Hepatic Angiomyolipoma and Lipoma

Published on 13/07/2015 by admin

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Last modified 22/04/2025

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 Only 50% of hepatic angiomyolipomas have substantial fat component

• Arterial phase: Prominent enhancement of nonfatty portion of lesion

image Central vessels within lesion if mass is large
• Fatty component of tumor results in hyperintense (high signal) foci on T1WI and T2WI
• MR, fat suppression ± opposed-phase GRE imaging

TOP DIFFERENTIAL DIAGNOSES

• Hepatocellular carcinoma
• Postoperative state, liver
• Focal steatosis
• Hepatic adenoma
• Hepatic lipoma
• Metastases 

image Teratoma or liposarcoma

PATHOLOGY

• Associated with tuberous sclerosis in < 10% of cases

image But some patients likely have forme fruste tuberous sclerosis

DIAGNOSTIC CHECKLIST

• Small, fat density hepatic mass in patient with tuberous sclerosis is almost certainly benign
• Angiomyolipoma that is primarily myeloid or angioid may be indistinguishable from other hepatic tumors, including hepatocellular carcinoma
image
(Left) Gross photograph of a fixed specimen shows a heterogeneous mottled tan, yellow, and brown tumor with areas of hemorrhage and degeneration image. Note that the background liver is not cirrhotic. (Courtesy J. Misdraji, MD.)

image
(Right) H&E-stained section shows a tumor composed of 3 elements: Adipose tissue image, vessels image, and plump spindle cells image. (Courtesy J. Misdraji, MD.)
image
(Left) Axial T2WI MR shows a heterogeneously bright mass with a fatty component image that is nearly isointense to subcutaneous fat image. The rest of the tumor has the moderate hyperintensity typical of most neoplasms on T2WI MR.

image
(Right) Axial T1WI MR in the same patient shows that most of the mass image is hyperintense, an unusual feature of most neoplasms and generally indicative of the presence of fat or hemorrhage within the mass. This tumor was resected and proved to be an isolated angiomyolipoma (AML).

TERMINOLOGY

Abbreviations

• Hepatic angiomyolipoma (AML)

Synonyms

• Benign hepatic hamartoma

Definitions

• Benign mesenchymal tumor composed of variable amounts of smooth muscle (myoid), fat (lipoid), and proliferating blood vessel (angioid) components

IMAGING

General Features

• Best diagnostic clue

image Well-circumscribed, mostly fatty mass in liver
• Location

image Liver is 2nd most common site (kidney is 1st)
• Size

image Variable; 0.3-36 cm in diameter
• Key concepts

image Round or lobulated solitary mass or multiple lesions with variable shape
image Only 50% of hepatic angiomyolipomas have substantial fat component

– Those without much fat are difficult to distinguish from other hepatic tumors

CT Findings

• NECT

image Well-defined mass with heterogeneous attenuation values due to presence of fat and soft tissue densities

– May be almost completely fat or soft tissue density mass
• CECT

image Arterial phase: Prominent enhancement of nonfatty portion of lesion
image Portal phase: Lesion shows hypoattenuation throughout mass
• CTA

image Central vessels within lesion if mass is large

MR Findings

• T1WI

image Hypointensity or hyperintensity on T1WI

– Depends on amount of fat and whether fat-suppressed technique is used
image Fatty component of tumor results in hyperintense (high signal) foci on T1WI
image Relative loss of signal intensity on opposed-phase images compared with in-phase
image Frequency-selective fat-saturation techniques are useful
• T2WI

image High signal intensity of fatty components
image Heterogeneous hyperintensity
• T1WI C+

image Enhancement of soft tissue elements within lesion

Ultrasonographic Findings

• Grayscale ultrasound

image Homogeneous or heterogeneous echogenic mass due to fat
image If muscle, vascular elements, or hemorrhage predominate, lesion may be hypoechoic

Angiographic Findings

• Heterogeneously hypervascular tumor

Imaging Recommendations

• Best imaging tool

image MR with fat suppression ± opposed-phase GRE imaging

DIFFERENTIAL DIAGNOSIS

Hepatocellular Carcinoma (HCC)

• Fat within tumor may be localized or show diffusely scattered or mosaic pattern
• Fat-containing mass in cirrhotic liver is usually HCC

Postoperative State, Liver

• Omental fat may be placed into surgical defect in liver

Focal Steatosis

• Often periligamentous or periportal distribution
• Shows normal blood vessels traversing lesion

Hepatic Adenoma

• Well defined, often surrounded by capsule
• Heterogeneously hypervascular; areas of hemorrhage and fat within
• Typically seen in young women who take oral contraceptives

Hepatic Lipoma

• No enhancement on CECT (indistinguishable from AML with mostly fat content)

Metastases (Teratoma or Liposarcoma)

• Fat containing, ± fluid, calcification in teratoma
• Most liposarcomas are large, well-circumscribed, vascular structures with soft tissue attenuation

PATHOLOGY

General Features

• Associated abnormalities

image Associated with tuberous sclerosis (TS) in < 10% of cases

– AMLs (+ cysts) in kidneys, plus extrarenal masses
– Some patients likely have forme fruste of TS

Gross Pathologic & Surgical Features

• Fat content varies from < 10% to > 90% of tumor volume
• Usually yellow to light tan, secondary to fat content
• May have large foci of necrosis

Microscopic Features

• Epithelioid smooth muscle cells, admixture of mature fat cells, and proliferating blood vessels

CLINICAL ISSUES

Presentation

• Asymptomatic and discovered incidentally at imaging
• Pain results from intratumoral hemorrhage (rare)

Demographics

• Gender

image Marked female predominance

Natural History & Prognosis

• Spontaneous hemorrhage or rupture (rare)
• No malignant potential

Treatment

• Conservative; embolization

image Resect large peripheral lesions and those of uncertain histology

DIAGNOSTIC CHECKLIST

Consider

• Small, fat density hepatic mass in patient with TS is likely benign
image
(Left) Axial NECT of a 56-year-old man who presented with nonspecific symptoms and no clinical evidence of tuberous sclerosis shows 1 of several image partially fat-density masses in the liver.

image
(Right) Axial NECT of the same patient shows a fat-density mass image and simple cysts in the kidneys.
image
(Left) Axial CECT of the same patient shows bright enhancement of a portion of the hepatic mass image that has other components measuring fat density image.

image
(Right) Axial CECT of the same patient shows that most of the hepatic mass is hypervascular with large feeding vessels image.
image
(Left) Axial CECT of the same patient shows a renal mass image that is also characterized by large vessels and macroscopic fat, which are characteristic features of AML. This patient probably has a forme fruste of tuberous sclerosis with incomplete or atypical clinical manifestations.

image
(Right) H&E-stained section shows epithelioid smooth muscle cells with a rarefied cytoplasm that resembles “spider webs.” Note the enlarged oval nuclei and distinct nucleoli image. (Courtesy J. Misdraji, MD.)
image
(Left) Axial CECT of a 36-year-old woman with tuberous sclerosis (TS) shows 2 nodules within the liver. One of them has the fat-density image characteristic of AML, but the other is of soft tissue density image likely representing lipid-poor AML.

image
(Right) Axial CECT of the same patient shows that the right kidney is absent (removed due to spontaneous hemorrhage from an AML). The left kidney is distorted by multiple fat-containing AMLs image. This patient also had lymphangiomyomatosis of the lungs, another feature of the TS complex.
image
(Left) This 43-year-old woman had vague RUQ discomfort. Axial NECT shows a large hepatic mass with small foci of fat density image.

image
(Right) Axial CECT in the same patient shows marked hypervascularity of the tumor, raising concern for hepatic adenoma or a malignant tumor. The mass was resected and proved to be an AML with predominantly smooth muscle and vascular components.
image
(Left) The resected specimen in this case is a large mass image that had small foci of fat, large blood vessels, and areas of necrosis image.

image
(Right) The bivalved resected specimen was a large mass, the center of which had become necrotic and “shelled out” on cross sectioning. The final diagnosis was hepatic AML.

SELECTED REFERENCES

1. Wang, SY, et al. Comparison of MRI features for the differentiation of hepatic angiomyolipoma from fat-containing hepatocellular carcinoma. Abdom Imaging. 2014; 39(2):323–333.

2. Lafitte, M, et al. Radiologic-pathologic correlation in liver angiomyolipoma in a 68-year-old woman. Diagn Interv Imaging. 2013; 94(11):1161–1164.

3. Chang, Z, et al. Characteristics and treatment strategy of hepatic angiomyolipoma: a series of 94 patients collected from four institutions. J Gastrointestin Liver Dis. 2011; 20(1):65–69.

4. Prasad, SR, et al. Fat-containing lesions of the liver: radiologic-pathologic correlation. Radiographics. 2005; 25(2):321–331.

Ding, GH, et al. Diagnosis and treatment of hepatic angiomyolipoma. J Surg Oncol. 2011; 103(8):807–812.

Umeoka, S, et al. Pictorial review of tuberous sclerosis in various organs. Radiographics. 2008; 28(7):e32.

Basaran, C, et al. Fat-containing lesions of the liver: cross-sectional imaging findings with emphasis on MRI. AJR Am J Roentgenol. 2005; 184(4):1103–1110.

Balci, NC, et al. Hepatic angiomyolipoma: demonstration by out of phase MRI. Clin Imaging. 2002; 26(6):418–420.

Takayama, Y, et al. Hepatic angiomyolipoma: radiologic and histopathologic correlation. Abdom Imaging. 2002; 27(2):180–183.

Yoshimura, H, et al. Angiomyolipoma of the liver with least amount of fat component: imaging features of CT, MR, and angiography. Abdom Imaging. 2002; 27(2):184–187.

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