Retroperitoneal masses

Approach to Benign Retroperitoneal Masses

Primary retroperitoneal neoplasms Of the Primary retroperitoneal neoplasms ( Retroper . Masses not arising from major retroperi . organs are - outside the major organs) , 70%–80% are malignant in nature, and these account for 0.1%–0.2% of all malignancies in the body. Primary retroperitoneal neoplasms are diverse group of benign and malignant tumors that arise within the retroperitoneal space but outside the major organs in this space .

PRIMARY RETROPERITONEAL NEOPLASMS ( Retroper . Masses not arising from major retroperi . organs are - outside the major organs) :

Learning objectives Determine whether a tumor is located in the retroperitoneal space . Identify the organ of origin of a retroperitoneal tumor . Describe specific imaging findings in a variety of retroperitoneal tumors .

Tumor Location Anterior displacement of retroperitoneal organs ( eg , kidneys, adrenal glands , ureters , ascending and descending colon,pancreas , portions of the duodenum and major vessels) strongly suggests that the tumor arises in the retroperitoneum

Identification of the Organ of Origin Beak sign Embedded organ sign Phantom organ sign Prominent feeding artery sign

Beak Sign.— When a mass deforms the edge of an adjacent organ into a “beak” shape, it is likely that the mass arises from that organ (beak sign ). On the other hand, an adjacent organ with dull edges suggests that the tumor compresses the organ but does not arise from it Positive beak sign Negative Beak Sign

BEAK SIGN

Phantom (Invisible) Organ Sign.— When a large mass arises from a small organ, the organ sometimes becomes undetectable. This is known as the phantom organ sign.

Embedded Organ Sign The embedded organ sign occurs when the organ of origin appears embedded in a mass rather than deformed by it. When a tumor compresses an adjacent plastic organ ( eg , gastrointestinal tract, inferior vena cava) that is not the organ of origin, the organ is deformed into a crescent shape.

Prominent Feeding Artery Sign Hypervascular masses are often supplied by feeding arteries that are prominent enough to be visualized at CT or MR imaging, a finding that provides an important key to understanding the origin of the mass

SPECIFIC FEATURES Specific Patterns of Spread : Lesions That Extend Between Normal Structures . Lymphangiomas , lymphomas & ganglioneuromas Lesions That Extend along Normal Structures . Tumors of the sympathetic ganglia ( ie , paragangliomas , ganglioneuromas ) tend to extend along the sympathetic chain and have an elongated shape.

LYMPHANGIOMAS Transverse contrast-enhanced abdominal(a)and pelvic(b)CT scans show a multiloculated, low-attenuation cystic mass that extends between normal anatomic structures in the peritoneal cavity and retroperitoneum

"CT angiogram sign" or "floating aorta sign"

Characteristic tumor components Fat Myxoid stroma Necrosis Cystic portion Vascularity Small round cells

Fat A mass that is homogeneous and well defined and consists almost entirely of fat represents lipoma The presence of fat is easily recognized owing to its low attenuation at CT or its high signal intensity at T1-weighted MR imaging with loss of signal intensity on fat-suppressed images. The presence (or absence) of fat limits the differential diagnosis. Teratomas are also characterized by the presence of fat and mature teratomas can be characterized by the presence of fluid attenuation or signal intensity, fat-fluid levels, and calcifications

Characteristic tumor components [ Lipoma ] FAT Abdominal radiograph shows a huge radiolucent mass.(b)Transverse CT scan of the abdomen shows that the mass is composed primarily of fat.(c)On a T1-weighted MR image, the mass has homogeneous high signal intensity and compresses the kidney upward

Axial CT image of a 21-year-old woman with a mature teratoma shows a well-defined heterogeneous mass that demonstrates fat (arrow) and teeth (arrowhead). Mature teratoma .

Myxoid Stroma Myxoid stroma is characterized pathologically by a mucoid matrix that is rich in acid mucopolysaccharides . Myxoid stroma appears hyperintense on T2-weighted MR images and shows delayed enhancement after injection of contrast medium. Tumors that commonly contain myxoid stroma include neurogenic tumors ( schwannomas , neurofibromas , ganglioneuromas , ganglioneuroblastomas , malignant peripheral nerve sheath tumors), myxoid liposarcomas , and myxoid malignant fibrous histiocytoma .

S chwannomas are the most common tumor of peripheral nerves. Schwannomas are well encapsulated and contain cells that are identical to Schwann cells. Their MR imaging appearance depends on the types of tissue they contain. Myxoid tissue is hyperintense on T2-weighted images, cellular tissue is hypointense on both T1- and T2-weighted images, and solid fibrous tissue enhances on contrast-enhanced images. Neurofibromas tend to have high signal intensity on T2-weighted MR images and are often multiple and associated with neurofibromatosis. Ganglioneuromas are typically located along the sympathetic chain and tend to be larger, more rounded, and contain calcification more frequently than nerve sheath tumors. The relatively younger age of affected patients may aid in differentiating ganglioneuromas from other neurogenic tumors.

Schwannoma Transverse contrast-enhanced CT scan shows a well-marginated low-attenuation mass interposed between the portal vein, superior mesenteric artery, aorta, and inferior venacava.(b)On a T2-weighted MR image, the mass appears mostly hyperintense.

NEUROFIBROMA GANGLIONEUROMA Transverse contrast-enhanced CT scan of the abdomen shows a well-marginated, minimally enhancing mass in the right paraaortic region.(b)On aT2-weighted MR image, the mass appears hyperintense Neurofibromas in a patient with neurofibromatosis type 1. Sagittal T2-weighted MRimage shows multiplehyperintense masses in the presacral region

Necrosis Necrotic portions within tumors have low attenuation without contrast enhancement at CT and are hyperintense at T2-weighted MR imaging. Necrosis is usually seen in tumors of high-grade malignancy such as leiomyosarcomas . When they occur in the retroperitoneum , leiomyosarcomas tend to develop massive cystic degeneration. They have central necrosis more commonly than other sarcomas, whereas fat and calcifications are not typically present

NECROSIS LEIOMYOSARCOMA Transverse contrast-enhanced CT scan reveals a huge mass adjacent to the left kidney that displaces the spleen and pancreas anteriorly. The mass has heterogeneous enhancement with central nonenhancing foci that suggest necrosis. Enhanced vessels (arrow) are seen to penetrate the mass, afinding that reflects hypervascularity.(b)On a T2-weighted MR image, the mass is heterogeneous but relatively hypointense. Thecentral portion has high signal intensity (arrow), afinding that represents necrosis

Paraganglioma Transverse unenhanced CTscan shows a large paraaortic mass with a fluid-fluid level.

Cystic Portion Some tumors are completely cystic in appearance. These include lymphangiomas and mucinous cystic tumors. Solid tumors with a partially cystic portion include neurogenic tumors

Small Round Cells At T2-weighted MR imaging, tumors composed of small round cells often appear as homogeneous masses with relatively hypointense areas representing densely packed cellular components. Lymphomas are the most commonly encountered tumors composed of small round cells. They are homogeneous, with minimal contrast enhancement at CT and relatively low signal intensity at T2-weighted MR imaging. An exception is primitive neuroectodermal tumor (PNET), which often appears heterogeneous at MR imaging

SMALL ROUND CELLS LYMPHOMA PNET T2-weighted MR image shows a presacral mass with homogeneous low signal intensity that represents densely packed small round cells Transversecontrast-enhanced CT scan shows a large, partially illdefined mass with heterogeneous enhancement. Thespleen and the left kidney are displaced anteriorly. (b)On a T2-weighted MR image, the mass appears heterogeneous with interpersed high-signal-intensity spots.

Vascularity Extremely hypervascular tumors : Paragangliomas and Hemangiopericytomas . Moderately hypervascular tumors : Myxoid liposarcoma , malignant fibrous histiocytomas , leiomyosarcomas , and many other sarcomas . Hypovascular tumors : Low-grade liposarcomas , lymphomas, and many other benign tumors.

PARAGANGLIOMA

Solid Non-neoplastic Masses Pseudotumoral lipomatosis , R etroperitoneal fibrosis, Erdheim -Chester disease, E xtramedullary hematopoiesis

Lipomatosis Lipomatosis is a benign metaplastic overgrowth of mature unencapsulated white fat. Lipomatosis is seen commonly in the pelvis and along the perirectal and perivesicular spaces and is seen less commonly in the abdominal retroperitoneum. CT and MR imaging show excess fat in the pelvis crowding the anatomic structures , with a few fibrous tissue strands but no soft-tissue mass or enhancement.

A pear-shaped bladde r is produced by symmetric compression and displacement of the bladder caused by pelvic lipomatosis . The lower portions of the ureters may be pinched medially, with resultant hydroureteronephrosis .

Retroperitoneal Fibrosis Retroperitoneal fibrosis is an uncommon collagen vascular disease of unknown cause that can mimic a retroperitoneal tumor. Retroperitoneal fibrosis is typically idiopathic (>70% of cases) and is likely autoimmune in origin. It can be secondary to drugs, malignancy, hemorrhage , inflammatory conditions, infection, radiation, chemotherapy, renal trauma, and amyloidosis . More common in males (3:1), 40–60-year age group

CT - irregular plaque like soft-tissue mass in the retroperitoneum, located around the aortic bifurcation and extending along the iliac arteries and involving the ureters, duodenum, pancreas , and spleen . It does not displace the aorta and IVC anteriorly, as lymphoma or metastatic nodes often do, but causes tethering of these structures to the underlying vertebrae.

Avid enhancement is seen in the active stages of retroperitoneal fibrosis with little or no enhancement in the chronic phase. MR- high signal intensity on T2 WI in the acute ph ase of the disease, with early contrast enhancement , and shows low signal intensity in the chronic fibrosing phase, with delayed enhancement .

Erdheim -Chester Disease It is a rare non-Langerhans form of histiocytosis of unknown origin. Extraskeletal lesions are seen in 50 % of cases, with retroperitoneal involvement seen in one-third. Radiography shows characteristic bilateral symmetric osteosclerosis of the metaphyseal-diaphyseal region of the long bones, with sparing of the epiphysis and lesser involvement of the flat bones and axial skeleton.

Retroperitoneal involvement with Erdheim -Chester disease characteristically produces a soft-tissue rind of fibrous perinephritis surrounding the kidneys and ureters , which can result in renal failure.

Extramedullary Hematopoiesis It is seen in hemoglobinopathies , myelofibrosis , leukemia, lymphoma, and carcinomas . The typical CT appearance is hyper- or isoattenuating round or lobulated masses in the paravertebral region , with or without macroscopic fat.

The MR imaging appearance is variable. Low signal intensity can be seen on T1- and T2 -weighted images because of the red marrow or hemosiderin content. High signal intensity may be found on T1- and T2 -weighted images because of fatty tissue . Enhancement is variable and often mild and there is no associated bone destruction or calcification .

Lymphangioleiomyomatosis LAM is a rare idiopathic disorder that occurs in women of childbearing age and predominantly affects the lungs, less often the mediastinum and retroperitoneum. The disease is characterized by a hamartomatous proliferation of smooth muscle cells that involves lymph nodes and lymphatics, resulting in dilation of lymphatic spaces with cyst formation . On CT or MRI, cystic lung disease, chylous pleural effusions, pneumothoraces, and renal angiomyolipomas are most frequently encountered. Retroperitoneal or pelvic lymphangioleiomyomas are less common, occurring in up to 20% of patients. These appear as low-attenuation high-T2-SI cystic masses with enhancing walls, sometimes with delayed enhancement of the internal contents

CT and MR imaging show a well-defined unilocular homogeneous cystic mass. large thin-walled unilocular or multilocular cystic mass with attenuation values ranging from that of fat (caused by chyle ) to that of fluid.

sagittal T2-weighted (B) images through pelvis demonstrate well-circumscribed multiloculated lesion (arrows) within presacral space with variable T1 and T2 SI within locules due to variable amounts of proteinaceous or hemorrhagic fluid conten axial T2-weighted (B) images through pelvis demonstrate small unilocular lesion (arrows) medial to left external iliac vessels, with fluid attenuation and very high T2 SI relative to skeletal muscle Axial contrast-enhanced CT MIP image during excretory phase of enhancement demonstrates leakage of contrast material (arrows) from medial left renal collecting system into perirenal space in keeping with perirenal urinoma.

Diagnostic Clues for a Retroperitoneal Mass

STEP-1 :I dentify the lesion whether it is Intra-abdominal or Retroperitoneal.

STEP-2 : Identifying Primary Retroperitoneal lesions

STEP-3 : Identifying retroperitoneal lesions arising from retroperitoneal structures

Flow chart-Approach for diagnosis of retroperitoneal lesions.

References : Imaging of Uncommon Retroperitoneal Masses. Prabhakar Rajiah et al. Primary Retroperitoneal Neoplasms: CT and MR Imaging Findings with Anatomic and Pathologic Diagnostic Clues. Mizuki Nishino et al. CT & MRI OF THE WHOLE BODY BY JOHN.R.HAAGA

T hank you

Retroperitoneal masses

About This Presentation

Slide Content

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Retroperitoneal masses

About This Presentation

Slide Content

Slide 1

Slide 2

Slide 3

Slide 4

Slide 5

Slide 6

Slide 7

Slide 8

Slide 9

Slide 10

Slide 11

Slide 12

Slide 13

Slide 14

Slide 15

Slide 16

Slide 17

Slide 18

Slide 19

Slide 20

Slide 21

Slide 22

Slide 23

Slide 24

Slide 25

Slide 26

Slide 27

Slide 28

Slide 29

Slide 30

Slide 31

Slide 32

Slide 33

Slide 34

Slide 35

Slide 36

Slide 37

Slide 38

Slide 39

Slide 40

Slide 41

Slide 42

Slide 43

Slide 44

Slide 45

Slide 46

Slide 47

Slide 48

Slide 49

Slide 50

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Pray For The Peace Of Jerusalem and You Will Prosper

Don_t_Waste_Your_Life_God.....powerpoint

VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf

Fertility awareness methods for women in the society

Chapter 5 Arithmetic Functions Computer Organisation and Architecture

syakira bhasa inggris (1) (1).pptx.......