BCA or BCAC are a subset of cystic lesions that comprise < 5% of all hepatic cysts; BCA incidence is higher in women, but no significant gender difference is observed in BCAC incidence. On average, BCAC patients are 55 years old, approximately 10 years older than BCA patients [1]. In this study, the male to female BCA patient ratio was 1:5; for BCAC, the ratio was 3:5. The average age of onset was 46.2 years in BCA patients and 62.0 years in BCAC patients, with a significant between-group age difference, consistent with other literature reports. The cause of BCA or BCAC is unknown. In this study, an 11-month-old child had a giant BCA, confirming some researchers’ opinions that BCA is a congenital condition associated with congenital biliary malformation [4]. BCA or BCAC grow slowly. Thomas et al. [5] showed that BCA usually persisted an average of 3 years before the initial hospital visit; 1 BCAC patient (with a suspected benign hepatic tumor before surgery) was followed for 10 years before surgery [6]. In this study, BCA or BCAC persisted an average of 16.7 ± 23.7 months (up to 8 years) before the initial visit. BCA or BCAC lack specific clinical symptoms and may cause bloating, abdominal pain, and jaundice because of tumor oppression of the abdominal organs. In this study, patient #6 had high fever before surgery because of intrahepatic biliary stones and ensuing biliary infection.
For BCA or BCAC, laboratory tests are nonspecific. Alpha-fetoprotein (AFP) is usually normal, and the serum and cyst fluid CA19-9 levels help differentiate cystic neoplasm and simple liver cysts, but not BCA or BCAC [7–8]. This study showed that the serum AFP was normal in all 20 patients, but the CA19-9 was significantly increased in 2 BCA patients and 3 BCAC patients. Before surgery, BCA or BCAC are diagnosed mainly via imaging. Typical imaging findings include mono- or multilobe cystic lesions and cystic or solid masses, with partitions or papillary projections. Enhanced scans show persistent enhancement in the posterior cystic wall, partitions, and papillary projections. However, these findings are observed in both BCA and BCAC [3, 9]. Arnaoutakis et al. [3] retrospectively analyzed the imaging findings of 248 BCT cases from multiple centers worldwide and found that 81.5% of the BCAC cases and 79.2% of the BCA cases (no significant between-group difference) had 1 of the following at-risk imaging signs: multilobes, partitions, papillary projections, calcification, high-flow signals, enhancement, or biliary dilatation. Moreover, Arnaoutakis et al. [2] noted that for BCACs with 1 of the imaging findings described above, the rate of negative prediction was high (91%), while the rate of positive prediction was only 11%. Among the 8 cases of BCAC, 5 presented a cystic mass with partitions and papillary projects or a high flow signal; and 3 presented a solid mass with a high flow signal. However, the diagnosis rate from preoperative imaging was low, which may be related to some radiologists’ lack of understanding of these conditions.
BCA are often misdiagnosed as other hepatic cystic lesions, especially simple liver cysts, increasing the rate of repeat surgery. Thomas et al [4] retrospectively analyzed 18 BCA cases treated at the Vanderbilt University School of Medicine and showed that before surgery, all patients had been seen by 1 to 4 surgeons and several physicians, of which, 8 patients underwent a total of 20 palliative surgeries. This study showed that among BCA patients, 50% had previously undergone palliative treatment before complete tumor resection. Thus, BCA or BCAC must be differentiated from complex and atypical liver cysts to improve treatment and determine patient outcomes. In our experience, the following patients should be carefully monitored: (1) middle-aged and elderly female patients with liver cysts; (2) patients whose imaging findings include mono- or multilobe cystic tumors with papillary projections or partitions; (3) patients with postoperative relapses and “liver cysts” with high CA19-9 levels; and (4) patients who present with cystic jelly-like viscous fluid, papillary projections, or partitions during their operations.
Grossly, BCA are generally lobular, multilocular cystic lesions with partitions or papillary projections. Histologically, the World Health Organization (WHO) defines ovarian-type stroma as a necessary condition for diagnosing hepatobiliary mucinous cystic neoplasms[2, 4], but this is not widely applied today[3, 8, 10]. All patients enrolled in studies showing a 100% ovarian-type stroma-positive rate were women[11]. Vogt et al[12] reported 18 BCA patients, all of whom were women, and only 55.5% were positive for ovarian-type stroma. One of the most comprehensive studies[3], including 248 cases, noted that only one-third of BCA/BCAC lesions presented evidence of ovarian-like stroma. Two large studies on BCAC included 27 and 18 patients with an approximately 1:1 male:female ratio, and only 30% of patients were positive for ovarian-type stroma[3, 10]. Therefore, some researchers conclude that ovarian-type stroma (+) may be a typical feature and a prognostic predictor of BCA. Devaney[10] reported 30 cases of mesenchymal-associated BCAC; the patients were followed for 4 to 8 years and none died. Conversely, the mean survival was 3 years for BCAC patients without mesenchymal stroma. In this study, patient #7, a man with mesenchymal-associated BCAC, achieved tumor-free survival for 152 months after radical resection.
Differentiating benign and malignant cystic neoplasm before surgery is difficult, as is differentiating cystic neoplasm and simple hepatic cysts or benign and malignant cystic neoplasm using intraoperative frozen pathology[3, 13]. Martel[13] showed that intraoperative frozen pathology differentiated cystic neoplasm from simple hepatic cysts in only 33.3% of cases. Vogt [12] reported a case of highly suspected BCA or BCAC, where fast intraoperative frozen pathology suggested simple hepatic cysts for six specimens. This suggests that in patients for whom BCA or BCAC is highly suspected before surgery, surgeons must consider factors other than intraoperative frozen pathology when deciding the surgical approach. BCA can become malignant, with an extremely high local relapse rate in cases of noncomplete or partial resection; thus, radical resection is the preferred treatment. Palliative surgical approaches, such as lesion puncture (to withdraw fluid), injection of hardening agents, internal drainage, open drainage, and partial resection, are contraindicated and should be avoided [3,5,81,14]. The BCA relapse rate is 48.6% after open drainage and partial resection but only 10% after an extensive hepatectomy [3]. In this study, all 6 BCA patients relapsed after palliative treatment. After relapse, patient outcomes remained good after a second surgery. Arnaoutakis et al. [3] retrospectively analyzed 33 BCA or BCAC patients who relapsed and underwent a second surgery. These authors showed that 11 underwent partial hepatectomies, and 22 underwent semi-hepatectomies or expanded semi-hepatectomies. The patients were followed for an average of 18.5 months, and 78.8% achieved tumor-free survival.
BCAC is a relatively inert malignant tumor with a good prognosis after complete resection. Arnaoutakis et al. [3] retrospectively analyzed 248 BCA or BCAC cases and showed that the overall survival rates were 95.0%, 86.8%, and 84.2% at 1, 3, and 5 years after BCT resection, respectively. For BCAC patients in the study, the median survival time was 8.4 years[3]. The two patients with iatrogenic tumor rupture and positive biliary surgical margins died of carcinomatosis, while the remaining 4 patients achieved long-term survival after radical resection. These results showed that tumor rupture is an important negative prognostic factor of recurrence-free survival and overall survival, and complete resection (R0 resection) is the key for long-term survival.