gradually increased. However, our research results showed that in the past 10 years, the proportion of suspected primary liver cancer patients with IgG4-SC after resection has not significantly decreased. This may be largely due to the lack of an accurate IgG4-SC diagnostic test. A more accurate, non-invasive diagnostic test would be beneficial for patients with malignancies and/or IgG4-SC. Doorenspleet et al. demonstrated that IgG4/IgG RNA determined by quantitative polymerase chain reaction (qPCR) has a higher diagnostic accuracy than sIgG4 for IgG4-SC (17). Therefore, it is recommended to include this in the diagnosis of hypothetical PHC patients (18). However, due to the complexity of detection, clinical application takes time.
In addition, diagnostic endoscopy techniques such as choledochoscopy (19-22) and endoscopic ultrasound (EUS) enhance the accuracy of bile duct imaging and tissue sampling, and are in line with current gold standards (such as ERCP-guided brush cytology). Compared with the diagnosis of bile duct stricture, the sensitivity and specificity are higher (23). Intraductal ultrasound (IDUS) can effectively distinguish IgG4-SC and PHC (14). IDUS can obtain high-resolution images of the layered structure of the bile duct wall, and can clearly distinguish the pathological differences between IgG4-SC and PHC. The most valuable characteristic for diagnosing bile duct stricture is the uniform thickening of the inner and outer walls. CT and MRCP can also be used to detect the thickness of the bile duct wall, however, EUS or IDUS can show these subtle changes more clearly. The combined application of MRCP and EUS is therefore helpful for the differential diagnosis of IgG4-SC and PHC.
In our study, only a few patients had IDUS and EUS before surgery, but most patients underwent CT and MRCP. However, no clinical or radiographic features were found that could clearly differentiate IgG4-SC from PHC and thus prevent a number of unnecessary resections in patients with IgG4-SC. Two patients with IgG4-RD had signs of chronic pancreatitis on initial imaging examinations, but were not typical signs of AIP. Even so, preoperative imaging and endoscopic diagnostic techniques should always strictly examine the signs of extrabiliary manifestations of IgG4-RD.
In conclusion, it is difficult to distinguish IgG-SC from PHC. In the past 10 years, this misdiagnosis has resulted in a large number of ineffective hepatectomies. Improving the detection rate of sIgG4 may therefore avoid misdiagnosis, surgery, and life-threatening complications. Furthermore, when the cut-off value is 4 times the ULN, sIgG4 may strongly indicate IgG4-SC. For patients who intend to receive surgical treatment, preoperative IDUs and EUS examinations are recommended.
Acknowledgments
Funding: This study was supported by grants from the Key Technology Research and Development Program of Sichuan Province (2018SZ0225).
Footnote
Reporting Checklist: The authors have completed the STROBE reporting checklist. Available at http://dx.doi.org/10.21037/atm-21-140
Data Sharing Statement: Available at http://dx.doi.org/10.21037/atm-21-140
Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at http://dx.doi.org/10.21037/atm-21-140). The authors have no conflicts of interest to declare.
Ethical Statement: The authors are accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved. All procedures performed in this study involving human participants were in accordance with the Declaration of Helsinki (as revised in 2013). This retrospective study was approved by the Ethics Committee of West China Hospital of Sichuan University (2020 Year of Approval No. 388) and waived the need for informed consent.
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(English Language Editor: C. Betlazar-Maseh)