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Pathologic aspects of cirrhosis. A review. PDF

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REVIEW ARTICLE B PATHOLOGIC ASPECTS OF CIRRHOSIS Pathologic Aspects of Cirrhosis A Review Hans Popper, MD, PhD THE PERIODIC REEVALUATION OF CIRRHOSIS in reviews such as this shows lingering disagreement about its clinical and pathologic signifi- cance. At one extreme, elimination of the term cirrhosis has been recom- mended 1 because it refers to a form of chronic inflammation forwhich no specific name is used forotherorgans. Theterm, however, has met the test of time, and in a recent book on liver disease 2 cirrhosis occupies the longest chapter. Moreover, its incidence in theWestern countries is on the rise.3 This review, emphasizing pathologic problems, covers a) definition and classification to assist in diagnosis; b) etiology, important in therapy when the offending agent can be withdrawn; and c) pathogenesis to help in prevention by identifying the precursor stage. Definition and Classification Discrepancies prevail in definition and classification between different textbooks and authors. They were only slightly relieved by the Havanna classification.' Recently, the International Association for the Study ofthe Liver has recommended a standard nomenclature of liver diseases which promises to becomne universally accepted." Its outlines are followed here. Basic Structural Features Cirrhosis is characterized conventionally by a nodular parenchyma and widespread fibrosis, with hepatocellular necrosis sometimes listed as a third component. Cirrhosis is better described as the result of abnormal reconstruction of the preexisting lobular architecture. The two criteria which correlate best with the functional manifestations are parenchymal nodules and septa which link portal with central canals. Parenchymal nodules are round portions of the parenchyma sur- rounded by connective tissue which consist of portions of many lobules (Figure IA) or of one lobule (Figure 1B). (Acinus " is the more functional From the Stratton Laboratoryforthe StudyofLiverDisease, Mount SinaiSchool ofMedicineof The City University ofNew York, New York, New York. Address reprint requests to Dr. Hans Popper, Mount Sinai School of Medicine, Fifth Avenue and 100th Street, New York, NY 10029. 228 Vol.87,No. 1 CIRRHOSIS 229 April1977 designation, but since it is not widely used, it will not be applied here.) The parenchymal nodule may display normal architectural arrangements with single-cell hepatocytic plates, particularly when the nodules derive from the dissection of lobules by septa (passive nodules).7 Usually, it shows cytologic and more frequently architectural features of regenera- tion (regenerative nodule). Cytologic features are foci of enlarged hepa- tocytes with large, often polyploid, nuclei and multinucleate cells. The architectural features are hepatic plateswhich are twoor more cells thick, as is normal in lower animals and in human embryos and is often main- tained until the fifth postnatal year.8 They are recognized by position of nuclei on the sinusoidal surface (Figure 2A). Architectural changes persist longer than cytologic ones because of the long life-span of the hepa- tocytes. Increases in the width of the plates is associated with greater extension of the hepatocellular surface endowed with perisinusoidal micro- villi.9 Architectural regeneration is uniform at the periphery of smaller monolobular nodules but is irregular throughout the multilobular nodules where multicellular plates border on single-cell plates which may be narrowed as a result of pressure (differential regeneration) (Figure 2B). This may be combined with variations in blood distribution. In mono- lobular nodules the plates converge on a new efferent vessel. In larger nodules, disturbance of blood flow may be reflected in hepatocellular iron in the central rather than in the peripheral zone. In histochemical stains, e.g., for glucose-6-phosphatase, the reaction product varies greatly within one nodule or in different nodules. With predominant hyperplasia, some speak of hyperplastic or adenomatous nodules, which are grossly succu- lent in appearance and of a uniformly different color from others (Figure 3A). This indicates a different chemical composition and a metabolic regulation independent from that of the entire liver. Nodules not sur- rounded by connective tissue, as seen in experimental animals on carcino- genic regimens or in nodular regenerative hyperplasia in man,'0',' do not indicate cirrhosis. Septa are connective tissue membranes of various widths.'2 They result from either collapse of preexisting parenchyma or formation of new connective tissue fibers. Septa are wide when they form after extensive collapse of lobular or nodular parenchyma (Figure 5A and B). They cause functional manifestations when they connect central with portal canals and contain vessels permitting short circuits of blood flow (Figure 3Band C). Focal nodules and septa-such as those in focal nodular hyperplasia (hamartoma),'3"l around focal lesions (such as primary and secondary tumors, abscesses, and granulomas), orin subcapsular location as result of 230 POPPER AmericanJournal ofPathology subserous inflammation-may be confusing in interpretation of surgical wedge specimens.'5 A question of definition arises if a few nodules and septa are scattered diffusely throughout the liver following arrested chronic hepatitis of various etiology. The term cirrhosis should be applied when they are widespread. Relation of Cirrhosisto Chronic Hepatitis Cirrhosis is a scarred end-stage of a chronic inflammation of the liver. The precursor stage is often designated as chronic hepatitis, sometimes modified by an etiologic designation. However, the term hepatitis is not always applied in metabolic disorders or in iron overload diseases. If the clinical, functional, and morphologic features of the hepatitis pre- dominate, the diagnosis is chronic hepatitis with cirrhosis (or with transi- tion to cirrhosis). If the features of cirrhosis and particularly its sequelae are in the foreground, the term cirrhosis is conventionally applied. While clinicians and pathologists previously spoke ofdecompensatedcirrhosis in progressive stages. the emphasis is now placed on chronic hepatitis, particularly if the latter is the main target of therapy-symptomatic or withdrawal of the offending agent. In addition to chronic hepatitis with- out cirrhosis and chronic hepatitis with cirrhosis, there are instances of cirrhosis in which the precursor inflammatory lesion has subsided or is no longer detectable and a scar stage of variable extent is the presenting problem. Functional Effects of Structural Alterations Portal Hypertension The drainage of blood from the liver is impaired by several factors which contribute in varying degrees to portal hypertension in individual cases.'6 Their clinical importance is identified by radiologic methods, particularly angiography and venography;'7 by measurement of portal pressure in the spleen, through the periumbilical vein, or by a transcutaneously inserted thin needle into the liver; and by measurement ofhepatic venous pressure by wedging a catheter. The main factor which produces outflow block is compression of hepatic vein tributaries by regenerative nodules, which is more effective the smaller the nodules,18 or by fibrosis as in alcoholic liver injury.'9 A second factor is perisinusoidal fibrosis, the functional signifi- cance of which is difficult to distinguish from the first. The third is arteriovenous anastomoses in septa, which bring hepatic arterial pressure to bear on the portal vein. The fourth is portal tract scarring, and the fifth is the splenomegaly associated with cirrhosis which, accompanied by a Vol.87,No.1 CIRRHOSIS 231 April 1977 reduced splenic vascular resistance, increases blood flow to the liver while the liver scarring prevents expansion of its vascular bed. The first three factors raise intrasinusoidal pressure with a tendency towards ascites and hepatic failure, whereas the last two are presinusoidal and account partic- ularly for the extrahepatic sequelae of portal hypertension. Any type, however, may cause phlebosclerosis 20 in the trunk and branches of the portal vein and thus create a vicious circle. Hemodynamic Alterations These alterations result from three factors: a) Diversion of splanchnic blood from the liver by extrahepatic portosystemic anastomoses, which are best evaluated by radiologic procedures. Hepatic arterial flow is, however, increased, and the hepatic artery is enlarged and tortuous.21 b) Diversion of blood reaching the liver from the hepatic parenchyma by anastomoses in the septa between afferent branches of hepatic artery and portal vein and efferent tributaries of the hepatic veins.n'" They are demonstrated by postmortem injection preparations and by radiologic and scanning techniques."4 Their functional significance, originally doubted, has been substantiated by functional studies.2'27 The portal vein flow to the nodular parenchyma is particularly reduced, as is apparent by radio- logic study.17"2 The outflow block in advanced cirrhosis slows or even reverses the portal vein flow.2' c) Reduced efficiency of the intralobular microcirculation, caused byintrasinusoidal inflammatory cells, continuous basement membranes around the sinusoids,2' pericellular fibrosis,31 and lobular distortion. The hemodynamic alterations deprive the body of some of the liver function,' independent of the functional status of the hepatocytes. He- patic insufficiency may thus develop on a circulatory basis alone. More- over, intestinal bacteria may bypass theliver. This explains gram-negative bacteremia " or spontaneous peritonitis.' More frequent is endotoxemia, explained by vascular bypass as well as by inadequate function of Kupffer cells,-" which normally destroy such enterogenous toxins. Endotoxemia has been held responsible for many systemic manifestations of cir- rhosis " such as hvpotension, leukocytosis, alteration of renal function, and some of the alterations of extrahepatic circulation (including increase of peripheral blood flow, cardiac output, blood volume, ventilation, and reduction of renal perfusion, arterial saturation, and peripheral vascular resistance, as well as vascular changes in the skin). Bacterial and some viral antigens bypassing the liver and reaching the lymphatic system alter the immune status independent of sensitization by hepatocellular anti- gens. This explains the hypergammaglobulinemia in cirrhosis, and its 232 POPPER AmericanJournal ofPathology accentuation by shunt operations.38 Bypass also accounts for other sys- temic manifestations in cirrhosis, such as disturbance of hormone meta- bolism and faulty hepatic inactivation of gastrin.39 Although increase in peptic ulcers from shunts is not established, they are more frequent in cirrhosis.40 Since the hepatocytes require for their integrity only a fraction of the parenchymal blood flow, some diversion need not significantly impair hepatocellular function. However, if blood flow is further impaired by additional factors, such as gastrointestinal hemorrhage from varices or ulcers, or septicemia, hepatocellular necrosis develops in the center of lobules and nodules preceded by thinning of the plates or by steatosis (Figure 4A). Necrosis is grossly apparent by dark discoloration of the nodular center. This should be distinguished from a diffuse colorvariation ofthe nodules. Histologically, eosinophilic necrosis is accompanied by loss of cells replaced by macrophages intermixed with granulocytes. The differential diagnosis ofnecrosis from other causes is seldom difficult. This necrosis may cause death but, being rare in biopsy specimens, accounts but little for self-perpetuation; it is the morphologic substrate of hepatic failure following shunt operations. The alteration of hepatic circulation is not only the key feature of cirrhosis butalso themain targetofits therapy andthusjustifies the term. Additional features accompany, or are caused by, the altered hepatic circulation. They include: a)reducedfunctional mass ofhepaticparenchyma is recognized even in enlarged livers in which the blood flow may be decreased.4' b) increase ofhepatic lymph flow results primarily from postsinusoidal portal hypertension.42 The thoracic duct is engorged and sclerotic 4' and the hepatic lymphatics are dilated.44 Alterations of the serosal surface in association with ascites were visualized in experimental cirrhosis.45 Ascites is caused not only by increased lymph flow but also byexcessive exudation from peritoneal capillaries due to sodium sequestration caused by altered hormone metabolism in the liver. Hypoalbuminemia may also play a role. The different contributions of these factors influence therapy of ascites in cirrhosis. c) alteration of the bile flow occurs in two directions. Increased sinu- soidal pressure favors excess secretion of bile of reduced concentration.46 In both human and experimental cirrhosis the intrahepatic bile duct system is tortuous and increased in weight.47 Moreover, cholestasis may occur on either a mechanical or a chemical basis. The former results from periductal scarring, especially in the biliary forms. The nature ofthe latter is not established (intrahepatic cholestasis).48 It is sometimes accentuated Vol.87,No.1 CIRRHOSIS 233 April1977 focally in hyperplastic portions of nodules. Prolonged cholestasis maylead to excess deposition of copper, mainly in periportal distribution,4' e.g., in biliary cirrhosis, in other types of cholestatic cirrhosis, and in that asso- ciated with a-l-antitrypsin deficiency.'5 Whether the excess copper dep- osition contributes to liver cell injury and calls for therapy remains to be established. d) Excess iron storage in periportal hepatocytes develops sometimes spontaneously and more frequently after shunt operation;5' it may be explained by increased arterial blood flow. The actual incidence is con- troversial, and only rarely do the functional consequences ofiron overload become a problem. Cirrhosis is conventionally considered an irreversible scar stage. How- ever, the irreversibility is in dispute. The turnover of collagen fibers suggests the possible regression of septa. Thinning and even dis- appearance of septa and relobulation of nodules has been observed in experimental studies.5' In man, regression of cirrhosis of iron overload type has been described." Aatomic iand Fucl aficaton Establishment of the presence of cirrhosis is clinically far more useful than its classification, which mainly serves epidemiologic comparisons. Except for an etiologic designation there is little agreement,"55J because different pattems may be seen in the same liver and these pattems are not necessarily specific. Moreover, one anatomic form may change into an- other during the course of the disease, e.g., in alcoholic liver disease micronodular cirrhosis can become macronodular."O Steatosis, though more frequentin some types, maysecondarily develop in any. Table 1 lists some of the many terms in use. A simple anatomic classification based on minimal criteria is recommended5 and lends itself also to morphologic statistical analysis:' 1. Micronodular cirrhosis is characterized by nodules ofequal size, up to 3 mm in diameter, associated with septa up to 2 mm in diameter and Table 1-Examples of Synonyms Used for Anatomic Types of Cirrhosis Recornmendedterm Mainlymicronodular Mainlymacronodular Synonyms Laennec Podtnecrotic Portal Irregular Regular Extensivecollapse "Nutltional" With Wthout "postnecrotic" "posthepatitic" JapaneseA JapaneseB 234 POPPER AmericanJournal ofPathology usually of equal width. The pattern suggests a uniform process (Figure IB). 2. In macronodular cirrhosis the size of the nodules varies; many are more than 3 mm and some up to 3 cm in diameter. They are often composed of many lobules. The irregular septa vary in width and are often broad after collapse of multiple lobules and nodules (Figure IA). The liver may be conspicuously deformed, particularly in the left lobe. This pattern suggests either irregularity of the preceding injury or sus- tained regeneration. Either form may be found in an enlarged or in a small shrunken organ, without significant correlation to the clinical picture, to the functional parameters, or to the degree of regeneration reflected by the histologic evidence. In addition, an incomplete septal cirrhosis is recognized in which the regeneratory features are not conspicuous in large or smaller nodules, but septa traversing the parenchyma are prominent. Some end blindly and do not link central and portal canals (Figure 4B). The weak- ness of anatomic classification is illustrated by the frequent use ofthe term mixed macronodular and micronodular cirrhosis. Functional Classification A functional classification, useful in staging, should take into consid- eration63'64 a) degree of development; b) activity indicating tendency towards progression, which depends mostly on the activity of the atten- dant chronic hepatitis as reflected by hypergammaglobulinemia, and by inflammation and cell necrosis on the border of the parenchyma towards portal tracts and septa (piecemeal necrosis); c) degree of hepatocytic alterations (steatosis, hepatitis, cholestasis) as the basis of presenting hepatic symptoms, indicated by liver function tests; and d) presence of complications (portal hypertension and its sequelae, ascites, hemorrhagic diathesis and encephalopathy). Liver biopsy is required for the evaluation of the first three considerations, although its usefulness in prognosis is limited. Diagnosis of Cirrhosis by Liver Biopsy This is important because of the unreliability of the clinical and labora- tory manifestations and their absence in latent cirrhosis.65 Blind needle liver biopsy is applied widely, particularly where laparoscopy is sparsely used. Despite occasional sampling errors because of cylinders obtained from large nodules with seemingly normal architecture or because of deflection of the needle from portal and septal tissue, the diagnoses based on or supported by liver biopsy have been found reliable in statistical Vol.87,No. 1 CIRRHOSIS 235 April 1977 studies." Sampling errors are more significant in the comparison ofrepeat biopsy specimens during monitoring of therapy. Connective tissue stains increase the diagnostic accuracy. The following criteria indicate cirrhosis with decreasing certainty: 1) nodules surrounded by septawith orwithout portal and central canals (in fibrosis a parenchymal portion near portal tracts mav sometimes appear round); 2) hepatic vein tributaries incontact with septa; 3) connective tissue septa linking central with portal canals, particularlv when bent or zigzag; 4) fragmentation of specimens into round pieces surrounded in more than half of their circumference by thin layers of connective tissue; and 5) irregularity ofarchitecture including a) circumscribed variations in size ofhepatocytes and thicknessofcell plates, b) abnormal spacing of vascular channels, c) excess of hepatic vein tribu- taries over portal tracts, especially if the latter are small, and d) in adults, paucityofcentrolobular lipofuscin pigment in newly formed hepatocvtes. Conditions Resembling Cirrhosis The proposed criteria exclude some conditions often designated as cirrhosis. They include: A. Precirrhotic stages: 1) precursor stages in biliary cirrhosis, either primaryv or obstructive," in both of which cirrhosis only develops in the latest stages and is thus seen at autopsy, 2) congestive fibrosis before nodule formation and hnking septa have developed," 3) fibrosis from sarcoidosis,70 and 4) central hyaline sclerosis in alcoholic liver injury.71 In the first three, presinusoidal portal hypertension may be a problem, but ascites, if present, is not hepatic. The fourth has sinusoidal portal hvper- tension with tendencv to ascites before nodules appear.19 B. Hepatic fibrosis with portal hypertension on presinusoidal basis (in most the flow in the portal vein tributaries is compromised and possibly arterial flow is augmented): 1) Schistosomiasis producing portal lesions on immunologic basis." (In somecountries this, the mostcommon form of portal hvpertension in the world, is associated with cirrhosis, possible due to additional causes.) 2) Biliarv dvsplasias, encompassing hamartomatous lesions involving biliarv ductal epithelium, with manv transitions between them, include Meyenberg complexes, hepatic cysts, focal dilatation ofthe intrahepatic bile ducts (Caroli's disease), choledochal cysts, and con- genital hepatic fibrosis. (The last73 resembles cirrhosis because of the excessive portal fibrosis separating nodular portions of normal pa- renchvma. The uniform separation of hepatic vein tributaries from the fibrotic areas, excess arteries, and bile precipitates in abundant ductules lined by cuboidal regular epithelium in the absence of jaundice are diagnostic criteria.) 3) Hepatic fibrosis associated with exposure to envi- 236 POPPER AmericanJournal ofPathology ronmental agents such as Thorotrast, inorganic arsenicals, and vinyl chlo- ride leads only exceptionally to cirrhosis. (Both portal and hepatic vein pressure may be elevated. The fibrosis proceeding to angiosarcoma is associated with nodules in which both hepatocytes and sinusoidal cells are hyperplastic but which are not demarcated by connective tissue.74) 4) Reversible pericellular fibrosis from hypervitaminosis A.75 5) Radiation fibrosis. 6) Gaucher's disease.76 and 7) Partial nodular transformation.77 Presinusoidal portal hypertension may cause additional hepatic fibrosis (Banti's syndrome). This is also true for other causes of presinusoidal portal hypertension such as myeloproliferative diseases with spleno- megaly, arteriovenous fistulae, and extrahepatic portal vein thrombosis, as well as those designated as idiopathic portal hypertension. C. Acute submassive necrotic hepatitis exhibits, following collapse of necrotic parenchyma, bridges which by dissecting the lobules create a resemblance to cirrhosis, particularly in autopsy specimens. The absence of a roundness of the nodules and, more important, thesharpdemarcation of portal tracts seen with connective tissue stains should prevent mis- diagnosis (Figure 5A). This is important in legal/medical problems when preexisting disease is claimed in fatal acute hepatic insufficiency. Etiology In many forms of cirrhosis the etiology can be established or is strongly suspected. But since the same etiologic factor may not cause cirrhosis in another person, additional contributing, mostly host, factors are required. This is similar to the situation in infectious diseases, where doubts about etiology are not as frequently raised. The etiologic features, primarily in the precursor lesions, are the key to an etiologic classification and there- fore will here receive emphasis for morphologic differential diagnosis. Treatment by corticosteroids and other antiinflammatory agents may obscure inflammatory features of diagnostic significance; moreover, at autopsy the inflammatory reaction may be subdued. Alcoholic Cirrhosis It is estimated that only 10 to 30% of alcoholics develop cirrhosis.78 Recently, dose and time dependence was described.79 Studies in baboons have established that ethanol intake even with adequate diet produces cirrhosis.80 This resolves the long-standing argument about the cirrho- genous potential of ethanol. In the early stages, a large micronodular cirrhosis with steatosis prevails, whereas later, large nodules and broad septa predominate.59 The most useful diagnostic feature is the alcoholic

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lesions involving biliarv ductal epithelium, with manv transitions between .. Excess fibers form in the liver in several locations:' 1) In portal tracts, .. Erikson S, Hagerstrand I: Cirrhosisandmalignanthepatoma in alpha1-antitrypsin.
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