Abstract
Background
Extrahepatic metastasis of hepatocellular carcinoma (HCC) is common. However, pituitary metastasis of HCC is extremely rare. Our case may be helpful to extend the understanding of the disease.
Case presentation
A 65-year-old man presented to the outpatient department for unexplained headache and ptosis for 1 month. Brain imaging showed a slight enhancement tumor in the pituitary fossa, and the endocrinological assessment showed normal results. We considered the tumor as a non-functioning pituitary adenoma before surgery. Then, the tumor was resected by an endonasal endoscopic transsphenoidal approach. The histopathological examination results revealed the pituitary metastasis of HCC. Additional abdominal imaging revealed tumors were located in the left and right liver lobes with portal vein invasion and bilateral ilium metastases. After multidisciplinary cooperation, the patient chose chemotherapy.
Conclusion
We report a case of HCC metastasis to the pituitary gland that initially presented with neurological symptoms. We should consider the possibility of pituitary metastasis in HCC patients.
Keywords: hepatocellular carcinoma, pituitary metastasizes, case report, headache, literature review
Introduction
The most common primary tumors metastasizing to the pituitary gland are breast and lung cancers. The common sites of metastasis for hepatocellular carcinoma (HCC) are the lungs, lymph nodes, and rarely bones (1). Pituitary metastasis of HCC is rare and can be misdiagnosed as pituitary adenoma. In this study, we report a case of a 65-year-old man with pituitary metastasis at the initial presentation and do a comprehensive literature review to promote a better understanding of pituitary metastasis of HCC.
Case report
A 65-year-old man with a headache and left ptosis for 1 month was admitted. He also had a left blurred vision. These symptoms gradually worsened. He declined any symptoms of abdominal pain, nausea, and vomiting. Computed tomography (CT) and magnetic resonance imaging (MRI) revealed a mass in the pituitary fossa. He denied discomforts elsewhere. He had hepatitis B antigen-positive for 6 years and did not receive antiviral treatment. His family members did not have a history of liver cirrhosis. Neurological examinations revealed left eyelid ptosis and a small left pupil. Eyeball movements in all directions were normal. The remaining physical examinations were insignificant.
The hepatitis B virus test showed a hepatitis B surface antigen level of 2813.00 COI (normal range, 0–0.9 COI). The liver enzyme test detected a glutamic pyruvic transaminase level of 46 IU/l (normal range, <40 IU/l) and a glutamyl transpeptidase level of 157 IU/l (normal range, <60 IU/l). The results of blood platelet count and coagulation function were normal. An endocrinological test revealed a normal hormone level. The results in the oncology department showed that the level of alpha-fetoprotein was 260 ng/ml (normal range, <7 ng/ml).
CT showed a pituitary mass with adjacent bone destruction ( Figures 1A, B ). MRI revealed a tumor with enhancement in the pituitary fossa ( Figures 1C, D ). The pituitary gland was not observed in the images. The tumor led to the enlargement of the pituitary fossa and saddle bottom subsidence. No clear boundary was observed between the tumor and the surrounding tissue. The tumor also invaded the left sphenoid sinus. After removing the tumor, the abdominal CT showed multiple inhomogeneous tumors with the portal vein invasion and multiple bilateral ilium metastasis ( Figures 1E–G ), and single photon emission computed tomography (SPECT) showed high metabolism in the bilateral iliac bone ( Figure 2A ).
Figure 1.
The image of the tumor. Skull base CT showed a mass with adjacent bone destruction in the sellar region (A, B: brown arrow). MRI showed a tumor with a clear boundary with mild enhancement after injection of a contrast agent (C, D: yellow arrow). The abdominal CT showed multiple tumors in the liver. Tumors are filling in the portal vein lumen (E: blue arrow). Bilateral iliac bones were destroyed due to metastasis (F, G: red arrow).
Figure 2.
The image and pathology of lesions. The single photon emission computed tomography showed 99 mTC-MDP aggregated in the bilateral iliac bones (A: blue arrow). Hematoxylin and eosin staining of the pituitary tumor demonstrates a tumor with nuclei of different shapes (B). Multinuclear giant cells (black arrow) and carcinoma cells (red arrow). Immunohistochemical expression of metastatic hepatic carcinoma glypican-3 (C). The abdominal MRI showed multiple tumors with portal vein tumor embolus (D, E: yellow arrow).
After completing the preoperative preparation and ruling out contraindications to surgery, we performed the tumor resection using trans-sphenoidal surgery. The tumor had a tough texture with relatively abundant blood supplement. Close adhesion between the pituitary, dura, and seller and tumor was observed. Gross total resection was performed.
The pathological results revealed that the positive markers were PCK, Hepar, and GPC-3, and the negative markers were EMA, SSTR2, PR, GH, TSH, ACTH, FSH, LH, PRL, S100, and P63 ( Figures 2B, C ). The final diagnosis was pituitary metastasis of HCC and HCC. The postoperative images showed that the tumor was completely resected ( Supplementary Figure 1 ).
After the brain tumor resection, the patient’s headache subsided but still had a third cranial nerve palsy. Half a month after tumor resection, the patient was administered lenvatinib after consulting with hepatobiliary specialists. Three months after the tumor resection, he complained of pain in the liver and bilateral ilium areas. Therefore, painkillers were added. The patient was admitted due to symptoms of nausea, jaundice, and vomiting. Moreover, the patient’s weight also dropped. The abdominal MRI showed multiple tumors with obstruction of the bile duct ( Figures 2D, E ). Unfortunately, the patient passed away at home after breakfast 3.5 months after the tumor resection, and the exact cause was unknown.
Discussion and conclusions
The pituitary metastasis of HCC is extremely rare, with less than 1% of all intracranial metastases (2). In this study, we report a case of pituitary metastasis of HCC with neurological deficits as the initial symptom. Only 11 cases of HCC metastasizing to the pituitary gland have been reported (3–12) ( Table 1 ). They were mostly elderly male patients with a background of hepatitis, heavy alcohol consumption, and hepatitis B surface antigen-positive. The mean survival time was 4.94 months.
Table 1.
Reported cases of pituitary metastasis from HCC.
| Authors/year | Age/gender | Medical history | Initial manifestations | Liver function | Endocrine tests | Clinical course | Other metastasis | Treatment | Survival time (months) | Survival |
|---|---|---|---|---|---|---|---|---|---|---|
| Aung/2002 (9) | 40/M | HBsAg positive | Diplopia, headache, vomiting | N | AB | Brain→ liver | NA | TS | 3 | Death |
| 71/M | HBsAg positive | Headache, diplopia, ptosis | N | AB | Brain→ liver | Adrenal gland | TS, radiotherapy, | 12 | Death | |
| Karamouzis/2003 (10) | 59/M | Heavy drinkers, gastrointestinal bleeding | Abdominal pain, fever | N | N | Liver→ brain | Multiple bone | Excision of HCC | 24 | Alive |
| Komninos/2004 (11) | 68/M | Heavy smoker, alcohol abuser | Headache, anorexia, somnolence | N | AB | Brain→ liver | Pancreas, adrenal gland | TS, radiotherapy | 3 | Death |
| Hirsch/2005 (12) | 46/M | NA | Sudden headache, blurred vision | N | N | Brain→ liver | Adrenal gland | TS, chemotherapy | 12 | Death |
| Perez/2007 (13) | 65/M | Alcohol abuser, HBsAg positive | Sudden ptosis | AB | AB | Brain→ liver | NA | TS | 5 | Death |
| Takigawa/2011 (14) | 58/M | Pituitary resection, hepatosplenomegaly | Diplopia, blurred vision | NA | NA | Liver→ brain | Bones | No | 5 | Death |
| Thomas/2013 (15) | 50/M | Alcohol abuser | Headache, sudden diplopia | N | AB | Brain→ liver | Spine, ribs | TS | NA | NA |
| Tanaka/2015 (16) | 80/W | Hepatitis C virus-related cirrhosis, HCC | Anorexia | AB | AB | Liver→ brain | No | No | 2 | Death |
| Rocca/2017 (17) | 56/M | Alcohol abuser | Ptosis | AB | AB | Liver→ brain | No | TS | 2 | Death |
| Ambalavanan/2020 (18) | 68/M | Hepatitis B, HIV, anal cancer | Headache, abdominal pain | N | AB | Liver→ brain | NA | Radiotherapy | 0.5 | Death |
M, man; W, woman; N, normal; AB, abnormal; NA, not available; TS, transphenoidal surgery; HBsAg, hepatitis B surface antigen.
Based on the anatomical structure, we put forward that the underlying mechanism may be related to the communication between the hepatic portal vein system and the vena cava system, or the hematogenous pathway via lung to the brain. The cancer cell can metastasize to the pituitary through communication. In our case, we speculated that pituitary metastasis of HCC may be due to the location of the tumor and facilitate the metastasis. Furthermore, cancer cells may have an affinity to the pituitary. In those conditions, cancer cells are more likely to enter the circulation system and further metastasize to the pituitary. The molecular mechanism for pituitary metastasis of HCC needs to be further explored.
The appearance order of symptoms in the natural course may be useful for the confirmative diagnosis. On the one hand, the initial clinical symptoms in the clinical course may be related to the central nervous system (3, 6–10). Six cases have been reported in the literature. Those cases may present with a normal level of liver function and endocrine hormones. However, the symptoms of pituitary metastasis are not specific (13). Our case had a similar clinical course with neurological deficits as the initial symptoms. Therefore, the diagnosis may be difficult and may be misdiagnosed as a non-functioning pituitary adenoma. On the other hand, the symptoms of the HCC may be the initial clinical presentation. Metastasis of HCC to the pituitary gland may present with initial symptoms such as abdominal pain, ascites, and splenomegaly. When neurological symptom occurs, pituitary metastasis of HCC should be considered. Five cases have been reported in the literature (4, 11). In addition, gender predilection should also be taken into account. Almost all patients with pituitary metastasis of HCC are men. Diabetes insipidus is relatively more common in pituitary adenoma. When unspecific symptoms including fatigue, dizziness, and vomiting are present, pituitary metastasis should be taken into account (13).
The differential diagnosis of pituitary tumors needs the exclusion of diseases such as Rathke’s cleft cyst and aneurysm. The usual radiological imaging finding for pituitary metastasis of HCC with initial neurological symptoms is difficult to distinguish from pituitary adenoma (10, 14). Due to the higher cellular density and lower cytoplasm/nuclear ratio in metastases, the hypointensity in T2-weighted images may be helpful to distinguish metastases from chordoma-like tumors on MR. However, the partial pituitary tumor has similar characteristics (15). The feature of spectroscopy may provide useful information on the proliferation and hemorrhage of macroadenoma with dimensions over 20 mm. This indicates that positive findings of MR spectroscopy in the pituitary less than 20 mm suggest metastases other than pituitary adenoma (16). In addition, bone destruction is common in pituitary metastases, like our case. Arterial spin-labeling (ASL) in MR may also be a useful tool to distinguish pituitary metastases from the pituitary. The hyper-perfusion nature of the tumor in metastases is more common than in the pituitary adenoma (10).
The final diagnosis relies mainly on hematoxylin and eosin and immunohistochemical analysis (7). For pituitary tumor with unspecific characteristics, we think an intraoperative rapid pathological test is recommended, which can confirm the pathology and guide the extent of resection. Histopathologic findings of HCC include plump cells, deeply stained nucleoli, abundant eosinophilic cytoplasm, and specific immune markers. In our case, immunohistochemical analysis showed the positivity of PCK, Hepar, and glypican-3. Finally, the diagnosis of pituitary metastasis of HCC was confirmed.
There are no significant differences between surgical and non-surgical treatments for pituitary metastasis in survival time (17–19). Moreover, total tumor resection for pituitary metastasis is difficult to achieve due to its firm, diffuse, invasive, vascular, and hemorrhagic characteristics (20, 21). However, surgical decompression, such as ethanol injection and transcatheter arterial embolization, can alleviate symptoms and improve life quality (20). The mean survival time of patients with pituitary metastasis is 5 months (22), and the main causes of death are linked to the primary disease (23). Consequently, the minimally invasive approach may be a reasonable option, especially for patients with confirmed pituitary metastasis of HCC. The transsphenoidal approach has been reported not to affect the survival rate (17). Tumor resection can not only achieve relief of symptoms such as deterioration in vision and eyeball movement but also provide pathologic confirmation for subsequent treatment plans (24). Endocrine disorders after surgery can be administered with hormone replacement therapy. Subsequent adjuvant therapies including chemotherapy, radiotherapy, and immunotherapy should be managed according to the patient’s condition.
In summary, we report a case of hepatocellular carcinoma metastasis to the pituitary gland as initial symptom. The appearance order of symptoms may be helpful to differentiate diagnosis. Pituitary metastasis should be considered in HCC patients when the tumor is located in the sellar region and the endocrinological assessment is normal.
Data availability statement
The original contributions presented in the study are included in the article/ Supplementary Material . Further inquiries can be directed to the corresponding author.
Ethics statement
The studies involving human participants were reviewed and approved by Ethics Committee on Biomedical Research, West China Hospital of Sichuan University. The patients/participants provided their written informed consent to participate in this study. The animal study was reviewed and approved by Ethics Committee on Biomedical Research, West China Hospital of Sichuan University. Written informed consent was obtained from the participant/patient(s) for the publication of this case report.
Author contributions
Conceptualization: SZ, BC. Data curation: FD, QH. Methodology: FD. Resources: BC, SZ. Supervision: SZ, CY. Validation: SZ. Writing—original draft: QH. Writing—review and editing: QH. All authors contributed to the article and approved the submitted version.
Acknowledgments
We thank the patient for allowing us to report this case.
Abbreviations
HCC, hepatocellular carcinoma; CT, computed tomography; MRI, magnetic resonance imaging; SPECT, single photon emission computed tomography.
Conflict of interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
Publisher’s note
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Supplementary material
The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fonc.2023.1123855/full#supplementary-material
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Associated Data
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Supplementary Materials
Data Availability Statement
The original contributions presented in the study are included in the article/ Supplementary Material . Further inquiries can be directed to the corresponding author.