A comparative histological and morphometric study of vascular changes in idiopathic portal hypertension and alcoholic fibrosis/cirrhosis

AIM: To examine the pathological changes of hepatic arteries in idiopathic portal hypertension (IPH) which is characterized by the obliteration of the intrahepatic portal vein branches and presinusoidal portal hypertension. METHODS AND RESULTS: Liver specimens (biopsied or surgically resected) from 20 patients with IPH, 20 patients with alcoholic fibrosis/cirrhosis (AF/C) and 20 histologically normal livers were used. The vascular lumina of arterial and venous vessels in portal tracts were morphometrically evaluated by an image analysis system. The ratio of portal venous luminal area to portal tract area (portal venous index) of IPH and that of AF/C were significantly reduced compared with normal liver. The portal venous index for IPH was significantly lower than that for AF/C. The ratio of hepatic arterial luminal area to portal tract area for AF/C was significantly higher than that in normal liver; however, that for IPH was similar to normal. The peribiliary vascular plexus was increased in AF/C but not in IPH. In AF/C, the number of mast cells and macrophages known to be the source of angiogenic substances was significantly increased in the portal tract compared with normal liver, while in IPH it was not increased. CONCLUSIONS: In AF/C, a reduction in portal venous lumen was associated with an increase of hepatic arterial lumen and of angiogenesis-related cells in portal tracts. However, such compensatory arterial changes were not evident in IPH, and this compensatory failure may be a feature of IPH.     

HLA-DR expression on the microvasculature of portal tracts in idiopathic portal hypertension. Immunohistochemical characteristics and relation to portal phlebosclerosis

We recently reported that HLA-DR antigen was expressed on the microvasculature of portal tracts more frequently in idiopathic portal hypertension (IPH) than in normal livers or in other hepatic diseases, and that this HLA-DR expression may be involved in the development of the portal venopathy characteristic of IPH. The present study was performed to evaluate the relationship between the HLA-DR expression and portal tract lesions, as well as to investigate the immunohistochemical characteristics of the HLA-DR-positive microvasculature using liver wedge biopsy specimens obtained from 32 patients with IPH. According to the degree of phlebosclerosis of the portal veins, the portal tracts were divided into three groups: mild, moderate, and severe. The microvasculature in portal tracts was positive for HLA-DR in 21 (66%) of the 32 specimens and in 133 (44%) of 302 portal tracts. In the 21 specimens, there was no significant difference in the prevalence of HLA-DR-positive microvasculature among the three groups: it occurred in 57 (66%) of 86 portal tracts in the mild group, 53 (61%) of 87 portal tracts in the moderate group, and 23 (49%) of 47 portal tracts in the severe group. The HLA-DR-positive microvasculature was positive for type IV collagen and receptors of Ulex europaeus lectin I, suggesting that HLA-DR-positive microvessels are blood vessels. These findings suggest that HLA-DR antigen is already expressed on portal microvessels in the incipient stage of IPH, and that HLA-DR expression persists during the progression of portal phlebosclerosis. The HLA-DR expression may be an initiating factor leading to immunologic assault on portal microvessels in IPH.     

Expression of HLA-DR antigen on hepatic vascular endothelial cells in idiopathic portal hypertension.

Immunologic abnormalities have been reported in idiopathic portal hypertension, though the exact immunologic mechanism(s) leading to various portal venopathies in this disease remain unsettled. Recently, aberrant expression of HLA-DR antigen on target cells has been noted in the organ-specific autoimmune diseases. In this study the expression of HLA-DR antigen on the hepatic vasculature was surveyed immunohistochemically in idiopathic portal hypertension (n = 36) and in control livers: normal livers (n = 27), chronic active hepatitis (n = 35) and cirrhosis (n = 21). Endothelial cells of hepatic veins and hepatic arteries occasionally expressed HLA-DR antigen, and there was no difference in the expression between idiopathic portal hypertension and controls. Endothelial cells of the main portal vein, within the small and medium-sized portal tract, did not express HLA-DR antigen in idiopathic portal hypertension and controls. By contrast, endothelial cells of the smaller venous radicles, including inlet venules in these portal tracts other than the main portal vein, more frequently expressed HLA-DR antigen in idiopathic portal hypertension (78%) than in chronic active hepatitis (26%), cirrhosis (29%) and normal liver (15%). These data raise the possibility that the smaller venous radicles in the small and medium-sized portal tracts are targets of immunologic attack in idiopathic portal hypertension.     

Portal and parenchymal alterations of the liver in idiopathic portal hypertension: a histological and immunochemical study

Idiopathic portal hypertension (IPH) is characterized by presinusoidal portal hypertension owing to the intrahepatic, presinusoidal portal venous block, whereas the primary cause and initial vascular lesions(s) remain only speculative. In this study, a total of 97 IPH livers were histopathologically and immunohistochemically examined, placing emphasis on hepatic parenchymal fibrosis and atrophy as well as on portal tract fibrosis. Alcoholic cirrhosis and normal livers were used as controls. When compared with normal livers, the expression of connective tissue growth factor (CTGF) in periductal mononuclear cells was significant. Matrix metalloproteinase (MMP)9-positive mononuclear cells were fewer in number in the portal tract of IPH liver, when compared with alcoholic cirrhosis. These findings suggest a possible pathogenesis of collagen and elastin deposition because of increased CTGF expression and decreased MMP-9 expression in portal tracts of IPH. Sinusoidal dilatation associated with hepatocellular atrophy and apoptosis occurred frequently, but focally in 20% of the IPH cases. These changes were most often found in hyperplastic hepatocellular areas and in the perivenular areas of hepatic lobules. In these areas, pericellular fibrosis and thin fibrous septa were also frequently seen. In these fibrotic areas, there were deposited not only collagen fibers, but also elastic fibers, in which alpha-smooth muscle actin-positive sinusoidal cells, reflecting activated hepatic stellate cells, were frequently detected. It is possible that in IPH cases, continuing portal venous blood insufficiency may be responsible for hepatic parenchymal damage, which may be followed by hepatocellular apoptotic dropout and then by hepatic parenchymal atrophy and fibrosis.     

Histological study of intrahepatic cavernous transformation in a patient with primary myelofibrosis and portal venous thrombosis

Summary Cavernous transformation in the liver was examined histologically by serial section observations, in an autopsy case of portal venous thrombosis and primary myelofibrosis. Cavernous transformation was present from the hepatic hilus to medium-sized portal tracts and was composed of dilated and thin-walled vessels. Serial sections disclosed that these vascular channels were anastomotic and occasionally communicated with occluded portal venous radicles. In places they entered directly into the hepatic parenchyma without accompanying biliary or arterial elements, and also drained into the patent portal venous branches beyond the occluded segment. The study demonstrated that cavernous transformation in the liver develops as hepatopetal collaterals secondary to the portal venous obstruction. Periportal and peribiliary capillary plexus may become cavernous in the presence of portal venous occlusion.     

Portal vein or hepatic vein? A curious aberrant vasculature in the liver with idiopathic portal hypertension

The existence of aberrant vasculatures has been described as one of the characteristic findings in the liver with idiopathic portal hypertension (IPH). In this paper, the morphological features and the genesis of aberrant vasculatures were studied on the basis of autopsy and biopsy materials of IPH and animal experiments. Aberrant vasculatures in IPH livers are characterized as thin-walled vessels located mainly adjacent to the portal tracts and at times in the hepatic lobules. Although some of them are morphologically very similar to hepatic vein branches, they are portal in nature. These aberrant vessels develop in order to compensate for portal circulatory insufficiency due to obliteration of portal vein branches, and play an important role in maintaining an adequate blood supply to the parenchyma. It is predicted that decrease of these intrahepatic collateral vessels is responsible for or related to parenchymal atrophy and deterioration of liver function in the advanced stage of this disease. We regard these vasculatures as characteristic of the intrahepatic portal venous obstruction, particularly with portal hypertension accompanied by increased portal blood flow.     

Induction of elastin expression in vascular endothelial cells relates to hepatoportal sclerosis in idiopathic portal hypertension: possible link to serum anti-endothelial cell antibodies

Hepatoportal sclerosis accompanied by dense elastic fibre deposition is generally regarded as the primary lesion in the development of idiopathic portal hypertension (IPH). This study was performed to clarify the mechanism of elastic fibre deposition in the peripheral portal tracts of IPH liver in relation to serum anti-endothelial cell antibodies (AECA). In-vitro experiments were performed using human dermal microvascular endothelial cells (HMVEC) and patients' sera. The presence of serum AECA was assayed by a cell-based enzyme-linked immunosorbent assay (ELISA) using HMVEC. Immunohistochemical analysis of elastin was performed using liver tissue sections of IPH patients. IPH sera contained one or more AECA that could bind to the vascular endothelial cells of the peripheral portal tracts of the liver. When the value of AECA greater than the mean ± 2 standard deviations of healthy controls was regarded as positive, the positive detection rate of either immunoglobulin (Ig)G, IgA or IgM AECA in IPH sera was 30% (10 of 33 cases). IPH sera induced the expression of elastin in HMVEC, which appeared to be associated with the presence of AECA. Apoptosis was also induced in HMVEC by the stimulation with IPH sera. In vivo, elastin expression was observed in the endothelial cells of the peripheral portal tracts of IPH livers in a proportion of cases. The disease pathogenesis of IPH seems to be heterogeneous, and this study elucidated a possible contribution of the induction of elastin expression in the portal vessels to hepatoportal sclerosis of IPH, which might be linked to serum AECA as a causative factor.     

Pathology and pathogenesis of idiopathic portal hypertension with an emphasis on the liver

Idiopathic portal hypertension (IPH) is characterized by a long-standing presinusoidal portal hypertension of unknown etiology in adults. Some unidentified agent(s) affect(s) the intrahepatic small portal veins or portal tracts. Immunological disturbance, thromboembolism, infectious etiology and/or increased fibrogenesis in portal tracts are suspected as being candidates for the primary agent(s). During the long clinical course of IPH, several pathological changes may occur, including subcapsular parenchymal atrophy, atrophy of the liver, portal and parenchymal fibrosis, and portal venous phlebosclerosis and thrombosis. The last-named of these lesions is mostly found in patients with a history of splenectomy. Subcapsular parenchymal and hepatic atrophy may result from a hepatocellular dropout via apoptosis or necrosis because of intrahepatic hemodynamic disturbances, particularly chronic portal venous blood insufficiency. Pericellular fibrosis and thin fibrous septa are also frequently found and associated with activated perisinusoidal cells positive for smooth muscle actin. At the same time, vague nodular hyperplasia of hepatocytes not surrounded by fibrous septa is not infrequently seen. It may resemble nodular regenerative hyperplasia, partial nodular transformation, or focal nodular hyperplasia. However, liver cirrhosis does not occur even at the terminal stage. Taking these findings into consideration, a new staging of IPH with a combination of hepatic parenchymal atrophy and portal venous thrombosis was proposed: non-atrophic liver without subcapsular parenchymal atrophy (stage I), non-atrophic liver with subcapsular parenchymal atrophy (stage II), atrophic liver with subcapsular parenchymal atrophy (stage III), and portal venous occlusive thrombosis (stage IV). IPH livers are likely to progress from stage I to stage III. Stage IV, which occurs relatively late, has a poor prognosis. This staging is applicable to clinical and autopsy cases without any histological data.     

Hepatocellular prolapse of hepatic portal tracts and subendothelial space of central veins in idiopathic portal hypertension

We report a case of idiopathic portal hypertension (IPH) with unusual liver pathology. The liver showed changes similar to these previously reported in IPH and, in addition, we observed the unusual features of prolapse of hepatocytes into portal tracts and also into the subendothelial space of hepatic veins. Hepatocyte prolapse into hepatic veins has previously been reported only in patients with a history of androgenic steroid therapy and immunosuppressive therapy. We speculate that, in our case, prolapse of hepatocytes could be related to the abnormal intrahepatic blood flow or to intrahepatic vasculopathy.     

Pathology of the liver in "idiopathic portal hypertension" associated with autoimmune disease. The Ministry of Health and Welfare Disorders of Portal Circulation Research Committee

The histopathology of the liver in idiopathic portal hypertension (IPH) associated with autoimmune disease (15 cases), was examined and compared with that of IPH without autoimmune disease (31 cases). It was found that hepatic histopathology was heterogeneous in the cases with autoimmune disease. That is, the hepatic histopathology in 7 cases was similar to that of classic IPH without autoimmune disease, and the remaining 8 cases disclosed unusual lesions such as focal non-suppurative cholangitis, nodular parenchymal hyperplasia, moderate portal inflammation, and intrahepatic ductopenia. These unusual lesions, which frequently coexisted in the same case, were not typical ones for making other diagnoses such as primary biliary cirrhosis or nodular regenerative hyperplasia of the liver. These findings suggest that unusual histologic lesions in the livers of IPH patients with autoimmune disease may represent an accentuated immunologic reaction inherent in IPH, or that such cases may be an abortive or incomplete form of primary biliary cirrhosis or nodular regenerative hyperplasia of the liver.     

PORTAL VEIN OR HEPATIC VEIN ?

The existence of aberrant vasculatures has been described as one of the characteristic findings in the liver with idopathic portal hypertension (IPH). In this paper, the morphological features and the genesis of aberrant vasculatures were studied on the basis of autopsy and biopsy materials of IPH and animal experiments. Aberrant vasculatures in IPH livers are characterized as thin-walled vessels located mainly adjacent to the portal tracts and at times in the hepatic lobules. Although some of them are morphologically very similar to hepatic vein branches, they are portal in nature. These aberrant vessels develop in order to compensate for portal circulatory insufficiency due to obliteration of portal vein branches, and play an important role in maintaining an adequate blood supply to the parenchyma. It is predicted that decrease of these intrahepatic collateral vessels is responsible for or related to parenchymal atrophy and deterioration of liver function in the advanced stage of this disease. We regard these vasculatures as characteristic of the intrahepatic portal venous obstruction, particularly with portal hypertension accompanied by increased portal blood flow. ACTA PATHOL. JPN. 35 : 885–897, 1985.     

Microradiography of the rabbit's hepatic microcirculation. The similarity of the hepatic portal and pulmonary arterial circulations

Examination of microradiographs of liver indicate that the hepatic arteries supply the richly anastomosing arterial plexus around the biliary ducts. This arterial plexus supplies the portal veins directly and the peripheral hepatic sinusoids. Arterial “boosters” penetrating deep within the lobule were not seen. Hepatic veins receive sinusoids at irregular angles and frequent intervals, whereas portal veins distribute flow through short right angle inlet venules spaced at greater intervals. Pulmonary arteries also distribute flow to capillaries through short right angle precapillaries and pulmonary veins receive capillary drainage at irregular angles and frequent intervals. The location of capillary beds of both liver and lung only 10 to 30 μ from inflow channels appears “ideally” suited for circulations of low vascular resistance. The analogy of liver and lung relates biliary system to airway, hepatic artery to bronchial artery, portal vein to pulmonary artery, hepatic vein to pulmonary vein and ductus venosus to ductus arteriosus. In particular, should the pulmonary artery be considered a “pulmonary portal vein”.     

Immunohistochemical analysis of adhesion molecules in the micro-environment of portal tracts in relation to aberrant expression of PDC-E2 and HLA-DR on the bile ducts in primary biliary cirrhosis

We have examined immunohistochemically the expression of adhesion molecules in the micro-environment of portal tracts and their relationship to the expression of the pyruvate dehydrogenase E2 complex (PDC-E2) and HLA-DR in liver biopsy specimens. Ten cases of primary biliary cirrhosis (PBC) and 19 controls were examined, including four cases of extrahepatic biliary obstruction, six of chronic viral hepatitis, and nine normal livers. In PBC, the damaged small bile ducts demonstrated an increased expression of PDC-E2 and an aberrant expression of HLA-DR; about half of these damaged bile ducts also expressed intercellular adhesion molecules (ICAM)-1 and a few expressed vascular adhesion molecule (VCAM)-1. In addition, lymphocyte function-associated antigen (LFA)-1 and very late antigen (VLA)-4 were expressed on infiltrating lymphocytes around these bile ducts. In contrst, in control livers, these alterations in antigen expression on the bile ducts were either not observed or were only focal and weak, when present. These findings suggest that ICAM-1/LFA-1 and also VCAM-1/VLA-4 linkages between the damaged bile ducts and lymphocytes may facilitate antigen-specific reactions such as the presentation of antigens, possibly PDC-E2, to the periductal lymphocytes in PBC. ICAM-1, VCAM-1, and E-selectin were strongly expressed on the endothelial cells of some vessels in the portal tracts in PBC, suggesting the facilitation of the recruitment of lymphocytes around the of some vessels in the portal tracts in PBC, suggesting the facilitation of the recruitment of lymphocytes around the bile ducts of PBC. VCAM-1, a member of the immunoglobulin superfamily, has not hitherto been reported on bile ducts.     

Expression of alpha-amylase isoenzymes and trypsin by the proliferating epithelium of large intrahepatic bile ducts and intrahepatic peribiliary glands in hepatolithiasis

The expression of alpha-amylase isoenzymes (pancreatic and salivary) and trypsin by the epithelium of large intrahepatic bile ducts and peribiliary glands was examined immunohistochemically in hepatolithiasis ( n = 22), extrahepatic biliary obstruction ( n = 20) and normal liver ( n = 22). Hepatolithiasis was associated with marked proliferation of bile duct cells and peribiliary glands. Expression of pancreatic and salivary amylase was observed in the proliferating bile duct cells and peribiliary glands of all livers, and trypsin was found in 68% of the livers. In extrahepatic biliary obstruction, proliferation of the biliary epithelium was less marked, but expression of amylase isoenzymes was observed in all livers and trypsin was found in 50%. All normal livers showed expression of amylase isoenzymes in large intrahepatic bile ducts, septal bile ducts and peribiliary glands, and trypsin was found in 73%. The density of enzyme-containing acini was highest in hepatolithiasis, intermediate in extrahepatic biliary obstruction and lowest in normal liver. These results show that the proliferating biliary epithelium in hepatolithiasis contains amylase isoenzymes and trypsin and that biliary epithelium retains the ability to produce these enzymes after proliferation, suggesting that a large amount of amylase isoenzymes and trypsin may be secreted into the bile ducts in hepatolithiasis. These enzymes may play an important role in the pathophysiology of hepatolithiasis.     

Histopathological distinction and evaluation of biliary and peribiliary cysts in pig liver

The majority of hepatic cysts identified in animals are considered to derive from the intrahepatic bile ducts (biliary cysts). An alternative origin is the peribiliary glands located in the hilum of the liver and large portal tracts (peribiliary cysts). The distinction between biliary and peribiliary cysts, and whether these have different clinical significance, has rarely been considered previously. This study reports the pathological features of five cystic porcine livers. Four of these five livers had both biliary and peribiliary cysts and the fifth had only biliary cysts. Biliary cysts were not associated with distortion of adjacent hepatic parenchyma, whereas peribiliary cysts appeared to cause local compression and circulatory disturbance. It would therefore appear that peribiliary cysts have greater potential clinical significance than those of biliary origin.     

Pathogenesis of portal sclerosis in the liver with idiopathic portal hypertension. Observations of 19 autopsy cases and animal experiments

The pathomorphological changes of intrahepatic portal veins were studied in 19 autopsy cases of idiopathic portal hypertension (IPH), and the pathogenesis of portal sclerosis was discussed by the observations on the human and experimental materials. The degree and morphological appearance of intimal lesions vary from vessel to vessel. Fibro-cellular proliferation of subendothelial tissue and incorporation of organized mural thrombi were suggested as the cause of intimal thickening in the portal veins. Animal experiment showed that injury of portal vein wall was followed by intimal hyperplasia and/or incorporation of mural thrombi, and resulted in portal sclerosis similar to that of IPH liver. The cause of portal phlebosclerosis in IPH can not be explained by passive congestion alone. There might be a certain possibility of direct injurious effect in the vessel wall in the pathogenesis of portal lesions of IPH. The following pathogenesis of portal sclerosis in IPH is postulated: phlebo-sclerotic changes of the portal veins are initiated by injury to the vessel wall due to unknown cause(s) and accelerated by secondary thrombosis and/or mechanical injury due to increased portal pressure.     

Microvascular anatomy of the non-lobulated liver of adult Xenopus laevis: A scanning electron microscopic study of vascular casts

The microvascular anatomy of the non-lobulated liver of adult Xenopus laevis was studied by scanning electron microscopy of vascular corrosion casts. Hepatic portal veins and hepatic arteries entered hepatic lobes at the hiluses, hepatic veins left at these sites. Intraparenchymal, hepatic portal veins branched up to 10 times before terminal portal venules supplied liver sinusoids. Hepatic arteries closely followed portal vessels. Arteriolar side branches formed anastomoses with close by portal venules (arteriolar-portal anastomoses; APAs), liver sinusoids (arteriolar-sinusoidal anastomoses; ASAs), and peribiliary plexus vessels. Distally, hepatic arteries anastomosed with terminal portal venules having >100 μm in diameter. Liver sinusoids formed a dense three-dimensional network displaying signs of non-sprouting and sprouting angiogenesis evidenced by “holes” and blind ending tapering cast vascular structures (sprouts), respectively. Sinusoids drained via efferent hepatic veins. Right and left hepatic veins drained into the posterior caval vein. Locally, a dense honeycomb-like 3D-meshwork of resin structures was found around terminal portal venules and hepatic arteries. These networks were fed by hepatic arterioles and drained into adjacent terminal portal venules. As their morphologies differed significantly from sinusoids and they were found at sites where diffuse lymphoid tissue is described, we are convinced that they represent the vasculature of diffuse lymphoid tissue areas. Frequencies and diameter ratios of hepatic portal venules versus hepatic arterioles anastomosing with the former (APAs) implicate that the arterial supply contributes to the oxygenation of parenchymal and stromal cells rather than to a significant increase in blood flow towards hepatic sinusoids.     

Pathways for movement of fluid and cells from hepatic sinusoids to the portal lymphatic vessels and subcapsular region in rat livers

It has long been a mystery how fluid and migrating cells in the hepatic sinusoids reach lymphatic vessels in the portal tract. Here we describe previously-unknown channels that connect the space of Disse with the portal tract in the rat liver. Transmission electron microscopy was performed on livers injected with either horseradish peroxidase (HRP) or lipopolysaccharide, and scanning electron microscopy was carried out on livers macerated with KOH. Transmission electron microscopy revealed the presence of channels with collagen fibers traversing the limiting plate. A tracer study showed that HRP was in the channels as well as along inlet venules. Dendritic cells in the hepatic sinusoids or between hepatocytes of the limiting plate were also observed extending their pseudopodia through the channels in the limiting plate to the interstitial space of the portal tract. Scanning electron microscopy further showed that many channels (1-3microm in diameter) penetrated through the limiting plate independently of blood vessels and connected the space of Disse with the interstitial space of the portal tract. In addition, the portal tract possessed prelymphatic vessels that were lined with fibroblast-like cells and frequently contained dendritic cells. The initial segment of the portal lymphatic vessels opened to the interstitial tissue space. These results indicate that fluid and dendritic cells in the hepatic sinusoids probably pass through both the space of Disse and the channels traversing the limiting plate, enter the interstitial space of the portal tracts, and finally move from the prelymphatic vessels to the portal lymphatic vessels.     

POEMS syndrome with idiopathic portal hypertension: Autopsy case and review of the literature

Polyneuropathy, organomegaly, endocrinopathy, M protein, and skin changes (POEMS) syndrome is a rare multi‐system disease. Reported herein is an autopsy case of POEMS syndrome in a subject who developed idiopathic portal hypertension (IPH). The patient was a 38‐year‐old woman who was initially admitted to the Saiseikai Central Hospital because of polyneuropathy and edema. Diagnosis of POEMS syndrome was established on additional symptoms (splenomegaly and papilloedema) and serum M‐protein. Corticosteroid was given for 10 years. The patient was admitted again at the age of 48 years because of gastrointestinal bleeding due to portal hypertension. The patient died of hepatoencephalopathy at 58 years of age. The liver at autopsy demonstrated dense portal fibrosis and obliteration of small portal vein branches, which are characteristic histological findings of IPH. Portal hypertension is a rare symptom in POEMS syndrome. Only three cases of IPH associated with POEMS syndrome (including the present one) have been reported so far. In the previous two reports, liver biopsy failed to determine the cause of portal hypertension. This is the first report on the occurrence of histological findings compatible with IPH in the liver. Although it is not confirmed whether IPH is related to POEMS syndrome, elevated serum cytokines such as vascular endothelial growth factor and coagulation abnormality could have contributed to the development of IPH in the present case.