In BA, despite LT is not immediately required in many patients after KPE, up to 50% of them will suffer from residual complications owing to progressive liver fibrosis (5). Since the measurement of portal pressure requires invasive venous cannulation, the presence of splenomegaly is broadly taken as the major diagnostic criterion of PHT (4). However, an prediction before its onset is difficult due to the lack of reliable indicators.
PHT can develop as early as 1 to 2 years after KPE but in most cases, it takes a few years to become clinically significant. In this study, we were particularly interested to evaluate PHT among post-KPE patients who did not require LT. It was because they are frequently labelled as the ‘cured’ ones since PHT could be asymptomatic. As a result, they often receive a less vigilant follow up until complications happen. In this cohort, approximately 38% of NLS suffered from PHT at a medium follow up period and this finding is consistent with previous reports. Splenomegaly may lower the platelet count but there was approximately one-third of PHT + ve subjects did not suffer thrombocytopenia. Moreover, although the platelet count of PHT + ve subjects was significantly lower, the value is unlikely to cause severe bleeding tendency. We believe that a serial monitoring of platelet count is necessary but in majority of the cases, an aggressive treatment such as splenectomy or LT is not indicated. In symptomatic cases with marked thrombocytopenia, splenic artery embolization has been proposed but further validation by large-scaled study is required (6). Whilst splenomegaly maybe clinically unremarkable, the correlation of splenomegaly with disease progression has been proven. Attention should therefore be given to the spleen size as an indirect monitoring of the disease progress (7). OGV, the other manifestation of PHT, deserves more attention even when it is asymptomatic. Variceal bleeding can be life-threatening especially when thrombocytopenia co-exists but unfortunately, only 70% of paediatric centers performed surveillance screening for OGV according to an international survey (8). Due to the inconsistent policy of surveillance endoscopy in the participating units, we were not able to perform an in-depth analysis on the development of OGV. Spleen stiffness has been reported to predict OGV but this measurement required a sophisticated equipment that is not widely available (9, 10). Non-invasive biomarkers such as platelet count and spleen size have been studied for their predictive values with a reasonably good accuracy (11).
To identify variables that may predict PHT development, we analyzed variables that have been reported to influence the survival outcomes. The timing of KPE has been extensively studied for its impact on the drainage rate and transplant-free survival. In most studies, an favorable outcome is linked to an early KPE (12). Figure 1 showed a trajectory that an early KPE was associated with a lower prevalence of PHT. We believe the distortion of this relationship towards the end of the curve could be related to patient selection. As late KPE could lead to a higher chance of liver failure, we postulated that some sicker patients have been transplanted soon after KPE and therefore were excluded. In a recent publication, we reported the adverse survival outcome for KPE after day 70 of life (13). Adding together, a collaborative effort should be made to ensure KPE can be performed not later than 2 months of age.
The operative approach is another prognostic factor that is frequently studied. Early systematic reviews recommend KPE should be performed in the conventional open manner but conflicting results were obtained in the most recent review that favored laparoscopic approach (14–16). Our result demonstrated that operative approach was not a significant factor to influence the development of PHT. Nonetheless, the variations in surgical technique across different surgeons might be confounding.
For adjuvant medications in BA, steroids have been widely used for 20 to 30 years in Hong Kong and Japan. Their beneficial effects on the KPE drainage and transplant-free survival rate have been reported (17). However, their impact on the development of PHT was not obvious in this study. Steroids are usually given as an intensive therapy during the early post-operative period only, and therefore, the effect may not be long-lasting to prevent on-going liver fibrosis after KPE. To understanding the true impact of steroids on PHT, a prospective study will be required. Anti-fibrotic agents have been proposed in adult patients with liver diseases (18). However, this is not a generalized practice in children due to its inconsistent efficacy.
Failure of JC has been shown to adversely affect the long term survival. Here we also revealed that it was a risk factor for future development of PHT. We postulate that the resolution of jaundice after KPE alleviates the intrahepatic cholangiopathy and the subsequent liver fibrosis. This finding is also compatible to the result obtained in a study that reported the association between hyperbilirubinemia and PHT in adults (19). On account of this, we deliberately attempted to determine the level of bilirubin that may predict PHT. The risk of PHT is diminished only when the post-KPE bilirubin could be below 38 µmol/L. While an effective strategy to lower the bilirubin is pending, patients with persistent cholestasis for more than a year after KPE should be closely monitored for PHT complications. Even though they may not require liver transplant due to relatively normal liver biochemistry, an active search for PHT complications is still recommended. In this regard, the optimal level of post-KPE bilirubin level to define a ‘successful’ operation in BA will need further prospective study to determine.
Compared to previous studies with similar objective, the major strength of our study is the large sample size and the data were collected from multicentres that are experienced in managing BA. The finding is readily applied to patients in different regions in Asia. Nevertheless, we acknowledged that some unmeasurable factors such as the variation of operative technique as well as peri-operative management inevitably affected the analysis. Second, this was a cross-sectional analysis and subjects were examined at a single-time point without longitudinal data. Third, our study evaluated NLS only and transplanted patients who might have been suffering from concomitant PHT were excluded. Lastly, portal venous measurement was not performed and PHT was diagnosed based on clinical manifestations only. The true prevalence of PHT might have been inaccurately estimated. By defining PHT as the presence of splenomegaly, we might have over-estimated this condition. On the other hand, this looser definition put us on the safe side to include all patients even with minor PHT symptoms. The findings of this analysis would therefore help to formulate a protocol that offer a more aggressive protection.
Despite the aforementioned limitations, we believe the findings are informative. Our results demonstrated that the majority of BA patients who, despite remained transplant-freed, are not completely ‘cured’. Effort should be made to facilitate an early KPE for its protection against PHT, in addition to the survival benefit as previously reported. Persistent cholestasis after KPE is a significant predictor for PHT in NLSs of BA especially among those with bilirubin level higher than 38 µmol beyond the first year of KPE. They should be informed about the possibility of PHT in future even if they can remain transplant-free.