CASE REPORT Hepatocellular Carcinoma with Peritoneal Dissemination which was Regressed during Vitamin K2 and Vitamin E Administration Toshiyuki Otsuka 1, Satoshi Hagiwara 1, Hiroki Tojima 1, Hiroaki Yoshida 1, Tetsushi Takahashi 1, Kazumi Nagasaka 1, Shinichi Tomioka 1, Tetsu Ando 2, Kunio Takeuchi 2, Takayuki Kori 2, Yoshihiro Ohno 3, Satoru Kakizaki 4, Hitoshi Takagi 4 and Masatomo Mori 4 Abstract A 65-year-old man with positive anti-hepatitis C antibody and chronic renal failure was diagnosed as having a ruptured hepatocellular carcinoma (HCC) based on computed tomography (CT). The patient underwent transcatheter arterial embolization (TAE) for the HCC. After one more session of TAE, the patient underwent surgery. But HCC seeding peritoneally was pointed out. Vitamin K2 and vitamin E were administered as a conservative treatment. Six months after starting vitamins K2 and E, the primary tumor did not increase in size and intraperitoneal dissemination disappeared on CT with a significant decrease of alpha-fetoprotein. Even though this is only one case, combination therapy of vitamin K2 and E may induce growth suppression of HCC. Key words: hepatocellular carcinoma, vitamin K2, vitamin E (DOI: 10.2169/internalmedicine.46.6131) Introduction Hepatocellular carcinoma (HCC) is a common malignancy in Japan and the diagnosis and treatment of HCC has progressed (1). Although curative treatment is available and the survival of patients with an early stage of HCC increases, curative treatment is difficult and the prognosis is poor at advanced stage of HCC. Even in the patients with advanced stage HCC, intraperitoneal dissemination of HCC is rare (2). Ruptured HCC increases the risk of abdominal dissemination and the prognosis of patients with ruptured HCC is usually worse than that of non-ruptured HCC (3, 4). Thus, abdominal dissemination of HCC is considered in a terminal stage (2). Vitamin K2 is known to inhibit the growth of a variety of tumor cell lines by inducing apoptosis or differentiation (5, 6). Vitamin K2 was recently used for the treatment of several human cancers including myelodysplastic syndrome (5). Vitamin E is also known to be an apoptotic agent for tumor cells and prevents hepatocarcinogenesis in animal models (7, 8). It is reported that administration of vitamin E for patients with liver cirrhosis and hepatitis C virus (HCV) infection resulted in a lower rate of development of HCC and a higher cumulative survival without development of HCC (8). In this report, we present a case of regression of peritoneal dissemination in HCC during the administration of vitamin K2 and vitamin E. Case Report A 65-year-old man was referred to Tone Chuo Hospital for the diagnosis and treatment of a liver tumor in October 2004. The patient had received hematodialysis since 1995 in Department of Internal Medicine, Tone Chuo Hospital, Numata, Department of Surgery, Tone Chuo Hospital, Numata, Department of Pathology, Tone Chuo Hospital, Numata and Department of Medicine and Molecular Science, Gunma University Graduate School of Medicine, Maebashi Received for publication July 18, 2006; Accepted for publication September 19, 2006 Correspondence to Dr. Toshiyuki Otsuka, tcht-otsuka@tonehoken.or.jp 711
Figure1. Demonstrationofhepatocelularcarcinoma(HCC)byenhancedcomputedtomography(CT).A:CTshowsaHCCmeasuring3cm indiameteratsegment4oftheliver(arrow)and high-densityascites(arrowhead).b:ctshowsahccwithlipiodoldeposition(arrow)andalarge amountofascitessoonaftertheoperation.c:ctshowsahccwithlipiodoldeposition(arrow) anddecreasedascites6monthsaftertheadministrationofvitaminsk2ande(c).thesizeofthe HCCdidnotchangein6months. another hospital. There was no history of alcohol abuse or smoking. The patient received blood transfusion due to a wound in 1964. Laboratory tests showed hemoglobin (Hb), 8.2 g/dl, white blood cell count (WBC), 7,500/mm 3, platelet count (PLT), 143,000/mm 3, total bilirubin (T-BIL) 0.41 mg/ dl, albumin (ALB) 3.3 g/dl, aspartate aminotransferase (AST), 12 IU/L, alanine aminotransferase (ALT), 17 IU/L, alpha-fetoprotein (AFP), 8,997 ng/ml, protein induced by vitamin K absence or antagonist II (PIVKA-II), 41 mau/ ml. Hepatitis B surface antigen was negative and antihepatitis C antibody was positive. Computed tomography (CT) demonstrated a tumor, 3 cm in diameter at segment 4 of the liver and ascites of high density (Fig. 1A). Gastrointestinal endoscopy showed esophageal varices. Therefore, the patient was diagnosed with ruptured hepatocellular carcinoma (HCC) associated with liver cirrhosis caused by HCV. Hepatic arteriography showed tumor stain at segment 4 in the liver (Fig. 2). Transcatheter arterial embolization (TAE) was performed to the HCC. CT showed local recurrence of HCC at segment 4 in January 2005 and a second TAE was performed with 30 mg of epirubicin. However, after the second TAE, the AFP level was increased and the deposition of lipiodol in the tumor was decreased. The diagnosis was that the local recurrence occurred again and the patient was admitted to our hospital in June 2005. On admission, the patient was alert and physical examination showed no abnormality. The results of routine laboratory tests on admission were as follows: Hb 10.7 g/dl, WBC 5,700/mm 3, PLT 124,000/mm 3, Prothrombin time 82.2%, T-BIL 0.33 mg/dl, ALB 3.5 g/dl, AST 16 IU/L, ALT 16 IU/L, ICG 15.5%, AFP 1,381 ng/ml, PIVKA-II 25 mau/ml. Because hepatic arteriography showed no tumor stain in the liver, we could not perform TAE. We decided to perform surgical treatment for HCC in segment 4. Surgical laparotomy revealed several tumors and bloody ascites in the abdominal cavity (Fig. 3A) in July 2005. Pathologically, one of the tumors in the omentum was revealed to be moderately-poorly differentiated HCC (Fig. 3B). Surgical treatment was aborted. Soon after the operation, CT demonstrated HCC measuring 3 cm in diameter at segment 4 (Fig. 1B), disseminated tumors and ascites in the abdominal cavity (Fig. 4A, B). Because of the advanced stage of HCC and chronic renal failure, the patient declined interventional therapies. Thereafter, we prescribed oral vitamin K2 (45 mg/ day) and vitamin E (150 mg/day) and the patient was discharged in August 1, 2005. Three months after the administration of vitamin K2 and vitamin E, the AFP level had decreased to 46.4 ng/ml (Fig. 5) and CT demonstrated that 712
Figure2. Hepaticarteriographyshowsatumorstain(arrow).A:Earlyphase.B:Latephase. Figure3. Pathologicalfeaturesofdiseminatedtumorintheomentum atoperation.a:macroscopicexaminationshowsadarkgreentumor.b:microscopicexaminationshowsamoderatelypoorlydiferentiatedhcc(h&e 40).Arrowshowsbile. the diameter of HCC at segment 4 was unchanged and disseminated tumors disappeared and ascites was decreased. Six months have passed and the AFP level was 56.5 ng/ml (Fig. 5), and HCC in segment 4 did not increase in size (Fig. 1C), ascites did not increase and disseminated tumors disappeared on CT (Fig. 4C, D). During the six months, the PIVKA-II level was within normal range. Discussion Although the recent improvements of the treatment for HCC such as operation and radiofrequency ablation are remarkable, a treatment for peritoneal dissemination of HCC has not been established (9). In patients with extrahepatic metastases of HCC, most patients with bone metastases died from hepatic cause but approximately one-third of the patients with metastases other than bone died from extrahepatic causes (10). Therefore, it is important to treat extrahepatic HCC including peritoneal dissemination in order to improve survival and provide a good quality of life even when the patient is in the terminal stage of HCC. It is usually difficult to completely resect peritoneal dissemination of HCC (2, 11). However, repeated resection for peritoneal dissemination of HCC could contribute to the long-term survival (3, 12). Radiotherapy is used either in combination with or as an alternative to surgery (13). For example, the patient with HCC underwent six repeated resections and two radiotherapy for peritoneal dissemination, and the patient remained alive without any evidence of recurrence for three years (14). Hyperthermia could be considered as one of the multimodal treatments (11). Reportedly, the combination of transarterial chemoembolization and hyperthermia was effective against peritoneal HCC in an animal experiment (15). A variety of systemic chemotherapy have been tested in HCC, including combination therapies with cisplatin, doxorubicin and tegafur and uracil (UFT), and alpha-interferon and UFT (16-18). The case of recurrent HCC with peritoneal dissemination and splenic metastasis which disappeared after administration of UFT was reported (19). In the present case, TAE was repeatedly performed for primary HCC but the peritoneal dissemination was difficult to treat because of the poor clinical condition even though the peritoneal dissemination was detected before surgery. Vitamin K2 is known to inhibit the growth and invasion of HCC cell lines in vitro (20, 21). Moreover, administration of vitamin K2 to nude mice implanted liver tumor cells inhibited the growth of the liver tumor (20). Although the mechanisms associated with the antiproliferative effects of 713
Figure4. DiseminatedtumorsandascitesbyenhancedCT.A,B:A few diseminatedtumors (arrows)andlargeamountofascitesarefoundsoonaftertheoperation.c,d:thereisnodisemi natedtumorandonlyasmalamountofascitesat6monthsafterstartofadministrationofvita minsk2ande. Figure5. Clinicalcourseofthepatient. vitamin K2 against tumor cells remain unknown, it has been proposed that the effect of vitamin K2 may occur through activation of protein kinase A (PKA) pathway (20). PKA itself induces cell cycle arrest and activates downstream transcriptional factors, activating enhancer-binding protein-2 and upstream transcription factor-1, which are related to growth inhibition (20). Furthermore, Wang et al reported that vitamin K2 induced c-myc resulted in apoptosis of hepatoma cells (21). Clinically, vitamin K2 is known to be used in the treatment of myelodysplastic syndrome (22). As for HCC, administration of vitamin K2 prevents the development of HCC in women with viral cirrhosis and that suppresses the recurrence of HCC and improves survival in patients who have received curative treatment of HCC (6, 22). Vitamin E is known to induce apoptotic cell death in various cell types in vitro and to inhibit tumorigenesis in vivo (7, 23, 24). In the mechanisms of vitamin E-induced apoptosis it has been demonstrated that vitamin E restores both transforming growth factor-β and Fas/CD95-APO-1 signaling pathway and activates extracellular signal-regulated kinase-1 and c-jun NH2-terminal kinase-1 as well as transcriptional factors, c-jun and activating transcriptional factor-2 (7, 24). Clinical work of administration of vitamin E to patients with viral liver cirrhosis showed that the rate of development of HCC tended to be longer and survival was higher in the vitamin E group compared with the control group (8). Therefore, we prescribed oral vitamin K2 45 mg daily and oral vitamin E 150 mg daily. Recently, vitamin K2 was used for chemoprevention of HCC and there were no adverse effects related to administration of vitamin K2 45 mg which is the same dosage used in the treatment of osteoporosis (6). Vitamin E was also used for chemoprevention of HCC using the same dosage for the treatment of peripheral 714
nerve impediment and there were no adverse effects (8). As a result, intraabdominal dissemination of HCC disappeared and the primary tumor did not grow. Although the association between vitamin K2 and E in the field of antiproliferative effect on tumor cells is not known, it is suggested that administration of vitamin K2 and E inhibited the growth of HCC in the present case. Although spontaneous regression of HCC is rare, several causes of regression of HCC have been known, such as lack of blood supply due to rapid growth of HCC, withdrawal from steroid, abstinence of alcohol consumption (5). In the present case, the speed of tumor growth was not rapid because the size of primary HCC and abdominal disseminated tumors were up to 3 cm. He did not have a history of medication with steroid and alcohol abuse. Therefore, administration of vitamin K2 and E could be reason for regression in our case. 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