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Portal vein thrombosis

Last revised by Han Xin Lau on 23 Mar 2024

Citation, DOI, disclosures and article data

Citation:

Gaillard F, Lau H, McKinnon S, et al. Portal vein thrombosis. Reference article, Radiopaedia.org (Accessed on 19 Apr 2024) https://doi.org/10.53347/rID-7114

DOI:

https://doi.org/10.53347/rID-7114

Permalink:

https://radiopaedia.org/articles/7114

rID:

7114

Article created:

5 Sep 2009, Frank Gaillard ◉ ◈

Disclosures:

At the time the article was created Frank Gaillard had no recorded disclosures.

View Frank Gaillard's current disclosures

Last revised:

23 Mar 2024, Han Xin Lau

Disclosures:

At the time the article was last revised Han Xin Lau had no financial relationships to ineligible companies to disclose.

View Han Xin Lau's current disclosures

Revisions:

50 times, by 28 contributors - see full revision history and disclosures

Systems:

Vascular, Hepatobiliary

Tags:

liver, portal vein, cirrhosis

Synonyms:

Portal vein thrombus
Portal venous thrombosis
PV thrombosis
Portal venous thromboses

Portal vein thrombosis may be seen in a variety of clinical contexts, and when acute can be a life-threatening condition. It is a major cause of non-cirrhotic presinusoidal portal hypertension. Portal vein thrombus may be either bland and/or malignant (i.e. tumor thrombus), and it is a critical finding in liver transplant candidates, as it precludes transplantation.

The demographics of patients with portal venous thrombosis will match those of the underlying condition. The prevalence of portal vein thrombosis in patients with underlying liver cirrhosis, but without co-incident hepatocellular carcinoma, is between 10-18% with an annual incidence between 4-24% ^17,18.

Clinical presentation

Clinical presentation is often vague and non-specific. If extensive acute thrombosis is present, especially if the superior mesenteric venous system is also involved, then the presentation is likely to be with acute ischemic bowel, mimicking superior mesenteric artery (SMA) occlusion ¹⁵.

Pathology

Portal vein thrombosis, like thrombosis elsewhere, can occur due to disturbance of any one of the Virchow triad, and causes can be thought of in these terms ^1,2:

reduced flow / portal hypertension
- cirrhosis: most common
  - an increased portal venous diameter has been suggested as a risk factor for portal venous thrombosis in patients with cirrhosis ¹⁶
- hepatobiliary malignancies
- gastric carcinoma
- extrinsic compression by an adjacent tumor (bland thrombus) ¹³
hypercoagulable state
- inherited prothrombotic conditions
- malignancy
- myeloproliferative disorders
- inflammatory bowel disease
- dehydration
- oral contraceptive pills
- pregnancy
- trauma
endothelial disturbance
- local inflammation/infection (most common in some series ³)
  - acute pancreatitis
  - ascending cholangitis
  - abdominal surgery
  - perinatal omphalitis ^12,13

Also, hepatocellular carcinoma (HCC) has a predilection for invading the portal vein, with tumor thrombus occluding the lumen ².

Radiographic features

Acutely only the thrombus may be evident, with associated findings related to the ischemic bowel (especially if significant superior mesenteric venous (SMV) involvement is also present).

In chronic cases, cavernous transformation of the portal vein may be seen, with numerous periportal veins replacing the normal single channel of the portal vein.

Ultrasound

Acute thrombosis may be difficult to detect with grey-scale imaging alone, as the thrombus may be hypoechoic. With time, it becomes more echogenic and easier to identify ³. Color Doppler should be able to demonstrate absent flow in the portal vein and even to detect partial thrombosis, but attention to the Doppler gain and filters is necessary to avoid color overwrite of partial thrombosis.

The SMV, intrahepatic branches of the portal vein and hepatic veins should also be examined, to assess the extent of thrombosis (NB: 20% of patients with Budd-Chiari syndrome will also have portal vein thrombosis) ².

Color Doppler is also useful to help evaluate for tumor thrombus, which will show internal color vascularity. Bland thrombus, in comparison, is avascular on color Doppler.

CT

Non-contrast scans are usually incapable of demonstrating the thrombus, except in some acute cases where the thrombus is hyperattenuating ^2,4. In longstanding cases, low-density change in the liver may be evident, related to increased arterial supply, and representing fatty change.

The diagnosis can only reliably be made on portal venous phase contrast-enhanced studies.

Findings include:

complete or partial non-opacification of part of, or the whole, portal vein and its branches
enhancement of the walls of the portal vein thought to represent either dilated vasa vasorum or a thin peripheral lumen remaining patent

When performing a hepatic CT protocol, the occlusion of a branch of the portal vein by a thrombus can manifest as transient hepatic attenuation differences (THAD) in the arterial/early portal phase, showing increased enhancement (i.e. perfusion) of the lobe or segment previously supplied by the vein due to hepatic arterial compensatory flow.

Importantly, the thrombus itself should not enhance. If enhancement is present, then this strongly suggests that the thrombus is not bland but rather represents tumor thrombus, most frequently from HCC ².

Cavernous transformation appears as multiple small periportal vessels, which represent dilated collateral veins.

Associated findings of portal hypertension may, of course, be evident.

MRI

Although MRI is not as widely available and can be difficult in unwell patients, it is the most sensitive modality for demonstrating portal venous thrombosis ². 3D contrast-enhanced MRA is the most sensitive sequence. However, the differentiation between bland and tumor thrombus usually requires integrating multiple sequences and taking into account chronicity of the thrombosis. Appearances include:

T1
- acute thrombus will have high signal (see aging blood on MRI)
- beware slow or turbulent flow artefacts
T2
- acute thrombus may have high signal
- chronic thrombus may be low and appear as flow voids
- beware slow flow-related artefacts
- tumor thrombus is typically hyperintense
T1 + C (Gad)
- tumor thrombus enhancement may be detectable on postcontrast dynamic sequences
- transient hepatic intensity differences (THID) may be seen in the arterial/early portal phase if the thrombus occludes only a branch of the portal vein, as the hepatic artery takes on the affected lobe/segment's perfusion
MR angiography
- 3D contrast-enhanced MRA (98% sensitive and 99% specific) ²

PET-CT

¹⁸F-FDG PET-CT has demonstrated a promising ability to differentiate between bland thrombus and malignant (tumor thrombus) portal vein thrombosis ^5-11. The optimal imaging protocol appears to be with hybrid imaging part state-of-the-art CT including IV iodinated contrast media ¹⁰. Demonstrated features are:

bland thrombus: no or slight FDG-avidity
tumor thrombus: moderately to highly FDG-avid
suggested optimal cutoff value: max SUV 2.3-3.6 ^8,11
possible visualization of further sites of thrombosis

Treatment and prognosis

Ideally, the presence of thrombosis is identified early and thrombolysis/thrombectomy performed to re-establish flow. This may avoid a possible long-term complication of portal hypertension, although portal vein thrombus often develops in a pre-existing setting of portal hypertension. The principles of management include ^3,15:

systemic anticoagulation
management of portal hypertension (beta-blockers, diuretics, and TIPS)
obtain multidisciplinary consensus on further management on an individualized basis and for consideration of further interventional procedures or surgical thrombectomy

Even with treatment, half of affected patients go on to chronic occlusion ³. Surgical shunt formation may be useful for a patient with portal hypertension.

Differential diagnosis

The most important differential is to distinguish bland thrombus from tumor thrombus. Tumor thrombus is a contraindication to liver transplantation and is accorded a special LI-RADS status, LR-TIV (see: LI-RADS classification).

Porta hepatis masses (e.g. lymph nodes, cholangiocarcinomas) may compress the portal vein and may be confused for portal vein thrombus. They may, of course, co-exist with portal vein thrombosis.

Acute thrombosis, which is high attenuation on non-contrast CT, should be distinguished from other hyperattenuating masses in the region ⁴:

choledocholithiasis
hemobilia
calcification of tumor or chronic thrombus

Quiz questions

References

1. Janssen HL, Wijnhoud A, Haagsma EB et-al. Extrahepatic portal vein thrombosis: aetiology and determinants of survival. Gut. 2001;49 (5): 720-4. doi:10.1136/gut.49.5.720 - Free text at pubmed - Pubmed citation
2. Lee JK. Computed body tomography with MRI correlation. Lippincott Williams & Wilkins. (2006) ISBN:0781745268. Read it at Google Books - Find it at Amazon
3. Sheen CL, Lamparelli H, Milne A et-al. Clinical features, diagnosis and outcome of acute portal vein thrombosis. QJM. 2000;93 (8): 531-4. doi:10.1093/qjmed/93.8.531 - Pubmed citation
4. Mori H, Hayashi K, Uetani M et-al. High-attenuation recent thrombus of the portal vein: CT demonstration and clinical significance. Radiology. 1987;163 (2): 353-6. Radiology (abstract) - Pubmed citation
5. Parvey HR, Raval B, Sandler CM. Portal vein thrombosis: imaging findings. AJR Am J Roentgenol. 1994;162 (1): 77-81. AJR Am J Roentgenol (abstract) - Pubmed citation
6. Sun L, Guan YS, Pan WM et-al. Highly metabolic thrombus of the portal vein: 18F fluorodeoxyglucose positron emission tomography/computer tomography demonstration and clinical significance in hepatocellular carcinoma. World J. Gastroenterol. 2008;14 (8): 1212-7. Free text at pubmed - Pubmed citation
7. Sharma P, Kumar R, Singh H et-al. Imaging thrombus in cancer patients with FDG PET-CT. Jpn J Radiol. 2012;30 (2): 95-104. doi:10.1007/s11604-011-0016-9 - Pubmed citation
8. Lee EY, Khong PL. The value of 18F-FDG PET/contrast-enhanced CT in detection of tumor thrombus. Clin Nucl Med. 2013;38 (2): e60-5. doi:10.1097/RLU.0b013e318266d53e - Pubmed citation
9. Miceli M, Atoui R, Walker R et-al. Diagnosis of deep septic thrombophlebitis in cancer patients by fluorine-18 fluorodeoxyglucose positron emission tomography scanning: a preliminary report. J. Clin. Oncol. 2004;22 (10): 1949-56. doi:10.1200/JCO.2004.10.160 - Pubmed citation
10. Sopov V, Bernstine H, Stern D et-al. The metabolic spectrum of venous thrombotic disorders found on PET/CT. AJR Am J Roentgenol. 2009;193 (6): W530-9. doi:10.2214/AJR.09.2949 - Pubmed citation
11. Sharma P, Kumar R, Jeph S et-al. 18F-FDG PET-CT in the diagnosis of tumor thrombus: can it be differentiated from benign thrombus?. Nucl Med Commun. 2011;32 (9): 782-8. doi:10.1097/MNM.0b013e32834774c8 - Pubmed citation
12. Chawla YK, Bodh V. Portal vein thrombosis. (2015) Journal of clinical and experimental hepatology. 5 (1): 22-40. doi:10.1016/j.jceh.2014.12.008 - Pubmed
13. Wolfgang Dähnert. Radiology Review Manual. (2011) ISBN: 9781609139438
14. Reena C. Jha, Satinderpal Singh Khera, Amit Dinesh Kalaria. Portal Vein Thrombosis: Imaging the Spectrum of Disease With an Emphasis on MRI Features. (2018) American Journal of Roentgenology. 211 (1): 14-24. doi:10.2214/AJR.18.19548 - Pubmed
15. Hrishikesh Samant, Kwabena O. Asafo-Agyei, Karen Garfield. Portal Vein Thrombosis. StatPearls Publishing. 2021. https://www.ncbi.nlm.nih.gov/books/NBK534157/ - Pubmed
16. Dong G, Huang X, Zhu Y, Ding H, Li F, Chen S. Increased Portal Vein Diameter is Predictive of Portal Vein Thrombosis Development in Patients with Liver Cirrhosis. Ann Transl Med. 2021;9(4):289. doi:10.21037/atm-20-4912 - Pubmed
17. Pan J, Wang L, Gao F et al. Epidemiology of Portal Vein Thrombosis in Liver Cirrhosis: A Systematic Review and Meta-Analysis. Eur J Intern Med. 2022;104:21-32. doi:10.1016/j.ejim.2022.05.032 - Pubmed
18. Senzolo M, Garcia-Tsao G, García-Pagán J. Current Knowledge and Management of Portal Vein Thrombosis in Cirrhosis. J Hepatol. 2021;75(2):442-53. doi:10.1016/j.jhep.2021.04.029 - Pubmed

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