Splenic infarction
Updates to Article Attributes
Splenic infarction is a result of ischaemia to the spleen, and in many cases requires no treatment. However, identification of the cause of infarction is essential.
Epidemiology
Splenic infarcts can occur due to a number processes, involving either arterial supply, the spleen itself and the venous drainage. As such there is no one affected demographic; rather the demographics will represent the underlying cause.
Clinical presentation
Patients with a splenic infarction may present with left upper quadrant pain. Some may have constitutional symptoms such as fevers and chills while others may even have diffuse abdominal pain 5,9. Due to the location of the spleen, tucked under the left hemidiaphragm, referred pain to the left shoulder is also a feature 9.
It should be noted that ~40% (range 30-50%) of patients with splenic infarction are asymptomatic 9.
Pathology
Aetiology
The majority of patients with splenic infarcts have one of the following two aetiologies:
- haematologic disorders
- more common in younger patients
- e.g. sickle cell disease
- embolic events
- more common in older patients
- e.g. infective endocarditis 11,marantic endocarditis
Other aetiological factors include 1-2:
- splenic vascular disease
- splenic arterial aneurysms 7
- variant anatomy, e.g. wandering spleen, which may undergo splenic torsion
- collagen vascular disease
- pancreatic disease: pancreatitis 8
- non-haematologic malignancies
- blunt trauma: a segmental splenic infarct can occur as a rare complication 4
- splenic artery compression, e.g. by pancreatic tumour
- splenic embolisation
Radiographic features
The appearance of splenic infarction depends on the timing of imaging and the size of the infarct. Although once established both ultrasound and CT are sensitive to the diagnosis, in the hyperacute setting CT with contrast is the modality of choice if the diagnosis is suspected 9.
Morphologically the typical infarct is of a pyramidal wedge of affected splenic tissue with the apex pointing towards the hilum, and the base on the splenic capsule.
As the infarct matures, the wedge of infarcted tissue can undergo one or three processes which will dictate imaging features:
- resolution: no imaging findings
- contraction/scarring
- liquefaction
Ultrasound
Typically infarcts are hypoechoic compared to the rest of the spleen, although acutely they can be isoechoic and hard to identify. Sonographic features of acute splenic infarcts regarding shape can vary and include 5,9:
- wedge-shaped (classic)
- round
- irregularly
- smooth (uncommon)
During contrast enhanced ultrasound, the infarcted area remains hypo-intense throughout all phases of the study 10.
As the infarct matures, if it undergoes contraction and scarring it will appear as a hyperechoic region with retraction of the capsule 9. If liquefaction occurs, the area may be rounded and anechoic (splenic pseudocyst).
CT
CT is often considered the imaging investigation of choice, ideally performed during the portal venous phase, to avoid confusing heterogeneous enhancement normally seen during arterial phase 2,7,9. Imaging features may vary with the stage of the infarct.
In the hyperacute phase, CT may show areas of mottled increased attenuation, representing areas of a haemorrhagic infarction.
There are various classical and non-classical patterns of established splenic infarcts on CT, which include 3,9:
- peripheral, wedge-shaped hypo-enhancing region: typical
- multiple, heterogeneous areas of patchy enhancement
- global splenic infarction, entire spleen is hypo-enhancing, e.g. in splenic torsion
- infarction of a splenunculus 9
In the chronic phase, infarcts may disappear completely, but more commonly, they may reveal progressive volume loss caused by fibrotic contraction of the infarct, with hypertrophy of the surrounding normal spleen 7,9. Alternatively, if the infarct liquefies, a cystic lesion may be left with fluid density centrally 9.
Treatment and prognosis
Initial management usually consists of hydration, analgesics, and frequent monitoring, with the resolution of symptoms in 7-to-14 days. Splenectomy was performed for persistent symptoms or complications.
Complications
Some complications are encountered, more frequently in patients with an embolic aetiology. These include:
- formation of a splenic pseudocyst(s)
- infected splenic infarction leading to the formation of a splenic abscess
- splenic haemorrhage
- splenic rupture
Differential diagnosis
Often, when imaging appearances are typical, there is little differential diagnosis. When less typical, or when imaging is sub-optimal, alternative diagnoses should be entertained, including 9:
- normal heterogeneous enhancement: seen during arterial phase CT
-
lymphoma
- usually rounded rather than wedge-shaped
- usually associated with splenomegaly and lymph node enlargement
-
splenic abscess
- either primary or superimposed infection on a liquefied infarct
-
splenic laceration
- history of trauma
- surrounding haematoma
- n.b. splenic rupture can complicate infarction
See also
-<li>e.g. <a href="/articles/infective-endocarditis">infective endocarditis</a> <sup>11</sup>,<a href="/articles/nonbacterial-thrombotic-endocarditis">marantic endocarditis</a>- +<li>e.g. <a href="/articles/infective-endocarditis">infective endocarditis</a> <sup>11</sup>, <a href="/articles/nonbacterial-thrombotic-endocarditis">marantic endocarditis</a>
References changed:
- 12. Thabah MM, Kumar M, Ramesh A et-al. A case of vivax malaria with splenic infarction. J Vector Borne Dis. 2013;50 (1): 74-6. <a href="http://www.ncbi.nlm.nih.gov/pubmed/23703446">Pubmed citation</a><span class="auto"></span>
- 12. A case of vivax malaria with splenic infarction. Molly Mary Thabah & others. J Vector Borne Dis 50, March 2013, pp. 74–76