The prevalence of hepatic cysts in the general population and their natural history are largely unknown. This study aimed to assess the prevalence and natural history of hepatic cysts by investigating health checkup participants. Ultrasonographic data of health checkup participants (n = 38,842) were retrospectively evaluated to calculate its prevalence. In addition, we assessed the changes in the size and characteristics of hepatic cysts over 10 years (n = 7709). We found the prevalence of hepatic cysts was 21.9%. Older age, female sex, and presence of kidney cysts or pancreatic cysts were associated with the occurrence of hepatic cysts. Younger age, female sex, and the existence of multiple hepatic cysts were associated with cyst enlargement. Among 126 individuals who had hepatic cysts with a diameter of 30 mm or larger at the first visit, two (1.6%) required treatment. Remain 124 cases showed four patterns: 44 cases with enlargement, 47 stable, 11 regression after enlargement, and 22 regression. Hyperechoic fluid inside the cysts was observed in 54.5% (18 of 33), which was significantly higher than 6.6% (6 of 91) of the non-regression (OR = 17.0). The appearance of intracystic hyperechoic fluid by ultrasound may predict subsequent regression of the hepatic cyst.

Aim of this study was to investigate frequency, incidence and risk factors of liver cysts in the general population in a longitudinal survey. Cyst frequency was investigated in 607 adult volunteers (288 women, 319 men, mean age 55 years) using strong T2-weighted magnetic resonance imaging. Risk factors were investigated for occurrence, frequency and size of cystic lesions at baseline. Incidence and physiological growing of the lesions were observed in a 5-years follow-up. At baseline, 431 volunteers had 1,479 cysts (71.0%). The mean number of cysts per person was 3.4 ± 9.0. The mean size of cysts was 13.1 ± 11.7 mm. Women had a higher number of cysts than men (p = 0.026). Older and male volunteers demonstrated a higher cyst frequency (p = 0.002 and p = 0.025). Per one-year increase in age the chance for a liver cyst increased by 2%. Four-hundred seventeen volunteers had cysts in the follow-up, in 24.6% new lesions had occurred. Lesion size significantly increased in follow-up (p < 0.001). Age and male sex were associated with the occurrence of at least one liver cyst. Women had a higher average number of cysts. Cystic lesion progression is a physiological phenomenon in the long-term follow-up.

Hepatic cysts are thin-walled structures lined by cuboidal bile duct epithelium and filled with isotonic fluid (202). They are the result of ductal plate malformation without communication with the biliary tree (207,208). They can be solitary or multiple and often coexist with other mass lesions. They are usually asymptomatic and incidentally found, unless they are very large, in which case they can be symptomatic. There is a female predominance, although there is no established correlation with OCP use or pregnancy and cyst prevalence increases with age (208).
Simple hepatic cysts can be diagnosed on conventional grayscale ultrasound with a sensitivity and specificity of 90% (209). Simple hepatic cysts are usually homogeneously anechoic with through transmission and smooth margins. Up to 2.5%–5% of simple cysts can have up to 2 septa within them and include congenital cysts, Caroli disease, biliary hamartomas, and polycystic liver disease (PCLD). When a simple cyst is seen on ultrasound with these characteristics, no further imaging or follow-up is required. On CT, simple cysts demonstrate no internal architecture, are hypodense with fluid attenuation (<20 Hounsfield units), and demonstrate absent postcontrast enhancement. On MRI, simple cysts are hypointense on T1-weighted images and hyperintense on T2-weighted images with no enhancement. There is decreasing intensity on higher b-value diffusion-weighted imaging (209,210) (Figure 12).
There is no indication for intervention or follow-up of simple cysts, regardless of size, unless symptoms develop or there are characteristic high-risk features such as mural nodularity or enhancing septations. Symptoms can occur when cysts enlarge, rupture, or compress key structures, leading to significant abdominal pain or pressure, shortness of breath, early satiety, epigastric fullness, or lower extremity edema because of inferior vena cava compression.

Liver cysts are common, affecting 5%-10% of the population. Most are asymptomatic, however 5% of patients develop symptoms, sometimes due to complications and will require intervention. There is no consensus on their management because complications are so uncommon. The aim of this study was to perform a collected review of how a series of complications were managed at our institutions. Six different patients presenting with rare complications of liver cysts were obtained from Hepatobiliary Units in the United Kingdom and The Netherlands. History and radiological imaging were obtained from case notes and computerised radiology. As a result, 1 patient admitted with inferior vena cava obstruction was managed by cyst aspiration and lanreotide; 1 patient with common bile duct obstruction was first managed by endoscopic retrograde cholangiopancreatography and stenting, followed by open fenestration; 1 patient with ruptured cysts and significant medical co-morbidities was managed by percutaneous drainage; 1 patient with portal vein occlusion and varices was managed by open liver resection; 1 patient with infected cysts was treated with intravenous antibiotics and is awaiting liver transplantation. The final patient with a simple liver cyst mimicking a hydatid was managed by open liver resection. In conclusion, complications of cystic liver disease are rare, and we have demonstrated in this series that both operative and non-operative strategies have defined roles in management. The mainstays of treatment are either aspiration/sclerotherapy or, alternatively laparoscopic fenestration. Medical management with somatostatin analogues is a potentially new and exciting treatment option but requires further study.

The literature on liver cysts is highly conflicting, mostly owing to definitional variations. Two hundred and fifty-eight ≥1 cm cysts evaluated pathologically using updated criteria were classifiable as: I. Ductal plate malformation related (63%); that is, cystic bile duct hamartoma or not otherwise specified-type benign biliary cyst (35 with polycystic liver disease). These were female predominant (F/M=2.4), large (10 cm), often multifocal with degenerative/inflammatory changes and frequently misclassified as "hepatobiliary cystadenoma." II. Neoplastic (13%); 27 (10.5%) had ovarian-type stroma (OTS) and qualified as mucinous cystic neoplasm (MCN) per World Health Organization (WHO). These were female, solitary, mean age 52, mean size 11 cm, and 2 were associated with carcinoma (1 in situ and 1 microinvasive). There were 3 intraductal papillary neoplasms, 1 intraductal oncocytic papillary neoplasm, 1 cystic cholangiocarcinoma, and 2 cystic metastasis. III. Infectious/inflammatory (12%). These included 23 hydatid cysts (including 2 Echinococcus alveolaris both misdiagnosed preoperatively as cancer), nonspecific inflammatory cysts (abscesses, inflammatory cysts: 3.4%). IV. Congenital (7%). Mostly small (<3 cm); choledochal cyst (5%), foregut cyst (2%). V. Miscellaneous (4%). In conclusion, hepatic cysts occur predominantly in women (3/1), are mostly (90%) non-neoplastic, and seldom (<2%) malignant. Cystic bile duct hamartomas and their relative not otherwise specified-type benign biliary cysts are frequently multifocal and often misdiagnosed as "cystadenoma/carcinoma." Defined by OTS, MCNs (the true "hepatobiliary cystadenoma/carcinoma") are solitary, constitute only 10.5% of hepatic cysts, and have a significantly different profile than the impression in the literature in that essentially all are perimenopausal females, and rarely associated with carcinoma (7%). Since MCNs can only be diagnosed by demonstration of OTS through complete microscopic examination, it is advisable to avoid the term "cystadenoma/cystadenocarcinoma" solely based on radiologic examination, and the following simplified terminology would be preferable in preoperative evaluation to avoid conflicts with the final pathologic diagnosis: (1) noncomplex (favor benign), (2) complex (in 3 subsets, as favor benign, cannot rule out malignancy, or favor malignancy), (3) malignant features.

Purpose: The aim of the study was to determine the sonographic prevalence of benign focal liver lesions on the basis of a population of hospital patients.

Methods: The ultrasound results in a population of (n = 45,319) hospital patients over a period of 10 years were examined retrospectively and evaluated for the diagnosis of benign focal liver lesions [hepatic cysts, hepatic hemangioma, focal nodular hyperplasia (FNH), hepatic adenoma, and focal fatty sparing]. Results that were incomplete or ambiguous were excluded from this study.

Results: At least one of the lesions to be investigated was diagnosed in 15.1% (n = 6839) of the patients of the total population. The most commonly recorded lesion, with a total prevalence of 6.3% (n = 2839), was focal fatty sparing, followed by hepatic cysts with 5.8% (n = 2631). The prevalence of hepatic hemangioma was 3.3% (n = 1640), while that of FNH was 0.2% (n = 81) and that of hepatic adenoma was 0.04% (n = 19). An association between the occurrence of benign focal liver lesions and age was observed.

Conclusions: The calculated prevalence of benign focal liver lesions shows that on the fortuitous discovery of space-occupying lesions of the liver, first consideration should be given to focal fatty sparing, simple hepatic cysts and hemangiomas. The finding of a FNH or an adenoma is rarely a random discovery.

Focal nodular hyperplasia (FNH) and hepatic adenoma (HA) represent the most frequent non-vascular benign liver tumors. They are often asymptomatic. The widespread use of high-resolution imaging modalities leads to an increase of incidental detection of FNH and HA. Physicians are thus increasingly confronted with these formerly rarely recognized conditions, stressing the need for concise but adequate information on the optimal clinical strategies for these patients. FNH is the most common non-vascular benign tumor of the liver. It probably arises as a polyclonal, hyperplastic response to a locally disturbed blood flow. It is typically found in asymptomatic women. Histologically, FNH can be described as a focal form of cirrhosis. Complications of FNH are extremely rare and surgical resection is generally not advised. HA is a rare monoclonal, but benign liver tumor primarily found in young females using estrogen-containing contraceptives. Although its exact etiology is unknown, a direct link between sex steroid exposure and the uncontrolled hepatocellular growth is suspected. Complications of HA are spontaneous bleeding and malignant transformation. Withdrawal of estrogen treatment and excision of large tumors (>5 cm) are established therapeutic strategies. In conclusion, although FNH and HA are reasonably well-described clinical and histopathological entities, their epidemiology and pathophysiology need to be further unraveled.

There were approximately 725,000 new cases and 664,000 deaths worldwide due to hepatocellular carcinoma (HCC) in 2020. HCC comprises 75%-85% of primary liver cancer cases and is the fourth-leading cause of annual cancer deaths worldwide. In the United States, it is estimated that liver cancer will account for approximately 41,210 new cases and about 29,380 deaths in 2023. Risk factors vary by geographic region and include chronic viral hepatitis (hepatitis B virus [HBV] infection, hepatitis C virus [HCV] infection); alcohol-related liver disease; environmental exposures, specifically aflatoxin-contaminated foods; and steatotic liver disease. Three-quarters of cases occur in the Asia-Pacific region, where the main risk factor outside of Japan is HBV. HCC is two to three times as common in men as in women. Incidence of HCC is currently on the rise in the United States, related in part to a rise in the incidence of obesity, type II diabetes, and metabolic syndrome over the past several decades. Decreases in incidence rates among Asian-Pacific Islanders and younger cohorts may contribute to an overall reduction in cases of HCC in future years.
Effective treatment options, such as resection, liver transplantation, and ablation, exist for early-stage HCC, and patients with locally advanced disease may be candidates for liver-directed therapies, including transarterial therapies chemoembolization (TACE), bland embolization, and radioembolization, and external-beam radiation therapy. Historically, the majority of HCC cases were diagnosed at an advanced, incurable stage and had a poor prognosis due to the palliative nature of currently available local and systemic therapies. Trials of systemic therapy for advanced HCC failed to show improved outcomes until the advent of the tyrosine kinase inhibitor sorafenib, followed by randomized controlled trials (RCTs) published in 2008 and 2009 demonstrating a survival benefit with sorafenib versus placebo., Following the availability of sorafenib, no further effective systemic therapy options were identified for almost a decade.

BACKGROUND &

Aims: Hepatocellular carcinoma (HCC) is the second leading cause of cancer-related death worldwide. Most studies addressing the epidemiology of HCC originate from developed countries. This study reports the preliminary findings of a multinational approach to characterize HCC in South America.

Methods: We evaluated 1336 HCC patients seen at 14 centres in six South American countries using a retrospective study design with participating centres completing a template chart of patient characteristics. The diagnosis of HCC was made radiographically or histologically for all cases according to institutional standards. Methodology of surveillance for each centre was following AASLD or EASL recommendations.

Results: Sixty-eight percent of individuals were male with a median age of 64 years at time of diagnosis. The most common risk factor for HCC was hepatitis C infection (HCV, 48%), followed by alcoholic cirrhosis (22%), Hepatitis B infection (HBV, 14%) and NAFLD (9%). We found that among individuals with HBV-related HCC, 38% were diagnosed before age 50. The most commonly provided therapy was transarterial chemoembolization (35% of HCCs) with few individuals being considered for liver transplant (<20%). Only 47% of HCCs were diagnosed during surveillance, and there was no difference in age of diagnosis between those diagnosed incidentally vs by surveillance. Nonetheless, being diagnosed during surveillance was associated with improved overall survival (P = .01).

Conclusions: Our study represents the largest cohort to date reporting characteristics and outcomes of HCC across South America. We found an important number of HCCs diagnosed outside of surveillance programmes, with associated increased mortality in those patients.

Introduction: Hepatocellular carcinoma (HCC) and intrahepatic cholangiocarcinoma (iCCA) are the two main histological subtypes of primary liver cancer. Estimates of the burden of liver cancer by subtype are needed to facilitate development and evaluation of liver cancer control globally. We provide worldwide, regional and national estimates of HCC and iCCA incidence using high-quality data.

Methods: We used population-based cancer registry data on liver cancer cases by histological subtype from 95 countries to compute the sex- and country-specific distributions of HCC, iCCA and other specified histology. Subtype distributions were applied to estimates of total liver cancer cases for 2018 from the Global Cancer Observatory. Age-standardised incidence rates (ASRs) were calculated.

Results: There were an estimated 826,000 cases of liver cancer globally in 2018: 661,000 HCC (ASR 7.3 cases per 100,000); 123,000 iCCA (ASR 1.4) and 42,000 other specified histology (ASR 0.5). HCC contributed 80% of the world total liver cancer burden followed by iCCA (14.9%) and other specified histology (5.1%). HCC rates were highest in Eastern Asia (ASR 14.8), Northern Africa (ASR 13.2) and South-Eastern Asia (ASR 9.5). Rates of iCCA were highest in South-Eastern Asia (ASR 2.9), Eastern Asia (ASR 2.0), Northern Europe, the Caribbean and Central America and Oceania (ASR all 1.8).

Conclusion: We have shown the importance of uncovering the distinct patterns of the major subtypes of liver cancer. The use of these estimates is critical to further develop public health policy to reduce the burden of liver cancer and monitor progress in controlling HCC and iCCA globally.

The incidence of liver cancer is high in all low-resource regions of the world, with the exception of Northern Africa and Western Asia. The estimated worldwide number of new cases of liver cancer in 2002 is 600,000, of which 82% are from developing countries. Given the poor survival from this disease, the estimated number of deaths is similar to that of new cases. Hepatocellular carcinoma (HCC) is the main form of liver cancer. A part from chronic infections with Hepatitis B and Hepatitis C viruses, which are the main causes of HCC, contamination of foodstuff with aflatoxins, a group of mycotoxins produced by the fungi Aspergillus flavus and Aspergillus parasiticus, is an important contributor to HCC burden in many low-income country. Alcoholic cirrhosis is an important risk factor for HCC in populations with low prevalence of HBV and HCV infection, and the association between tobacco smoking and HCC is now established. Diabetes is also related to an excess risk of HCC and the increased prevalence of overweight and obesity likely contributes to it. The second most important type of liver cancer is cholangiocarcinoma, whose main known cause is infestation with the liver flukes, Opistorchis viverrini and Clonorchis sinensis, which is frequent in some areas in South-East Asia. Angiosarcoma is a rare form of liver cancer whose occurence is linked to occupational exposure to vinyl chloride.

Hepatic cysts are thin-walled structures lined by cuboidal bile duct epithelium and filled with isotonic fluid (202). They are the result of ductal plate malformation without communication with the biliary tree (207,208). They can be solitary or multiple and often coexist with other mass lesions. They are usually asymptomatic and incidentally found, unless they are very large, in which case they can be symptomatic. There is a female predominance, although there is no established correlation with OCP use or pregnancy and cyst prevalence increases with age (208).
Simple hepatic cysts can be diagnosed on conventional grayscale ultrasound with a sensitivity and specificity of 90% (209). Simple hepatic cysts are usually homogeneously anechoic with through transmission and smooth margins. Up to 2.5%–5% of simple cysts can have up to 2 septa within them and include congenital cysts, Caroli disease, biliary hamartomas, and polycystic liver disease (PCLD). When a simple cyst is seen on ultrasound with these characteristics, no further imaging or follow-up is required. On CT, simple cysts demonstrate no internal architecture, are hypodense with fluid attenuation (<20 Hounsfield units), and demonstrate absent postcontrast enhancement. On MRI, simple cysts are hypointense on T1-weighted images and hyperintense on T2-weighted images with no enhancement. There is decreasing intensity on higher b-value diffusion-weighted imaging (209,210) (Figure 12).
There is no indication for intervention or follow-up of simple cysts, regardless of size, unless symptoms develop or there are characteristic high-risk features such as mural nodularity or enhancing septations. Symptoms can occur when cysts enlarge, rupture, or compress key structures, leading to significant abdominal pain or pressure, shortness of breath, early satiety, epigastric fullness, or lower extremity edema because of inferior vena cava compression.

MCN-L, previously reported as biliary cystadenoma (BC) or biliary cystadenocarcinoma, are a rare but heterogeneous group of cystic tumors within the hepatic parenchyma and account for <5% of all liver cysts. In 2019 the World Health Organization (WHO) reclassified BC into MCN-L, which is defined as an epithelial cystic neoplasm lined by cuboidal, columnar, or mucin producing epithelium and can be associated with ovarian-type subepithelial stroma (207,242). These can furthermore be classified as invasive and noninvasive subtypes (243). These cysts often have septations composed of either mucinous (95%) or serous (5%) material, can be unilocular or multilocular (90%), and do not communicate with the biliary tree; some may have papillary projection that form thick septa, or they may have enhancing septa, mural calcifications, or mural nodules (206,207). Although MCN-L account for <5% of all cystic liver lesions, historically, they were associated with up to 20%–30% malignant transformation rate to adenocarcinoma (244–247); however, with the updated WHO diagnostic criteria in 2010, recent studies suggest up to 10% risk of malignant transformation (243). There is a strong female predominance (1:4) and often manifest in the fifth or sixth decade of life; they are not clearly linked to the use of OCPs.
MCN-L can be subcategorized into those that have mesenchymal tissue resembling ovarian stroma on histology and those that do not; the former being more common and seen in women, whereas the latter is seen equally between men and women and have a high rate of recurrence of malignancy with poor prognosis (242,248).

The prevalence of hepatic cysts in the general population and their natural history are largely unknown. This study aimed to assess the prevalence and natural history of hepatic cysts by investigating health checkup participants. Ultrasonographic data of health checkup participants (n = 38,842) were retrospectively evaluated to calculate its prevalence. In addition, we assessed the changes in the size and characteristics of hepatic cysts over 10 years (n = 7709). We found the prevalence of hepatic cysts was 21.9%. Older age, female sex, and presence of kidney cysts or pancreatic cysts were associated with the occurrence of hepatic cysts. Younger age, female sex, and the existence of multiple hepatic cysts were associated with cyst enlargement. Among 126 individuals who had hepatic cysts with a diameter of 30 mm or larger at the first visit, two (1.6%) required treatment. Remain 124 cases showed four patterns: 44 cases with enlargement, 47 stable, 11 regression after enlargement, and 22 regression. Hyperechoic fluid inside the cysts was observed in 54.5% (18 of 33), which was significantly higher than 6.6% (6 of 91) of the non-regression (OR = 17.0). The appearance of intracystic hyperechoic fluid by ultrasound may predict subsequent regression of the hepatic cyst.

The literature on liver cysts is highly conflicting, mostly owing to definitional variations. Two hundred and fifty-eight ≥1 cm cysts evaluated pathologically using updated criteria were classifiable as: I. Ductal plate malformation related (63%); that is, cystic bile duct hamartoma or not otherwise specified-type benign biliary cyst (35 with polycystic liver disease). These were female predominant (F/M=2.4), large (10 cm), often multifocal with degenerative/inflammatory changes and frequently misclassified as "hepatobiliary cystadenoma." II. Neoplastic (13%); 27 (10.5%) had ovarian-type stroma (OTS) and qualified as mucinous cystic neoplasm (MCN) per World Health Organization (WHO). These were female, solitary, mean age 52, mean size 11 cm, and 2 were associated with carcinoma (1 in situ and 1 microinvasive). There were 3 intraductal papillary neoplasms, 1 intraductal oncocytic papillary neoplasm, 1 cystic cholangiocarcinoma, and 2 cystic metastasis. III. Infectious/inflammatory (12%). These included 23 hydatid cysts (including 2 Echinococcus alveolaris both misdiagnosed preoperatively as cancer), nonspecific inflammatory cysts (abscesses, inflammatory cysts: 3.4%). IV. Congenital (7%). Mostly small (<3 cm); choledochal cyst (5%), foregut cyst (2%). V. Miscellaneous (4%). In conclusion, hepatic cysts occur predominantly in women (3/1), are mostly (90%) non-neoplastic, and seldom (<2%) malignant. Cystic bile duct hamartomas and their relative not otherwise specified-type benign biliary cysts are frequently multifocal and often misdiagnosed as "cystadenoma/carcinoma." Defined by OTS, MCNs (the true "hepatobiliary cystadenoma/carcinoma") are solitary, constitute only 10.5% of hepatic cysts, and have a significantly different profile than the impression in the literature in that essentially all are perimenopausal females, and rarely associated with carcinoma (7%). Since MCNs can only be diagnosed by demonstration of OTS through complete microscopic examination, it is advisable to avoid the term "cystadenoma/cystadenocarcinoma" solely based on radiologic examination, and the following simplified terminology would be preferable in preoperative evaluation to avoid conflicts with the final pathologic diagnosis: (1) noncomplex (favor benign), (2) complex (in 3 subsets, as favor benign, cannot rule out malignancy, or favor malignancy), (3) malignant features.

Hepatocellular carcinoma (HCC) is one of the major cancers in the world. There is a striking variation in HCC incidence rates between various countries, with a highest-to-lowest ratio of 112.5 for males and 54.7 for females. The high-risk populations are clustered in sub-Saharan Africa and eastern Asia. The male-to-female ratio for HCC ranges from < 1 to 6.4 and mostly from 2 to 4. There exist significant variations in the incidence of HCC among different ethnic groups living in the same area and among migrants of the same ethnic groups living in different areas. The age curves of HCC are significantly different in various countries, suggesting variability in exposure to risk factors. Chronic carriers of hepatitis B and C viruses (HBV and HCV, respectively) have an increased risk of HCC. The relative and attributable HCC risk of HBV and HCV carrier status varies in different countries. There exists a synergistic interaction on HCC between the two viruses. Aflatoxin exposure, cigarette smoking, heavy alcohol consumption, low vegetable intake, inorganic arsenic ingestion, radioactive thorium dioxide exposure, iron overload and the use of oral contraceptives and anabolic steroids have been documented as HCC risk factors. Recent molecular epidemiological studies have shown that low serum retinol levels as well as elevated serum levels of testosterone, neu oncoprotein and aflatoxin B1-albumin adduct are associated with an increased HCC risk. There is a synergistic interaction on HCC between chronic HBV infection and aflatoxin exposure. Familial aggregation of HCC exists and a major susceptibility gene of HCC has been hypothesized. Patients of some genetic diseases are at an increased risk of HCC. The genetic polymorphisms of cytochrome P450 2E1 and 2D6 and arylamine N-acetyltransferase 2 are associated with the development of HCC. A dose-response relationship between aflatoxin exposure and HCC has been observed among chronic HBV carriers who have null genotypes of glutathione S-transferase M1 or T1, but not among those who have non-null genotypes. Human hepatocarcinogenesis is a multistage process with the involvement of a multifactorial aetiology. Gene-environment interactions are involved in the development of HCC in humans.

Chronic infections with hepatitis B virus (HBV) and hepatitis C virus (HCV) are the most important risk factors for the development of hepatocellular carcinoma (HCC) in humans. HBV is the primary cause of HCC in high-risk areas including China and Africa, whereas in developed countries such as the United States, HCV plays a more prominent role and is at least partially responsible for the increase in HCC incidence in this country. Humans are exposed to hepatocarcinogenic aflatoxins through ingestion of moldy foods, a consequence of poor storage of susceptible grains. Highly exposed populations are primarily in sub-Sahara Africa and Asia, where dietary aflatoxins significantly enhance the carcinogenic effects of viral hepatitis. Heavy, long-term alcohol use is a risk factor for HCC, whereas moderate use (1-3 drinks/day) is not. Constituents of cigarette smoke are hepatic carcinogens in animals, and there is mounting evidence that the liver is an organ susceptible to tobacco carcinogenicity. Diabetic patients are at risk for HCC probably as a result of the hepatic injury, fibrosis, and eventual cirrhosis resulting from fatty liver disease. Given the current epidemic of obesity and diabetes in the United States, this risk factor will be increasingly important. Increased risk for HCC is evident in young noncirrhotic users of oral contraceptives in the United States and Europe. In summary, risk factors for HCC are identifiable in most patients and primarily are associated with chronic hepatic injury.

Background: To the authors' knowledge, relatively little is known regarding the interaction of risk factors for hepatocellular carcinoma (HCC) with age, sex, and liver disorder status.

Methods: The authors followed 504,646 Korean patients aged 40 to 80 years who underwent routine health checkups between 2002 and 2003 until 2013 via linkage to national hospital discharge records.

Results: HCC occurred in 2744 individuals. In the sex-adjusted and age-adjusted analysis, cirrhosis increased the incidence of HCC by 42-fold, followed by hepatitis B virus (21-fold), hepatitis C virus (HCV; 19-fold), male sex (4.3-fold), and each 5-year age increment (1.24-fold). In the multivariable adjusted analysis, diabetes increased the risk of HCC by 80%, alcohol consumption ≥80 g/day increased the risk by 75%, alcohol consumption of 40 to 79 g/day increased the risk by 37%, and being a current smoker increased the risk by 25%. The multivariable adjusted hazard ratios of male sex and HCV were 6.27 and 5.72, respectively, at age <50 years, but were 2.09 and 22.51, respectively, at age ≥70 years. Each 20 g/day of alcohol consumption increased the risk of HCC by 6% (P = .11), 8% (P = .02), 16% (P<.001), and 30% (P<.001), respectively, in individuals aged <50 years, 50 to 59 years, 60 to 69 years, and 70 to 80 years. In individuals without a liver disorder, body mass index was found to be positively associated with HCC, whereas patients with a liver disorder demonstrated an inverse association. Women had higher adjusted hazard ratios associated with age and cirrhosis compared with men.

Conclusions: With advancing age, the effects of alcohol use and HCV on the development of HCC become stronger, whereas the effect of male sex weakens. Lifetime moderate alcohol consumption may cause HCC in the elderly. Smoking increases the risk of HCC irrespective of viral hepatitis, and diabetes increases the risk of HCC independent of cirrhosis. Cancer 2018;124:2748-2757. © 2018 American Cancer Society.

Incidence and mortality rates for most cancers are declining; however, the incidence and mortality rates for liver cancer are increasing.1–5The major risk factors for the development of hepatocellular carcinoma (HCC) are cirrhosis and chronic liver disease, regardless of etiology.6,7Specific risk factors include viral infections caused by hepatitis B virus (HBV) and/or hepatitis C virus (HCV), chronic alcohol consumption, particular comorbidities or other conditions such as non-alcoholic fatty liver disease, nonalcoholic steatohepatitis, genetic hemochromatosis, coinfection with HBV/HCV, and HIV.1,8–14Localized HCC is asymptomatic for much of its natural history. Nonspecific symptoms associated with more advanced HCC can include jaundice, anorexia, weight loss, malaise, and upper abdominal pain. Physical signs of HCC can include hepatomegaly and ascites.15Common sites of HCC metastasis include the lung, adrenal glands, peritoneum, and bone.16,17The majority of patients diagnosed with HCC have advanced disease, and only a small percentage are eligible for potentially curative therapies. It is essential that all patients be evaluated by a multidisciplinary team prior to initiation of treatment. Careful patient selection for treatment and patient engagement are essential.

Unnamed: 0,Cirrhosis,HCC
Host,>40 years of age Male sex Immune compromised,>40 years of age Male sex Immune compromised Positive family history Born in Sub-Saharan Africa
Viral/disease,"High serum HBV DNA (>2,000 IU/mL) Elevated ALT levels Prolonged time to HBeAg seroconversion Development of HBeAg-negative CHB Genotype C","Presence of cirrhosis High serum HBV DNA (>2,000 IU/mL) Elevated ALT Prolonged time to HBeAg seroconversion Development of HBeAg-negative CHB Genotype C"
Environmental,"Concurrent viral infections (HCV, HIV, and HDV) Heavy alcohol use Metabolic syndrome (obesity, diabetes)","Concurrent viral infections (HCV, HIV, and HDV) Heavy alcohol use Metabolic syndrome (obesity, diabetes) Aflatoxin Smoking"

Emerging data indicate that the mortality rate of hepatocellular carcinoma (HCC) associated with cirrhosis is rising in some developed countries, whereas mortality from non-HCC complications of cirrhosis is decreasing or is stable. Cohort studies indicate that HCC is currently the major cause of liver-related death in patients with compensated cirrhosis. Hepatitis C virus (HCV) infection is associated with the highest HCC incidence in persons with cirrhosis, occurring twice as commonly in Japan than in the West (5-year cumulative incidence, 30% and 17%, respectively), followed by hereditary hemochromatosis (5-year cumulative incidence, 21%). In hepatitis B virus (HBV)-related cirrhosis, the 5-year cumulative HCC risk is 15% in high endemic areas and 10% in the West. In the absence of HCV and HBV infection, the HCC incidence is lower in alcoholic cirrhotics (5-year cumulative risk, 8%) and subjects with advanced biliary cirrhosis (5-year cumulative risk, 4%). There are limited data on HCC risk in cirrhosis of other causes. Older age, male sex, severity of compensated cirrhosis at presentation, and sustained activity of liver disease are important predictors of HCC, independent of etiology of cirrhosis. In viral-related cirrhosis, HBV/HCV and HBV/HDV coinfections increase the HCC risk (2- to 6-fold relative to each infection alone) as does alcohol abuse (2- to 4-fold relative to alcohol abstinence). Sustained reduction of HBV replication lowers the risk of HCC in HBV-related cirrhosis. Further studies are needed to investigate other viral factors (eg, HBV genotype/mutant, occult HBV, HIV coinfection) and preventable or treatable comorbidities (eg, obesity, diabetes) in the HCC risk in cirrhosis.

Liver cancer (LC) ranks fifth in frequency in the world with an estimated number of 437,000 new cases in 1990. In developing countries, incidence rates are two- to three-fold higher than in developed countries. The geographic areas at highest risk are located in Eastern Asia, with age-adjusted incidence rates (AAIRs) ranking from 27.6 to 36.6 per 100,000 in men; Middle Africa, with AAIRs ranking from 20.8 to 38.1 per 100,000 in men; and some countries of Western Africa, with AAIRs ranking from 30 to 48 per 100,000 in men. The geographic areas at lowest LC risk are Northern Europe, Australia, New Zealand, and the Caucasian populations in North and Latin America, with AAIRs below 5.0 per 100,000 in men. Excess of LC incidence among men compared to women is universal, with sex ratios between 1.5 and 3.0. Significant variations in LC incidence among different ethnic groups living in the same geographical area and among migrants of the same ethnic groups living in different areas have been extensively described. The variability of LC incidence rates between countries and within countries, strongly suggests differences in exposure to risk factors. The role of chronic infection with the Hepatitis B and hepatitis C viruses (HBV and HCV) in the etiology of LC is well established. The attributable risk estimates for LC for each of these hepatotropic viruses vary among countries but the combined effects of persistent HBV or HCV infections account for well over 80% of LC cases worldwide. Other documented risk factors such as aflatoxin exposure in diets, cigarette smoking, alcohol consumption, and oral contraceptives may explain the residual variation between and within countries. Interactions between some risk factors have been postulated, and are subject of active research. New laboratory techniques and biological markers such as polymerase chain reaction detection of HBV DNA and HCV RNA, as well as specific mutations related to aflatoxin exposure may help to provide quantitative estimates of the risk related to each these factors.

Chronic infections with hepatitis B virus (HBV) and hepatitis C virus (HCV) are the most important risk factors for the development of hepatocellular carcinoma (HCC) in humans. HBV is the primary cause of HCC in high-risk areas including China and Africa, whereas in developed countries such as the United States, HCV plays a more prominent role and is at least partially responsible for the increase in HCC incidence in this country. Humans are exposed to hepatocarcinogenic aflatoxins through ingestion of moldy foods, a consequence of poor storage of susceptible grains. Highly exposed populations are primarily in sub-Sahara Africa and Asia, where dietary aflatoxins significantly enhance the carcinogenic effects of viral hepatitis. Heavy, long-term alcohol use is a risk factor for HCC, whereas moderate use (1-3 drinks/day) is not. Constituents of cigarette smoke are hepatic carcinogens in animals, and there is mounting evidence that the liver is an organ susceptible to tobacco carcinogenicity. Diabetic patients are at risk for HCC probably as a result of the hepatic injury, fibrosis, and eventual cirrhosis resulting from fatty liver disease. Given the current epidemic of obesity and diabetes in the United States, this risk factor will be increasingly important. Increased risk for HCC is evident in young noncirrhotic users of oral contraceptives in the United States and Europe. In summary, risk factors for HCC are identifiable in most patients and primarily are associated with chronic hepatic injury.

BACKGROUND &

Aims: The main causes of hepatocellular carcinoma (HCC) include chronic hepatitis C and B viral infections (HCV, HBV), nonalcoholic fatty liver disease (NAFLD), and alcohol-related disease (ALD). Etiology-specific HCC incidence rates and temporal trends on a population-basis are needed to improve HCC control and prevention.

Methods: All 14,420 HCC cases from the Florida statewide cancer registry were individually linked to data from the hospital discharge agency and the viral hepatitis department to determine the predominant etiology of each case diagnosed during 2010 to 2018. Age-adjusted incidence rates (AAIRs) were used to assess the intersection between etiology and detailed race-ethnicity. Etiology-specific temporal trends based on diagnosis year were assessed using Joinpoint regression.

Results: HCV remains the leading cause of HCC among men, but since 2017 NAFLD-HCC is the leading cause among women. HCV-HCC AAIRs are particularly high among U.S.-born minority men, including Puerto Rican (10.9 per 100,000), African American (8.0 per 100,000), and U.S.-born Mexican American men (7.6 per 100,000). NAFLD is more common among all Hispanics and Filipinos and HBV-HCC among Asian and Haitian black men. HCV-HCC surpasses HBV-HCC in Asian women. ALD-HCC is high among specific Hispanic male groups. Population-based HCV-HCC rates experienced a rapid decline since 2015 (-9.6% annually), whereas ALD-HCC (+6.0%) and NAFLD-HCC (+4.3%) are rising (P < .05).

Conclusions: New direct acting anti-viral drugs have impacted rates of HCV-HCC, offsetting important increases in both ALD- and NAFLD-HCC. Hispanics may be a group of concern because of higher rates for ALD- and NAFLD-HCC. HCC etiology varies remarkably and may warrant specific interventions by detailed race-ethnicity.

Background: To the authors' knowledge, relatively little is known regarding the interaction of risk factors for hepatocellular carcinoma (HCC) with age, sex, and liver disorder status.

Methods: The authors followed 504,646 Korean patients aged 40 to 80 years who underwent routine health checkups between 2002 and 2003 until 2013 via linkage to national hospital discharge records.

Results: HCC occurred in 2744 individuals. In the sex-adjusted and age-adjusted analysis, cirrhosis increased the incidence of HCC by 42-fold, followed by hepatitis B virus (21-fold), hepatitis C virus (HCV; 19-fold), male sex (4.3-fold), and each 5-year age increment (1.24-fold). In the multivariable adjusted analysis, diabetes increased the risk of HCC by 80%, alcohol consumption ≥80 g/day increased the risk by 75%, alcohol consumption of 40 to 79 g/day increased the risk by 37%, and being a current smoker increased the risk by 25%. The multivariable adjusted hazard ratios of male sex and HCV were 6.27 and 5.72, respectively, at age <50 years, but were 2.09 and 22.51, respectively, at age ≥70 years. Each 20 g/day of alcohol consumption increased the risk of HCC by 6% (P = .11), 8% (P = .02), 16% (P<.001), and 30% (P<.001), respectively, in individuals aged <50 years, 50 to 59 years, 60 to 69 years, and 70 to 80 years. In individuals without a liver disorder, body mass index was found to be positively associated with HCC, whereas patients with a liver disorder demonstrated an inverse association. Women had higher adjusted hazard ratios associated with age and cirrhosis compared with men.

Conclusions: With advancing age, the effects of alcohol use and HCV on the development of HCC become stronger, whereas the effect of male sex weakens. Lifetime moderate alcohol consumption may cause HCC in the elderly. Smoking increases the risk of HCC irrespective of viral hepatitis, and diabetes increases the risk of HCC independent of cirrhosis. Cancer 2018;124:2748-2757. © 2018 American Cancer Society.

Unnamed: 0,Cirrhosis,HCC
Host,>40 years of age Male sex Immune compromised,>40 years of age Male sex Immune compromised Positive family history Born in Sub-Saharan Africa
Viral/disease,"High serum HBV DNA (>2,000 IU/mL) Elevated ALT levels Prolonged time to HBeAg seroconversion Development of HBeAg-negative CHB Genotype C","Presence of cirrhosis High serum HBV DNA (>2,000 IU/mL) Elevated ALT Prolonged time to HBeAg seroconversion Development of HBeAg-negative CHB Genotype C"
Environmental,"Concurrent viral infections (HCV, HIV, and HDV) Heavy alcohol use Metabolic syndrome (obesity, diabetes)","Concurrent viral infections (HCV, HIV, and HDV) Heavy alcohol use Metabolic syndrome (obesity, diabetes) Aflatoxin Smoking"

Purpose Of Review: This review aims to synthesize the old issues and current understandings of the etiology of liver cancer, focusing on the diverse causative factors influenced by geographical, socioeconomic, and lifestyle variations across different regions.

Recent Findings: We highlight significant geographic disparities in liver cancer risk factors. While hepatitis B and C viruses, aflatoxin exposure, and alcohol consumption remain globally established contributors; metabolic dysfunction-associated steatotic liver disease and metabolic syndromes are increasingly prominent in the West. Chronic HBV and aflatoxin continue to dominate as risk factors in Asia and Africa. Dietary factors, metabolic diseases like diabetes and obesity, genetic predispositions, environmental risk factors and lifestyle choices such as smoking and alcohol use play substantial roles in specific populations. Protective factors like coffee and tea consumption, along with aspirin use, vegetables and fruits have shown potential in reducing HCC risk, although findings vary by population and dietary habits. Liver cancer etiology is influenced by various factors that differ by region. Established risk factors include hepatitis B and C, aflatoxin, and alcohol. Emerging risks, such as metabolic dysfunction-associated steatotic liver disease, are more prevalent in Western countries, while aflatoxin and HBV remains significant in Asia and Africa. Diet, metabolic conditions like diabetes and obesity, genetic predispositions, and lifestyle choices also play crucial roles. Coffee, tea, aspirin, vegetables, and fruits may reduce HCC risk, but effectiveness varies. Future research should integrate epidemiology, genetics, and nutrition, with global cooperation and data sharing essential for effective cancer control strategies.

Incidence and mortality rates for most cancers are declining; however, the incidence and mortality rates for liver cancer are increasing.1–5The major risk factors for the development of hepatocellular carcinoma (HCC) are cirrhosis and chronic liver disease, regardless of etiology.6,7Specific risk factors include viral infections caused by hepatitis B virus (HBV) and/or hepatitis C virus (HCV), chronic alcohol consumption, particular comorbidities or other conditions such as non-alcoholic fatty liver disease, nonalcoholic steatohepatitis, genetic hemochromatosis, coinfection with HBV/HCV, and HIV.1,8–14Localized HCC is asymptomatic for much of its natural history. Nonspecific symptoms associated with more advanced HCC can include jaundice, anorexia, weight loss, malaise, and upper abdominal pain. Physical signs of HCC can include hepatomegaly and ascites.15Common sites of HCC metastasis include the lung, adrenal glands, peritoneum, and bone.16,17The majority of patients diagnosed with HCC have advanced disease, and only a small percentage are eligible for potentially curative therapies. It is essential that all patients be evaluated by a multidisciplinary team prior to initiation of treatment. Careful patient selection for treatment and patient engagement are essential.

Improvements in understanding the pathophysiology of the different benign liver nodules have refined their nosological classification. New criteria have been identified using imaging, histology and molecular analyses for a precise diagnosis of these tumours. Improvement in the classification of liver tumours provides a more accurate prediction of disease progression and has modified patient management. Haemangioma and focal nodular hyperplasia, the most common benign liver tumours that develop in the absence of chronic liver disease, are usually easy to diagnose on imaging and do not require specific treatment. However, hepatocellular adenomas and cirrhotic macronodules can be difficult to discriminate from hepatocellular carcinoma. The molecular subtyping of hepatocellular adenomas in five major subgroups defined by HNF1A inactivation, β-catenin mutation in exon 3 or exon 7/8, and activation of inflammatory or Hedgehog pathways helps to identify the tumours at risk of malignant transformation or bleeding. New clinical, biological and molecular tools have gradually been included in diagnostic and treatment algorithms to classify benign liver tumours and improve patient management. This Review aims to explain the main pathogenic mechanisms of benign liver tumours and how this knowledge could influence clinical practice.

Hepatocellular carcinoma (HCC) and cholangiocarcinoma (CCA) are the most frequent primary liver cancers, accounting for approximately 80% and 15%, respectively. HCC carcinogenesis occurs mostly in cirrhosis and is a complex multi-step process, from precancerous lesions (low-grade and high-grade dysplastic nodules) to progressed HCC. During the different stages of liver carcinogenesis, there is an accumulation of pathological, genetic and epigenetic changes leading to initiation, malignant transformation and finally tumour progression. In contrast, a small subset of HCC occurs in normal liver from the transformation of hepatocellular adenoma (HCA), a benign hepatocellular tumour. The recent molecular classification enables to stratify HCAs according to their risk of complication, in particular malignant transformation, associated with mutations in exon 3 of the catenin beta 1 (CTNNB1) gene. Cholangiocarcinoma (CCA) derives from the multistep malignant transformation of preneoplastic lesions, like biliary intraepithelial neoplasia (BilIN) and intraductal papillary neoplasm of the bile duct (IPNB), for which a pre-operative diagnosis remains difficult. Different genetic alterations are involved in BilIN and IPNB progression, leading to the development of tubular or intestinal adenocarcinoma. The aims of this review are to describe the main clinical and molecular features of preneoplastic lesions leading to the development of HCC and CCA, their implications in clinical practice and the perspectives for future research.

Molecular analysis of primary liver malignancies has provided a refinement of the pathological diagnosis of this entity and the identification of an increasing number of tumor subtypes of hepatocellular proliferation, either malignant (hepatocellular carcinomas) or benign (hepatocellular adenomas). Besides the diagnosis, a combined pathomolecular approach can also provide further insights into patient prognosis, and help select patients who can benefit from targeted therapies. Hepatocellular carcinomas define a heterogeneous group of malignant hepatocellular proliferation at various levels: macroscopic, histological and molecular. While most carcinomas occur in patients with chronic liver diseases and advanced fibrosis in the background liver, some arise from the malignant transformation of a pre-existing hepatocellular adenoma. TERT promoter mutations are the most frequent genomic alterations observed in the process of malignancy, and they occur early in the process of liver carcinogenesis. Overall, a more active biopsy strategy should be considered a key step in the management of patients with HCC.