Hepatic Granulomas: Differential Diagnosis


Abbreviations

CMV

cytomegalovirus

EBV

Epstein-Barr virus

HIV

human immunodeficiency virus

MAI

Mycobacterium avium-intracellulare

PAS

periodic acid–Schiff

PCR

polymerase chain reaction

TB

tuberculosis

A granuloma is a focus of chronic inflammation consisting of a microscopic aggregation of epithelioid macrophages with or without the participation of other cell types ( Fig. 19.1 ). Granulomas are found in 2% to 15% of routine liver biopsies, and are a constant source of diagnostic dilemma because of their frequency and nonspecificity. Most systemic granulomatous diseases involve the liver, possibly reflecting the high hepatic content of mononuclear phagocytes, including Kupffer cells and other macrophages. Besides systemic conditions, some primary liver diseases demonstrate granulomas as the main pathologic finding.

Figure 19.1
An epithelioid granuloma located in the hepatic lobule. Epithelioid cells are characterized by abundant homogeneous cytoplasm and elongated curved nuclei, which are frequently peripherally located. In this case, multinucleated giant cells and a rim of lymphocytes are seen.

Immunogenetically, two main types of granulomas can be recognized : foreign body–type granulomas , induced by a material that is nonimmunogenic; and immune or hypersensitivity granulomas that are induced by antigenic substances that elicit an immune response. The latter type of granulomas predominates in the liver and can be morphologically classified as shown in Table 19.1 . Foreign body–type granulomas are usually found in a subcapsular location as a reaction to talc or suture material, or surrounding extravasated bile around large bile ducts at the hilum in conditions that cause extrahepatic biliary obstruction ( Fig. 19.2A–B ). Familiarity with the different types of granulomas and their mode of presentation in various diseases helps tremendously in narrowing the pathologic differential diagnosis.

Table 19.1
Morphologic Patterns of Liver Granulomas and Their Major Etiologic Associations
Adapted from Lamps LW. Hepatic granulomas: a review with emphasis on infectious causes. Arch Pathol Lab Med . 2015;139:867–875.
Epithelioid Suppurative Microgranuloma Lipogranuloma Foamy Fibrin-ring
Infectious Tuberculosis, fungal infections, brucellosis, schistosomiasis Candida infection,
actinomycosis, nocardia infection
Listeria , other (rare) Mycobacterium avium-intracellulare infection, leprosy, Whipple disease Q-fever, rarely other infections (viral, salmonella)
Noninfectious Primary biliary cholangitis, sarcoidosis, foreign body reaction, drug reaction Chronic granulomatous disease Nonspecific reaction to liver injury or systemic disease Fatty liver disease, mineral oil Drug reaction

Figure 19.2
Foreign body granuloma associated with extravasated bile. A , Multinucleated foreign body cells containing bile pigment ( arrows ) are surrounded by loosely arranged xanthomatous macrophages. B , A more compact arrangement of epithelioid cells is shown, but the diagnostic phagocytosed bile pigment ( arrows ) can be seen.

The frequency of the different causes of liver granulomas varies with different case series, reflecting geographic variations in patient populations and epidemiologic factors ( Table 19.2 ). The majority of cases worldwide have been ascribed to mycobacterial infections, a high number of cases occurring in developing countries, whereas schistosomiasis is a major cause in regions endemic for this infection. In Western populations, the majority of cases are arising from autoimmune disease (primary biliary cirrhosis, recently renamed primary biliary cholangitis), followed by sarcoidosis. Drug-related granulomas and idiopathic granulomas complete the list. Granulomas have been described in only rare cases of chronic hepatitis C virus and hepatitis B virus infections. Although the list of possible causes of hepatic granulomas is very large, Table 19.1 is a summarized practical version listing the main diagnostic possibilities associated with the major morphologic patterns. The uncommon causes, mentioned under other categories, will be discussed only briefly. An algorithmic approach to differential diagnosis of liver granulomas is shown in Fig. 19.3 .

Table 19.2
Geographic Variation in the Etiology of Hepatic Granulomas
Saudi Arabia 1990 Turkey 2001 Scotland 2003 Greece 2007 Germany 2008 Iran
2011
Turkey 2014
Number of cases 59 74 63 68 442 72 35
Incidence of granulomas (%) 14.6 1.6 3.8 3.7 3.6 2.3 1.31
Tuberculosis (%) 34 20 9 1.5 51.4 6
Schistosomiasis (%) 54 1.5
Hepatitis C (%) 1.3 9.5 4.4 4.2 6
Other infections (%) 8 31 1.5 18.1 14.5
Primary biliary cholangitis/overlap syndromes (%) 30.1 62 48.6 4.2 45
Sarcoidosis (%) 36 11.1 7.5 8.4 1.4 17
Drugs (%) 3 1.3 7.9 3 1.4
Other causes (%) 13.5 12.6 6.8 11.5
Idiopathic (%) 0 20 11.1 6 36 12.5

Figure 19.3
Algorithmic approach for the diagnosis and interpretation of hepatic granulomas.

(Data from Denk H, Scheuer PJ, Baptista A, et al. Guidelines for the diagnosis and interpretation of hepatic granulomas. Histopathology 1994;25:209-218.)

Histologic Patterns of Hepatic Granulomas

Hepatic granulomas may be found within the lobule, within portal tracts or at both sites. In the lobules, granulomas may be present in a perivenular location or be distributed randomly. In portal tracts, they may have periductal, perivascular or a random distribution. The site of involvement together with the granuloma type (see Table 19.1 ) provides important clues to the etiology of the granulomatous process and must be included in all pathology reports even when the cause cannot be easily defined (see Fig. 19.3 ).

Epithelioid Granulomas

These are focal collections of specialized histiocytes, known as epithelioid cells, which have mainly secretory (not phagocytic) activity, a phenotypic modulation which occurs in response to antigenic stimulation. Epithelioid cells are distinguished from regular macrophages by their abundant homogeneous cytoplasm, which is free of ingested particulate matter, and their elongated curved nuclei, which are frequently located at the periphery of the cell ( Fig. 19.1 and eSlide 19.1 ). Multinucleated giant cells, lymphocytes, other inflammatory cells, and fibroblasts may be seen in and around the groups of epithelioid cells; inclusions such as asteroid and Schaumann bodies may also be present ( Fig. 19.4 ).

Figure 19.4, Multinucleated giant cells containing asteroid bodies in a patient with sarcoidosis. Asteroid bodies provide a useful clue to the diagnosis of sarcoidosis but can be seen in other conditions.

Necrosis is a common finding in epithelioid granulomas and different types of necrosis can be identified. The most well-recognized is caseous necrosis ( Figs. 19.5A–B ), which is very typical of tuberculosis; caseous necrosis can, however, also be seen in histoplasmosis and other fungal infections as well as occasionally in other diseases such as sarcoidosis. Histologically, caseous necrosis appears as eosinophilic, granular, acellular material characterized by complete loss of tissue structure, in contrast with coagulative necrosis, which preserves some ghost tissue outline ( eSlide 19.2 ). Granulomas with fibrinoid necrosis are typical of rheumatoid arthritis ( Fig. 19.5C ), whereas suppurative necrosis is indicative of Yersinia infection and candidiasis. Granulomas with a prominent infiltrate of eosinophils are frequently associated with parasites and less frequently with drugs.

Figure 19.5, A and B , Caseous necrosis in tuberculous granulomas characterized by complete loss of tissue architecture. A thin rim of palisaded epithelioid histiocytes is present ( eSlide 19.2 ). C , Fibrinoid necrosis is seen in granulomas caused by rheumatoid arthritis.

Suppurative Granulomas (Granulomas with Central Microabscess)

This is an uncommon granulomatous inflammation pattern, characterized by a central abscess surrounded by a rim of epithelioid or foamy histiocytes. Fungi, including Candida sp. and Histoplasma sp., but also actinomycosis and Nocardia infections, are associated with this type of inflammation. Sometimes, especially if some degree of immunosuppression is present, the reaction is more diffuse, with smaller focus of suppurative inflammation interspersed with a histiocytic reaction.

Microgranulomas

These are minute collections of typically three to seven macrophages within the hepatic lobule ( Fig. 19.6 ). They are often admixed with other inflammatory cells, mainly lymphocytes, or associated with apoptotic hepatocytes (see Fig. 19.6 , inset). Hemosiderin or ceroid pigment may be present. Microgranulomas are generally seen in any chronic inflammatory disease of the liver as a nonspecific change to cellular injury and hepatocyte necrosis and do not have any specific diagnostic connotation. They therefore need to be distinguished from epithelioid granulomas, which have distinct diagnostic significance. An important exception is the nodular form of leishmaniasis ( eSlide 19.3 ), which may demonstrate numerous very small epithelioid granulomas ( Fig. 19.7 ).

Figure 19.6, Microgranuloma represented by a small group of histiocytes within the lobules, with an inset that shows a microgranuloma associated with an apoptotic hepatocyte.

Figure 19.7, Nodular form of leishmaniasis that showed numerous small nonnecrotizing epithelioid cell granulomas (microgranulomas) ( eSlide 19.3 ).

Lipogranulomas

These are focal, loose collections of macrophages or epithelioid cells surrounding single or multiple droplets of neutral lipid. When neutral fat escapes the confines of the hepatocyte cell membrane and enters the extracellular compartment, histiocytes settle around it, and a lipogranuloma is formed. Ultrastructurally, remnants of the liver cell may be seen between the fat droplet and the histiocytes. Some of these macrophages can adopt a foamy appearance and lymphocytes and plasma cells may be interspersed between them. They are often associated with a little fibrous tissue ( Fig. 19.8A–B ). Lipogranulomas are characteristically found in zone 3, in the vicinity of the central vein, and are most often seen in fatty livers, as part of nonalcoholic fatty liver disease and, even more frequently, in alcoholic liver disease. Lipogranulomas have been associated with the ingestion of mineral oil; these are morphologically similar to those associated with fatty livers. Aside from rare exceptions, lipogranulomas are not believed to progress and are therefore not clinically significant. In addition to the liver, they may also be found in the spleen, lymph nodes, and lungs.

Figure 19.8, A , A lipogranuloma consisting of a collection of histiocytes and other inflammatory cells surrounding a lipid droplet. B , Lipogranulomas occur most often near the central vein and are associated with a small amount of fibrosis (trichrome stain).

Foamy Macrophage Aggregates

This pattern is associated with infections, mostly in immunocompromised patients. Besides foamy cells, there is very little additional inflammatory response. The most commonly implicated microorganisms are atypical mycobacteria in patients with acquired immunodeficiency syndrome and some fungi such as Cryptococcus ( Fig. 19.9 ).

Figure 19.9, Large collections of macrophages with abundant, slightly foamy macrophages. Special stains showed the cytoplasm to be filled with cryptococcal yeast forms ( eSlide 19.6 ).

Fibrin-Ring Granulomas

The fibrin-ring or doughnut granuloma is a very unusual but distinctive type of granuloma first described in Q-fever. It is characterized by a ring of fibrin around a central core of fat, both of which are surrounded by epithelioid cells or neutrophils; the fibrin may not always form a complete ring. Besides Q-fever, other causes of hepatic fibrin-ring granulomas include infectious agents such as cytomegalovirus, Epstein-Barr virus (EBV), hepatitis A virus, hepatitis C virus, and leishmaniasis. Noninfectious causes include hypersensitivity to medication (mainly allopurinol ), malignancy (eg, Hodgkin and non-Hodgkin lymphoma ) and, exceptionally, giant cell arteritis. Infections are the most common causes of fibrin-ring granulomas; therefore, differential diagnosis hinges on serologic tests. However, associated histopathologic features may help in the differential diagnosis; the presence of eosinophils may suggest a possible drug reaction whereas sinusoidal lymphocytosis raises the possibility of EBV infection. The pathogenesis of the fibrin-ring is not clear, but injury to sinusoidal endothelium might be an important factor.

Specific Granulomatous Diseases

Tuberculosis

Although common in both patients with pulmonary and extrapulmonary tuberculosis (TB), liver involvement by tuberculosis is usually clinically silent; only occasional cases show local signs and symptoms of hepatic involvement, or constitute the initial or sole presenting feature of the disease. A miliary pattern is the most common form and is said to occur in 50% to 80% of all patients dying of pulmonary tuberculosis. An extensive review of the world literature in 1952 documented only 80 cases of hepatic tuberculosis with large abscesses and nodules or tuberculomas and classified tuberculosis of the liver into miliary tuberculosis (part of generalized disease) and localized disease, which could be further divided into focal or nodular tuberculosis (including hepatic abscess or tuberculomas) and into the tubular form (intrahepatic duct involvement). Since then, isolated case reports or case series of localized hepatic tuberculosis appear in literature, with varied nomenclature ranging from tuberculous liver abscess to tuberculous pseudo-tumor , primary hepatic tuberculosis , tuberculous hepatitis , tuberculous cholangitis, and tuberculosis of the bile duct , generating some confusion in classification and clinical significance of this disease.

A useful classification of hepatic tuberculosis was proposed by Alvarez in 1998 :

  • 1.

    Miliary tuberculosis, consisting of hepatic involvement as part of generalized miliary TB, usually with no signs or symptoms relevant to the liver.

  • 2.

    Tuberculous hepatitis, which presents with unexplained fever, with or without mild jaundice and hepatomegaly, caseating or noncaseating granulomas on liver biopsy and improvement with antituberculous therapy.

  • 3.

    Hepatobiliary tuberculosis, presenting with signs and symptoms relevant to the hepatobiliary tract and including two subtypes: the first without bile duct involvement, presenting as solitary or multiple nodules, tuberculomas and tuberculous hepatic abscesses; and the second with bile duct involvement causing obstructive jaundice, either because of enlarged nodes surrounding the bile ducts or granulomatous involvement of the ductal wall producing inflammatory strictures. Mass forming primary hepatic tuberculosis that mimics intrahepatic carcinoma or hilar cholangiocarcinoma presents a significant clinical problem that requires a liver biopsy to reach the correct diagnosis.

Pathology

Hepatic granulomas in tuberculosis are most frequently found in portal and periportal areas but may occasionally occur in centrilobular areas (see Fig. 19.5A–B ) ( eSlide 19.2 ). Both caseating and noncaseating granulomas may be seen. In the localized form of disease, multiple granulomas may coalesce to form a large tumorlike lesion called a tuberculoma. A tuberculoma that has undergone extensive caseating and liquefaction necrosis forms a tuberculous abscess.

Diagnosis

As in other organs, the final diagnosis of liver tuberculosis rests on the demonstration of acid-fast bacilli on direct examination or culture of tissue specimens. In needle liver biopsies, epithelioid granuloma formation can be demonstrated in 80% to 100% of cases; and caseation necrosis in 30% to 83%. Nine percent to 60% of cases show the presence of acid-fast bacilli on culture of biopsy material, more in the presence of caseating necrosis; Ziehl-Neelsen staining on tissue sections demonstrates bacilli in 0% to 45% cases. Polymerase chain reaction assays from paraffin embedded liver tissue have a sensitivity of 58% to 88% and a specificity of 96% to 100% for the detection of mycobacterial DNA ; however, polymerase chain reaction (PCR) has its own limitations. Some patients with tuberculosis may have negative PCR results from liver tissue because of the paucity of mycobacteria or because of the possible reactive nature of liver granulomas.

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