Influence of sex on outcomes of liver transplantation for hepatocellular carcinoma: a multicenter cohort study in China
2024-05-08JianChenZheYangFengqiangGaoZhishengZhouJunliChenDiLuKaiWangMeihuaSuiZhengxinWangWenzhiGuoGuoyueLyuHaizhiQiJinzhenCaiJiayinYang0ShusenZhengXiaoXu
Jian Chen*, Zhe Yang*, Fengqiang Gao, Zhisheng Zhou, Junli Chen, Di Lu, Kai Wang, Meihua Sui,Zhengxin Wang, Wenzhi Guo, Guoyue Lyu, Haizhi Qi, Jinzhen Cai, Jiayin Yang0, Shusen Zheng,,2,Xiao Xu,2,,
1Zhejiang University School of Medicine, Hangzhou 310030, China; 2Institute of Organ Transplantation, Zhejiang University,Hangzhou 310030, China; 3Department of Hepatobiliary and Pancreatic Surgery, Shulan Hospital of Hangzhou, Hangzhou 310006, China; 4National Center for Healthcare Quality Management in Liver Transplant, Hangzhou 310003, China;5Department of General Surgery, Huashan Hospital, Fudan University, Shanghai 200040, China; 6Department of Hepatobiliary and Pancreatic Surgery, The First Affiliated Hospital of Zhengzhou University, Zhengzhou 450052, China; 7Department of Hepatobiliary and Pancreatic Surgery, The First Hospital of Jilin University, Changchun 130021, China; 8Department of Liver Transplantation, Second Xiangya Hospital, Central South University, Changsha 410008, China; 9Department of Organ Transplantation Center, The Affiliated Hospital of Qingdao University, Qingdao 266003, China; 10Department of Liver Surgery and Liver Transplantation Center, West China Hospital, Sichuan University, Chengdu 610044, China; 11NHC Key Laboratory of Combined Multi-organ Transplantation, Hangzhou 310003, China; 12Department of Hepatobiliary and Pancreatic Surgery,The First Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou 310003, China
ABSTRACT Objective: Sex-specific differences are observed in various liver diseases, but the influence of sex on the outcomes of hepatocellular carcinoma (HCC) after liver transplantation (LT) remains to be determined.This study is the first Chinese nationwide investigation of the role of sex in post-LT outcomes in patients with HCC.
KEYWORDS Sex; liver transplantation; hepatocellular carcinoma; outcome; recipient; donor
Introduction
Liver transplantation (LT) is an effective therapeutic option for patients with early stage hepatocellular carcinoma (HCC),because it simultaneously removes intrahepatic tumors as well as the pathogenic liver background.In China, from 2015 to 2020, approximately 45% of adult LTs were performed for malignant liver tumors1-3.Because of a shortage of available donor grafts, not all patients with HCC waiting for liver grafts can receive LT4.Therefore, selecting the best candidates who would benefit from LT for HCC and identifying factors that should be considered in organ allocation are critical.
Sex is an important factor that markedly influences the occurrence of liver diseases, including viral hepatitis, liver cirrhosis, and HCC5-7.Epidemiological studies have shown a higher incidence of HCC in males than females, and comparable results have also been observed in mouse hepatocarcinogenesis models8-10.Studies have yielded contradictory conclusions regarding the influence of sex on the outcomes of LT for HCC11-14.A study from Korea has found higher recurrence risk in LT recipients with HCC with male rather than female donors12.However, this conclusion has been challenged by a study demonstrating that donor sex does not affect post-LT recurrence of HCC in a Japanese cohort13.In another study from the United States, the sex of recipients was found to have a significant impact on post-LT HCC recurrence14.The differences in the results might have arisen from differences in tumor etiology and race.Hence, the influence of sex on survival after LT for HCC remains to be determined, particularly for HCC caused by etiological factors such as hepatitis B infection, in diverse cohorts.Moreover, a larger scale clinical study is also needed to further uncover the roles of sex in the outcomes of LT for HCC.However, no prior studies have been performed in China to investigate the influence of sex on post-transplant outcomes of patients with HCC.
Herein, we present the first large-scale study in China exploring the correlation between sex and post-LT outcomes in patients with HCC through propensity score matching (PSM)analysis.Our results revealed that the sex of the recipient, rather than that of the donor, is associated with post-LT survival in HCC.Of note, donor-recipient matching patterns based on sex were also associated with post-LT survival in recipients with HCC.This study highlights sex-specific differences in post-LT outcomes in HCC, and provides evidence that modifications are needed to achieve liver transplant allocation by sex.
Methods
Patients and informed consent
This study retrospectively analyzed LTs performed between January 2015 and December 2020, with clinicopathological data registered in the China Liver Transplant Registry (CLTR).The study was performed in accordance with the Declaration of Helsinki and was approved by the CLTR.The Institutional Review Board of the China Liver Transplantation Registration Scientific Committee and the ethics committee approved the study, under approval number 20220023.The civilian organ donation has been the sole source for organ transplantation in China since January 201515.No organs in this study were procured from executed prisoners, and informed consent was obtained for the organs in all LTs.All patients with HCC scheduled for LT were evaluated preoperatively through ultrasound,Doppler ultrasound, computed tomography (CT), magnetic resonance imaging, positron emission tomography-CT, bone scintigraphy, and colonoscopy to rule out extrahepatic diseases that were contraindications for LT.Preoperative loco-regional therapies, such as radiofrequency ablation (RFA), transcatheter arterial chemoembolization (TACE), and percutaneous ethanol injection, were performed to control or decrease tumor burden.Radiological information was acquired from the most recent CT or magnetic resonance imaging examination before LT.HCC recurrence was diagnosed according to the Guidelines for the Diagnosis and Treatment of Primary Liver Cancer in China.
Inclusion and exclusion criteria
A total of 3,769 patients were studied.Patients with the following features were excluded: other concurrent malignancies; pathologically confirmed tumor types other than HCC,such as intrahepatic cholangiocarcinoma, combined hepatocellular-cholangiocarcinoma, fibrolamellar hepatocellular carcinoma, or secondary metastatic tumor; and lack of histological confirmation of HCC for LT.Patients who received living donor LT, split LT, reduced-size LT, or simultaneous transplantation were excluded.Pediatric patients (< 18 years)and older patients (> 65 years) were excluded.Furthermore,patients with type 1 and type 2 portal vein tumor thrombus or tumor metastasis were excluded.All enrolled patients were followed up at least 6 months after LT, and those with questionable data or a lack of essential data for analysis were also excluded.The flowchart of this study is shown in Figure 1.
Baseline characteristics and postoperative follow-up
Figure 1 Flowchart of the study.
The baseline clinical characteristics of the patients were collected.Demographic characteristics included age, sex, body mass index (BMI), and donation after brain death donor(DBD) and donation after cardiac death donor (DCD), and age, sex, and BMI for recipients.The collected laboratory variables and clinicopathologic characteristics included matched or mismatched ABO blood type, hepatitis B virus (HBV)infection, Child-Pugh grade, model for end-stage liver disease (MELD) score, preoperative loco-regional therapy, largest tumor size, tumor number, presence of satellite lesions, hypertension, diabetes, whether the tumor met the Milan criteria and Hangzhou criteria for LT, cold ischemia time, operative time, perioperative bleeding, and use of salvage LT.The data for tumor size, tumor number, and presence of satellite lesions were based on the postoperative pathological examination.All patients received regular follow-up after discharge from the hospital.Any patient who did not attend a follow-up appointment was contacted by a research nurseviatelephone.Liver function tests; serum tumor marker assays; abdominal ultrasound; and chest, abdomen, and bone CT scans were routinely performed every 6 months for the first 2 or 3 years, then annually thereafter.
PSM analysis
PSM analysis was performed to decrease selection bias and make the groups comparable.Three PSM comparisons were
made: 1) PSM with a 1:2 ratio of femalevs.male recipients(382 and 764, respectively); 2) PSM with a 1:2 ratio of recipients receiving grafts from female donorsvs.recipients receiving grafts from male donors (621 and 1,242, respectively); and 3) PSM with a 1:2:2:2 ratio of female donor-female recipient pattern (F-F)vs.male donor-male recipient pattern (M-M)vs.male donor-female recipient pattern (M-F)vs.female donormale recipient pattern (F-M) (84, 168, 168, and 168, respectively).The standardized mean difference (SMD) was used to evaluate the balance of clinical parameters among groups.
Statistical analysis
Continuous variables with a normal distribution are expressed as mean ± standard deviation (SD) or median (interquartile range).Categorical variables are expressed as numbers (n) or proportions (%).Student’s t-test was used for comparison of continuous variables when applicable; otherwise, the Mann-WhitneyUtest was applied.Categorical variables were compared with the χ2test or Fisher’s exact test, as appropriate.The Kaplan-Meier method, based on the log-rank test, was used to compare disease-free survival (DFS) and overall survival (OS) rates among groups by sex.For time-to-event data in which the proportional hazards assumption was violated,restricted mean survival time (RMST) analysis was used to evaluate between-group differences.Furthermore, the survival associated with different donor-recipient match patterns was compared to demonstrate the correlation between sex-based donor-recipient patterns and the outcomes of LT for HCC.Statistical analysis was performed in SAS, version 9.4, software (SAS Institute Inc, Cary, NC).The statistical significance threshold was set toP< 0.05 in all analyses.Univariable and multivariable Cox proportional hazards models were used to identify independent risk factors of post-LT outcomes in patients with HCC.The hazard ratio (HR) and its 95% confidence interval (CI) were estimated in the univariable and multivariable Cox regression analyses.In multivariate analysis, factors withP< 0.05 in the univariate analysis were finally tested, andP< 0.05 in the Cox model was considered statistically significant.
Results
PSM analysis to balance baseline characteristics
We performed PSM to eliminate confounders and make the clinical characteristics comparable between the male and female recipients who underwent LT for HCC.Because the number of male recipients exceeded that of female recipients, we conducted 1:2 nearest neighbor matching (382:764 female to male recipients) based on the propensity score.Likewise, because a substantial sex difference was observed among the LT donors, 1:2 matching (621:1,242 female to male donors) was used to investigate the influence of donor sex on the outcomes of recipients who underwent LT for HCC.To study the correlation between post-LT outcomes and the donor-recipient match patterns based on sex, 1:2:2:2 matching (84:168:168:168 female donor-female recipientvs.male donor-male recipientvs.male donor-female recipientvs.female donor-male recipient) was performed.Various variables were considered for PSM.The recipient characteristics included age, common diseases, Child-Pugh classification,and the MELD score, among other parameters.The donor characteristics included age, sex, BMI, and donor type (DBD,DCD, and DBCD).The tumor biology characteristics included tumor size; tumor number; and transplant criteria such as the Milan and Hangzhou criteria.Intraoperative parameters,such as operative time, operative bleeding, and cold ischemia time, were also used for PSM.
Demographic and clinical parameters of male and female recipients after matching
After PSM, all variables were comparable between groups(Table 1).Most patients with HCC who underwent LT in this study were older than 50 years (64.5% of male recipientsvs.63.6% of female recipients) and had a history of hepatitis B viral infection, (78.4% of male recipients and 78.0% of female recipients;P= 0.88).A substantial fraction of recipients (58.1%of male recipients and 57.6% of female recipients) received grafts from young donors (below 50 years of age;P= 0.87).Most recipients did not receive neoadjuvant TACE (85.5% of male recipientsvs.85.3% of female recipients) or RFA (94.2%of male recipientsvs.95.0% of female recipients) before LT.Analysis of the tumor biology characteristics of the LT recipients revealed that most of the tumors were solitary (64.9% of male recipientsvs.64.9% of female recipients) and ≤ 5 cm in size (82.7% of male recipientsvs.81.9% of female recipients).The median follow-up time was 29.1 months in male recipients and 30.1 months in female recipients (P= 0.43).
Significantly lower rates of post-LT OS in male than female recipients
The outcomes of recipients with LT for HCC were compared between the male and female recipients after PSM.significant differences in post-transplant OS and DFS were observed between male and female recipients.The OS of the female recipients was significantly superior to that of the male recipients (Figure 2A).The 1-, 3-, and 5-year OS rates were 96.1%, 86.4%, and 78.5%, respectively, in female recipients,and 95.8%, 79.0%, and 70.7%, respectively, in male recipients (P= 0.009).The DFS at 1 year, 3 years, and 5 years was 92.6%, 82.7%, and 73.2%, respectively, in female recipients,whereas the estimated DFS rates of male recipients at 1 year, 3 years, and 5 years were 89.6%, 73.2%, and 65.5%, respectively(P= 0.004; Figure 2B).
Risk factors of outcomes after LT for HCC
Univariate and multivariate analysis were applied to determine the risk factors associated with OS in recipients whounderwent LT for HCC (Table 2).The univariate analysis revealed several factors significantly associated with recipients’outcomes after LT.Male recipient sex (HR = 1.376, 95% CI 1.003-1.883), ABO blood incompatibility (HR = 1.918, 95%CI 1.106-3.327), preoperative TACE (HR = 1.254, 95% CI 1.049-1.498), large tumor size (≥ 5 cm; HR = 2.591, 95% CI 2.175-3.086), multiple tumors (HR = 1.502, 95% CI 1.268-1.778), tumors exceeding the Milan criteria (HR = 2.766, 95%CI 2.320-3.297), and long operation times (≥ 6 h; HR = 1.269,95% CI 1.061-1.515) were identified as risk factors for post-LT outcomes (P< 0.05).In the multivariate analysis, male recipient sex was significantly associated with OS after LT for HCC(HR = 1.381, 95% CI 1.006-1.895,P= 0.046).Additionally,large tumor size (≥ 5 cm; HR = 1.627, 95% CI 1.288-2.055),tumors exceeding the Milan criteria (HR = 1.986, 95% CI 1.552-2.540), and long operation times (≥ 6 h; HR = 1.279,95% CI 1.069-1.529) were also independent risk factors associated with OS after LT for HCC (P< 0.05).
Table 1 Clinical characteristics of liver transplant recipients with HCC by recipient sex after PSM
Table 1 Continued
Figure 2 Overall survival (OS) and disease-free survival (DFS) of male recipients and female recipients after PSM.(A) OS of male recipients and female recipients.(B) DFS of male recipients and female recipients.M-R, male recipients; F-R, female recipients.
Table 2 Univariate and multivariate analysis of post-transplant HCC overall survival
Table 2 Continued
Comparable OS in recipients with female or male donors
To further investigate whether donor sex might also be associated with the outcomes of recipients receiving LT for HCC,we compared the OS and DFS between recipients who received grafts from male donors and female donors.We also performed PSM to eliminate confounders between male donors and female donors.The matching variables included the recipient and donor characteristics, tumor biology characteristics, and intraoperative parameters, as described previously(Table 3).After PSM, recipients who received grafts from male donors showed OS and DFS comparable to those of recipients who received grafts from female donors (Figure 3A and 3B).The 1-, 3-, and 5-year OS rates were 95.1%, 81.3%, and 72.0% in recipients with male donors and 94.7%, 81.9%, and 75.6% in recipients with female donors (P> 0.05; Figure 3A).The DFS at 1 year, 3 years, and 5 years was 89.6%, 76.2%,and 69.8%, respectively, for recipients with male donors and 89.7%, 76.4%, and 66.6%, respectively, for recipients with female donors (P> 0.05; Figure 3B).
Sex based donor-recipient match patterns and clinical characteristics of different groups after PSM
To study the post-transplant outcomes associated with different donor-recipient match patterns based on sex, we divided the donors and recipients into 4 patterns: male donor to male recipient (M-M), male donor to female recipient (M-F),
female donor to male recipient (F-M), and female donor to female recipient (F-F).Given that fewer patients had an F-F transplant pattern than the other 3 patterns, we performed 1:2:2:2 (F-F:M-M:M-F:F-M) nearest neighbor matching based on the propensity score to make the clinical characteristics comparable across groups.After PSM, the balance across the 4 groups significantly improved, and no significant differences were found in multiple variables, including recipient and donor demographics, tumor biology characteristics, and intraoperative parameters (Table 4).
The male-to-male LT transplant pattern has the poorest outcomes after LT for HCC
After matching, we compared the OS across the M-M, M-F,F-M, and F-F groups.Among these patterns, M-F, F-M, and F-F, had similar OS, and the F-F group had the best 5-year OS.However, the M-M pattern had the poorest OS.Significant differences in 5-year OS were observed for the M-M pattern compared with the other 3 patterns [RMST ratio (M-M to M-F) = 0.882, 95% CI (0.803-0.968),P= 0.008; RMST ratio(M-M to F-M) = 0.866, 95% CI (0.791-0.948),P= 0.002;RMST ratio (M-M to F-F) = 0.875, 95% CI (0.788-0.972),P=0.012; Figure 4].The 1-, 3-, and 5-year OS rates were 93.7%,74.0%, and 64.8%, respectively, for the M-M pattern; 97.6%,84.5%, and 78.6%, respectively, for the M-F pattern; 99.4%,90.0%, and 81.3%, respectively, for the F-M pattern; and 95.2%, 90.2%, and 83.0%, respectively, for the F-F pattern(Figure 4).These results demonstrated a significant difference in long-term post-transplant outcomes when a male graft isassigned to a male recipientvs.a female recipient (M-Mvs.M-FP= 0.008), but not in the allocation of a female graft(F-Mvs.F-F,P= 0.790).
Table 3 Clinical characteristics of liver transplant recipients with HCC by donor sex after PSM
Table 3 Continued
Discussion
LT is a definitive treatment option for HCC, but the favorable prognosis of LT for HCC relies on the precise selection of good candidates16,17.Since Mazzaferro and colleagues18-23proposed the Milan criteria for LT in patients with HCC, several studies have suggested various other patient selection criteria to achieve optimal outcomes in these patients.Sex differences are universally observed in many liver diseases, including HCC.Although various studies have focused on the selection criteria for LT by taking various parameters into account, few have considered sex.In this study, the correlation between sex and post-LT outcomes of patients with HCC was investigated in Chinese nationwide data.Female recipients had better outcomes than their male counterparts.However, no clear effects of donor sex on the outcomes of HCC after LT were observed.Our findings highlight the influence of sex on the post-LT outcomes of patients with HCC, thus providing evidence that recipient sex should be carefully considered as an important parameter in outcome evaluation and organ allocation in LT for HCC.
Figure 3 Overall survival (OS) and disease-free survival (DFS) of recipients with male donors and female donors after PSM.(A) OS of recipients with male donors and female donors.(B) DFS of recipients with male donors and female donors.M-D, male donors; F-D, female donors.
Table 4 Clinical characteristics of liver transplant recipients with HCC according to different donor-recipient matched-patterns based on sex after PSM
Table 4 Continued
Table 4 Continued
Figure 4 Overall survival (OS) of different donor-recipient match patterns based on sex after PSM.OS of different transplant patterns based on sex.M-M, male donor transplant to male recipient; F-F, female donor transplant to female recipient; M-F, male donor transplant to female recipient; F-M, female donor transplant to male recipient.
Biological sex influences HCC
Sex differences in HCC have long been known: women have a 50%-75% lower risk of developing HCC than men,among people with end-stage liver disease or viral hepatitis5.Moreover, in the United States, women are 2 times less likely to receive LT than men24-26.Recently, the role of sex in LT for HCC has attracted substantial attention.In this study, women were found to be less likely than men to receive deceased donor LT for HCC in China.Given the large difference in the numbers of malevs.female LT recipients, we performed 1:2 matching to analyze the difference in post-transplant outcomes between female recipients and male recipients.HCC is a digestive malignancy with complex heterogeneity, and sex hormones are widely accepted to account for the sex-specific differences in HCC occurrence27-31.Androgens promote HCC tumorigenesis, whereas estrogen plays an opposite role32-35.Some studies have sought to identify the mechanism underlying the sex differences in HCC occurrence by using animal models.Immune factors,such as Kupffer cells and IL-6 signaling, as well as adiponectin, have been suggested to account for the sex differences in HCC occurrence9,36.Altogether, prior studies have indicated that high levels of estrogen tend to prevent hepatocarcinogenesis.In our study, we simultaneously compared the effects of donor and recipient sex differences on post-LT survival in patients with HCC.Recipient sex was significantly associated with post-LT survival, whereas donor sex had no effect.Female recipients are generally accepted to have higher levels of estrogen than male recipients, and our results provided further support that high levels of estrogen may play protective roles in patients with HCC after LT.Interestingly, our study also revealed that donor sex was not significantly associated with post-LT survival, thus suggesting that the high levels of estrogen in female recipients, rather than an increase in estrogen receptors in the donor liver, might account for the better post-LT outcomes.Nevertheless, the underlying mechanism will require further basic studies in the future.
Sex differences in LT for HCC
Previous studies have investigated the correlation between sex and HCC recurrence post-LT by using various databases, such as the United Network for Organ Sharing/Organ Procurement and Transplantation Network, and the Japanese Liver Transplantation Society13,14.However, the influence of sex on the outcomes of LT for HCC may differ by tumor etiology (e.g., alcohol, HCV, NASH, or HBV) and race.We performed the first study in China investigating the role of sex in post-LT outcomes by analyzing registry data for LT recipients with HCC caused primarily by hepatitis B viral infection.In contrast to analysis of living donor LT for HCC, this study focused on the outcomes after deceased donor LT for HCC.Our findings demonstrated that sex-based donor-recipient match patterns were associated with recipient outcomes,and the pattern of male donor to male recipient was associated with the poorest post-LT survival.However, no a significant difference in post-LT survival was observed between the female donor to female recipient pattern and the female donor to male recipient pattern.These findings may have clinical applications.For instance, our data may indicate that the liver from a male donor may be of greater benefit to a female than a male recipient, whereas the liver from a female donor may be transplanted to either a male or a female recipient without resulting in a survival difference.
Limitations of the study
This study has several limitations.First, several patients receiving LT were lost to long-term follow-up.Another limitation is that most patients with HCC in our study had hepatitis B viral infection as the etiological factor; consequently, our results might differ from those for HCC caused by other etiological factors, such as alcohol, hepatitis C viral infection, or fatty liver disease.Therefore, more studies are required to elucidate the sex-based differences in post-LT outcomes in patients with HCC with various HCC etiological causes.Furthermore,the results in this study pertain to recipients who underwent deceased donor LT and might potentially differ from those for living donor LT or split LT.Given that a central effect might have existed in this multicenter cohort study, we took several measures to decrease such a central effect.The number of patients enrolled in the study from different centers was similar in the initial study design.We also used the electronic data capture systems to improve the accuracy of data acquisition.Moreover, the researchers in each research center were required to evaluate the data by using uniform standards to decrease the central effect.
Conclusions
This study is the first multicenter cohort investigation in China providing evidence of the role of sex in LT for HCC.Male recipient sex was associated with poorer post-LT survival than female recipient sex; moreover, the male-male donor-recipient transplant pattern was associated with unfavorable post-LT outcomes.Collectively, our findings highlight that sex should be considered a critical parameter in organ allocation.
Acknowledgments
The authors thank the China Liver Transplant Registry and the National Center for Healthcare Quality Management in Liver Transplant for accepting the request to conduct this study.
Grant support
This work was supported by funding from the National Key Research and Development Program of China (Grant No.2021YFA1100500); The Major Research Plan of the National Natural Science Foundation of China (Grant No.92159202);Key Program, National Natural Science Foundation of China(Grant No.81930016); National Natural Science Foundation of China (Grant No.82300743); Zhejiang Provincial Natural Science Foundation of China (Grant No.LQ23H160044); and Key Research & Development Program of Zhejiang Province(Grant Nos.2019C03050, 2022C03108, and 2021C03118).
Conflict of interest statement
No potential conflicts of interest are disclosed.
Author contributions
Planned and supervised the study: Xiao Xu, Shusen Zheng,Jiayin Yang, Jinzhen Cai.
Collected the data: Zhengxin Wang, Wenzhi Guo, Guoyue Lyu,Haizhi Qi, Meihua Sui.
Performed statistical analysis and prepared the graphics:Zhisheng Zhou, Jian Chen.
Interpreted the data and wrote the manuscript: Jian Chen, Zhe Yang, Fengqiang Gao.
Revised the manuscript: Jian Chen, Kai Wang, Di Lu, Junli Chen.
Data availability statement
Data were generated by the authors and available on request.