CT perfusion in ischemic stroke

Changed by Tim Luijkx, 26 Jan 2015

Updates to Article Attributes

Body was changed:

Show markup changes

CT perfusion in ischaemic stroke has become established in most centres with stroke services as an important adjunct, along with CT angiography, to conventional imaging of the brain with a non-contrast CT scan.

Its advantage is that it is able to delineate areas of the brain which may be salvaged by intervention (e.g. thrombolysis or clot retrieval), known as the penumbra, from the parts which are irrevocably destined to go onto infarct regardless of therapy, known as the infarct core.

Although MRI is more sensitive to the early parenchymal changes of infarction (see DWI in acute stroke) its clinical application has been limited by difficulties in accessing MRI in a timely fashion in many institutions; this is especially important in this clinical setting as rapid imaging and treatment are crucial to successful intervention.

Radiographic features

The key to interpreting CT perfusion in the setting of acute ischaemic stroke is understanding and identifying the infarct core and the ischaemic penumbra, as a patient with a small core and a large penumbra is most likely to benefit from reperfusion therapies.

The three parameters typically used in determining these two areas are:

mean transit time (MTT) or time to peak of the deconvolved tissue residue function (Tmax) ³
cerebral blood flow (CBF)
cerebral blood volume (CBV)

Normal perfusion parameters are:

gray matter:
- MTT ~~- 4s~~: 4 s
- CBF ~~- 60ml/100g~~: 60 ml/100 g/min
- CBV ~~- 4ml/100g~~: 4 ml/100 g
white matter:
- MTT ~~- 4.8s~~: 4.8 s
- CBF ~~- 25ml/100g~~: 25 ml/100 g/min
- CBV ~~- 2ml/100g~~: 2 ml/100 g

The infarct core is the part of the ischaemic brain which has already infarcted or is destined to infarct regardless of therapy. It is defined as an area with prolonged MTT or Tmax, markedly decreased CBF and markedly reduced CBV ^1-3.

The ischaemic penumbra, which in most cases surrounds the infarct core, also has prolonged MTT or Tmax but in contrast has only moderately reduced CBF and importantly near normal or even increased CBV (due to autoregulatory vasodilatation) ^1-3.

Pitfall

In patients with poor cardiac output, atrial fibrillation, severe proximal arterial stenosis or poor placement of arterial and venous regions of interest, the decreased blood flow can lead to inaccurate perfusion maps ~~specifically~~and specifically to overestimated MTT ~~(ie~~(i.e. erroneous diagnosis of extensive ischaemia or global hypoperfusion) and underestimated CBF.

Most CT perfusion protocols are centred upon the basal ganglia and supra-ganglionic level. This excludes a large volume of brain eg, e.g. the posterior fossa and superior cerebral hemispheres.

Small infarcts ~~(eg~~(e.g. lacunar infarcts) are poorly visualised on perfusion maps due to their low resolution.

In cases of seizures, the ictal region shows hyperperfusion, which may lead to interpretation of hypoperfusion in the contralateral hemisphere mimicking infarct.

-CT perfusion in ischaemic stroke has become established in most centres with stroke services as an important adjunct, along with CT angiography, to conventional imaging of the brain with a non-contrast CT scan. Its advantage is that it is able to delineate areas of the brain which may be salvaged by intervention (e.g. thrombolysis or clot retrieval), known as the <a href="/articles/penumbra">penumbra</a>, from the parts which are irrevocably destined to go onto infarct regardless of therapy, known as the <a href="/articles/infarct-core">infarct core</a>. Although MRI is more sensitive to the early parenchymal changes of infarction (see <a href="/articles/diffusion-weighted-mri-in-acute-stroke-1">DWI in acute stroke</a>) its clinical application has been limited by difficulties in accessing MRI in a timely fashion in many institutions; this is especially important in this clinical setting as rapid imaging and treatment are crucial to successful intervention. <h4>Radiographic features</h4>The key to interpreting CT perfusion in the setting of acute ischaemic stroke is understanding and identifying the infarct core and the ischaemic penumbra, as a patient with a small core and a large penumbra is most likely to benefit from reperfusion therapies. The three parameters typically used in determining these two areas are:<ol>
+CT perfusion in ischaemic stroke has become established in most centres with stroke services as an important adjunct, along with CT angiography, to conventional imaging of the brain with a non-contrast CT scan. Its advantage is that it is able to delineate areas of the brain which may be salvaged by intervention (e.g. thrombolysis or clot retrieval), known as the <a href="/articles/penumbra">penumbra</a>, from the parts which are irrevocably destined to go onto infarct regardless of therapy, known as the <a href="/articles/infarct-core">infarct core</a>. Although MRI is more sensitive to the early parenchymal changes of infarction (see <a href="/articles/diffusion-weighted-mri-in-acute-stroke-1">DWI in acute stroke</a>) its clinical application has been limited by difficulties in accessing MRI in a timely fashion in many institutions; this is especially important in this clinical setting as rapid imaging and treatment are crucial to successful intervention. <h4>Radiographic features</h4>The key to interpreting CT perfusion in the setting of acute ischaemic stroke is understanding and identifying the infarct core and the ischaemic penumbra, as a patient with a small core and a large penumbra is most likely to benefit from reperfusion therapies. The three parameters typically used in determining these two areas are:<ol>
~~-</ol>Normal perfusion parameters are:<ul>~~
~~-<li>gray matter<ul>~~
~~-<li>MTT - 4s</li>~~
~~-<li>CBF - 60ml/100g/min</li>~~
~~-<li>CBV - 4ml/100g</li>~~
+</ol>Normal perfusion parameters are:<ul>
+<li>gray matter:<ul>
+<li>MTT: 4 s</li>
+<li>CBF: 60 ml/100 g/min</li>
+<li>CBV: 4 ml/100 g</li>
~~-<li>white matter<ul>~~
~~-<li>MTT - 4.8s</li>~~
~~-<li>CBF - 25ml/100g/min</li>~~
~~-<li>CBV - 2ml/100g</li>~~
+<li>white matter:<ul>
+<li>MTT: 4.8 s</li>
+<li>CBF: 25 ml/100 g/min</li>
+<li>CBV: 2 ml/100 g</li>
-</ul>The <a href="/articles/infarct-core">infarct core</a> is the part of the ischaemic brain which has already or is destined to infarct regardless of therapy. It is defined as an area with prolonged MTT or Tmax, markedly decreased CBF and markedly reduced CBV 1-3. The <a href="/articles/ischaemic-penumbra">ischaemic penumbra</a>, which in most cases surrounds the infarct core, also has prolonged MTT or Tmax but in contrast has only moderately reduced CBF and importantly near normal or even increased CBV (due to autoregulatory vasodilatation) 1-3. <h4>Pitfall</h4>In patients with poor cardiac output, atrial fibrillation, severe proximal arterial stenosis or poor placement of arterial and venous regions of interest, the decreased blood flow can lead to inaccurate perfusion maps specifically overestimated MTT (ie erroneous diagnosis of extensive ischaemia or global hypoperfusion) and underestimated CBF.Most CT perfusion protocols are centred upon the basal ganglia and supra-ganglionic level. This excludes a large volume of brain eg the posterior fossa and superior cerebral hemispheres.Small infarcts (eg lacunar infarcts) are poorly visualised on perfusion maps due to their low resolution.In cases of seizures, the ictal region shows hyperperfusion, which may lead to interpretation of hypoperfusion in the contralateral hemisphere mimicking infarct.
+</ul>The <a href="/articles/infarct-core">infarct core</a> is the part of the ischaemic brain which has already infarcted or is destined to infarct regardless of therapy. It is defined as an area with prolonged MTT or Tmax, markedly decreased CBF and markedly reduced CBV 1-3. The <a href="/articles/ischaemic-penumbra">ischaemic penumbra</a>, which in most cases surrounds the infarct core, also has prolonged MTT or Tmax but in contrast has only moderately reduced CBF and importantly near normal or even increased CBV (due to autoregulatory vasodilatation) 1-3. <h4>Pitfall</h4>In patients with poor cardiac output, atrial fibrillation, severe proximal arterial stenosis or poor placement of arterial and venous regions of interest, the decreased blood flow can lead to inaccurate perfusion maps and specifically to overestimated MTT (i.e. erroneous diagnosis of extensive ischaemia or global hypoperfusion) and underestimated CBF.Most CT perfusion protocols are centred upon the basal ganglia and supra-ganglionic level. This excludes a large volume of brain, e.g. the posterior fossa and superior cerebral hemispheres.Small infarcts (e.g. lacunar infarcts) are poorly visualised on perfusion maps due to their low resolution.In cases of seizures, the ictal region shows hyperperfusion, which may lead to interpretation of hypoperfusion in the contralateral hemisphere mimicking infarct.

ADVERTISEMENT: Supporters see fewer/no ads

{"current_user":null,"inclusions":[{"imageId":53543681,"studyId":96522,"caseSlug":"cerebral-perfusion-parameters","caption":"Figure 1","thumbnail":"https://prod-images-static.radiopaedia.org/images/53543681/blob_big_gallery.jpeg","isStack":false,"diagnosticCertainty":null},{"imageId":51397389,"studyId":80395,"caseSlug":"brain-perfusion-time-attenuation-curves-1","caption":"Figure 2","thumbnail":"https://prod-images-static.radiopaedia.org/images/51397389/b3ba498548c67b7e963d6e1816841e_big_gallery.jpeg","isStack":false,"diagnosticCertainty":"not_applicable"},{"imageId":51794180,"studyId":83156,"caseSlug":"ischaemic-penumbra-and-core-infarct-in-ct-perfusion","caption":"Figure 3: ischemic penumbra","thumbnail":"https://prod-images-static.radiopaedia.org/images/51794180/cbe228b619d452f2c1ab32abc34f67_big_gallery.jpeg","isStack":false,"diagnosticCertainty":"not_applicable"},{"imageId":51794181,"studyId":83156,"caseSlug":"ischaemic-penumbra-and-core-infarct-in-ct-perfusion","caption":"Figure 4: core infarct","thumbnail":"https://prod-images-static.radiopaedia.org/images/51794181/8617ec9daac3ce872fd6b1b86e38f7_big_gallery.jpeg","isStack":false,"diagnosticCertainty":"not_applicable"},{"imageId":6596754,"studyId":28961,"caseSlug":"mca-infarct-ct-perfusion","caption":"Case 1","thumbnail":"https://prod-images-static.radiopaedia.org/images/6596754/5784d9bc9940796287366a82646e4a_big_gallery.jpg","isStack":false,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":7193932,"studyId":29638,"caseSlug":"right-middle-cerebral-artery-territory-infarct-from-right-internal-carotid-artery-dissection","caption":"Case 2","thumbnail":"https://prod-images-static.radiopaedia.org/images/7193932/02a7434e95bea0f8708bdac53ee8f6_big_gallery.jpg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":7675718,"studyId":30742,"caseSlug":"mca-infarct-m1-occlusion","caption":"Case 3","thumbnail":"https://prod-images-static.radiopaedia.org/images/7675718/1d8c75c17fc4c50ea7292dbef7c79a_big_gallery.jpg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":9898636,"studyId":33983,"caseSlug":"ct-perfusion-occipital-core-infarct-1","caption":"Case 4: posterior circulation","thumbnail":"https://prod-images-static.radiopaedia.org/images/9898636/ebdacc50921c6e8fd8ef13c4ea9820_big_gallery.jpg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":51693687,"studyId":82343,"caseSlug":"acute-m1-occlusion-with-ischaemic-penumbra-ct-perfusion","caption":"Case 5: acute M1 occlusion with penumbra ","thumbnail":"https://prod-images-static.radiopaedia.org/images/51693687/3f94baf5032e93def66007fcab1ada_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":10078442,"studyId":34184,"caseSlug":"ct-perfusion-hemipontine-infarct","caption":"Case 6: hemipontine","thumbnail":"https://prod-images-static.radiopaedia.org/images/10078442/3f0a8ff243d5020bd663cfe1bf5f88_big_gallery.JPG","isStack":false,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":10078539,"studyId":34187,"caseSlug":"ct-perfusion-lacunar-infarct","caption":"Case 7: lacunar","thumbnail":"https://prod-images-static.radiopaedia.org/images/10078539/9db3127506da48e070ea9d87cda9eb_big_gallery.JPG","isStack":false,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":12367446,"studyId":38076,"caseSlug":"left-middle-cerebral-artery-branch-embolus-causing-stroke","caption":"Case 8: prolonged Tmax","thumbnail":"https://prod-images-static.radiopaedia.org/images/12367446/74b042b59e90edd9fe88af5efb6afd_big_gallery.jpg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":21353603,"studyId":47912,"caseSlug":"mca-infarct-with-ct-perfusion-and-clot-retrieval","caption":"Case 9: large penumbra with clot retrieval","thumbnail":"https://prod-images-static.radiopaedia.org/images/21353603/1146a1f496bfc8ff7da22e1e4ed358_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":51709832,"studyId":82528,"caseSlug":"acute-a3-occlusion-with-aca-ischaemic-penumbra-ct-perfusion","caption":"Case 10: ACA penumbra ","thumbnail":"https://prod-images-static.radiopaedia.org/images/51709832/064a85744712dbdf1dfe83242b9677_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":51710516,"studyId":82531,"caseSlug":"acute-ica-ischaemic-penumbra-due-to-high-grade-cca-stenosis-ct-perfusion","caption":"Case 11: acute ICA ischemic penumbra due to high-grade CCA stenosis (CT perfusion) ","thumbnail":"https://prod-images-static.radiopaedia.org/images/51710516/46bec11fec3a727142cbd1605b5b64_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":51716340,"studyId":82588,"caseSlug":"acute-p1-occlusion-with-pca-ischaemia-penumbra-ct-perfusion","caption":"Case 12: acute P1 occlusion with PCA ischemia penumbra ","thumbnail":"https://prod-images-static.radiopaedia.org/images/51716340/f6a2553c57de5add805cc35db8b652_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_substantiated"}],"ddx_inclusions":[{"imageId":34532480,"studyId":64069,"caseSlug":"post-ictal-todd-paralysis","caption":"Post-ictal Todd paralysis","thumbnail":"https://prod-images-static.radiopaedia.org/images/34532480/80e95ad841b0f98a6bcede70923674_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"probable"},{"imageId":10071607,"studyId":34145,"caseSlug":"ct-perfusion-poor-cardiac-output","caption":"Poor cardiac output ","thumbnail":"https://prod-images-static.radiopaedia.org/images/10071607/e1ae2a9a9b4eec24a6bc26d40d578a_big_gallery.JPG","isStack":false,"diagnosticCertainty":"confirmed_substantiated"},{"imageId":58887442,"studyId":122858,"caseSlug":"traumatic-subarachnoid-haemorrhage-complicated-by-cerebral-vasospasm","caption":"Cerebral vasospasm","thumbnail":"https://prod-images-static.radiopaedia.org/images/58887442/23d81481928625dd0613f2b68bed30537099fbffd6700e3dccd39253c5c402f2_big_gallery.jpeg","isStack":true,"diagnosticCertainty":"confirmed_unsubstantiated"}],"lang":"us"}

Updating… Please wait.

Unable to process the form. Check for errors and try again.

Thank you for updating your details.

CT perfusion in ischemic stroke

Updates to Article Attributes

Radiographic features

Pitfall

Articles

By Section:

By System:

Cases

Radiopaedia.org