Brain scans Computerised tomography (CT scan) and magnetic resonance imaging (MRI) take pictures of your brain that show areas of damage and swelling. Either a CT scan or MRI should be done urgently within the first 24 hours after a stroke. This is to work out the type of stroke (ischaemic or haemorrhagic).
A brain CT scan can show if there is bleeding in the brain or damage to the brain cells from a stroke. Magnetic resonance imaging (MRI) uses magnets and radio waves to create pictures of your brain. An MRI may be used instead of—or in addition to—a CT scan to diagnose a stroke.
Computerized tomography (CT) scan – CT scans use a series of X-rays to create a detailed image of your brain. A CT scan can show a hemorrhage, tumor, stroke and other conditions. There are different types of CT scans that your doctor may use depending on your situation.
You should have a brain scan soon after symptoms start, within an hour of arriving at hospital if possible. The scan can show whether the stroke is due to a clot or a bleed. There are two main types of scan used: A computed tomography or CT scan.
Any irregularities or causes for concern show up in a CT scan approximately six to eight hours after the onset of the first signs of a stroke. During a CT scan, the patient may be intravenously injected with dyes, which will highlight any abnormal areas in the scan, giving doctors a clearer view of the head.
Most stroke patients are unaware of the warning signs of stroke and present late because they misjudge the seriousness of their symptoms. Even when patients know that they are having a stroke, most do not seek immediate medical attention.
Imaging Scans Used to Diagnose Stroke
About 80% are ischemic strokes. The rest are hemorrhagic stroke, caused by bleeding in the brain. Currently, there is no blood test for detecting stroke, although several groups are developing them.
When the clot moves away, the stroke symptoms stop. You might feel like you're fine afterwards, but it's vital to get medical help right away.
Silent Doesn't Mean Harmless
The damage caused to the brain can result in significant cognitive decline or even death. It may also lead to vascular dementia. The damage that happens is permanent, but through therapy and healthy habits, stroke survivors may be able to reduce the effects and prevent future strokes.
The only way to tell the difference between a ministroke and a stroke is by having a doctor look at an image of your brain with either a CT scan or an MRI scan. If you've had an ischemic stroke, it's likely that it won't show up on a CT scan of your brain for 24 to 48 hours. An MRI scan usually shows a stroke sooner.
Unfortunately, most people don't actually find out they've suffered from a silent stroke until they see a doctor for another condition and are ordered to have an MRI or a CT scan. At that point, their doctor may notice small areas of damage in the brain indicating a silent stroke.
MRI was especially effective in identifying patients with acute ischemic stroke, who can benefit from swift treatment with clot-busting interventions. Emergency clinicians have long relied on brain imaging to help distinguish between ischemic and hemorrhagic strokes, which require very different treatments.
You will likely have a head CT scan or brain MRI. A stroke may show changes on these tests, but TIAs will not. You may have an angiogram, CT angiogram, or MR angiogram to see which blood vessel is blocked or bleeding. You may have an echocardiogram if your doctor thinks you may have a blood clot from the heart.
In fact, ischemic strokes unfold over a period of 10 hours. That means that with every second you wait for treatment, the brain damage gets worse. If a stroke is untreated for the full 10 hours, the brain ages up to 36 years! With every minute you wait, the brain loses two million brain cells.
How Does a Stroke Impact Life Expectancy? Despite the likelihood of making a full recovery, life expectancy after stroke incidents can decrease. Unfortunately, researchers have observed a wide range of life expectancy changes in stroke patients, but the average reduction in lifespan is nine and a half years.
Research shows that the brain possesses an extraordinary ability to heal itself after stroke. This ability, known as neuroplasticity, is why many stroke survivors go on to make astonishing recoveries. However, this healing process cannot happen on its own.
One of the most common stroke mimics is a seizure, which researchers believe account for as many as 20% of all stroke mimics. Other common stroke mimics include migraines, syncope, sepsis, brain tumor and metabolic derangement (low sodium or low blood sugar).
In addition to the classic stroke symptoms associated with the FAST acronym, around 7-65% of people undergoing a stroke will experience some form of a headache. People describe a stroke-related headache as a very severe headache that comes on within seconds or minutes.
Patients with minor, non-disabling symptoms, or patients outside of the four-and-a-half hour window will generally be admitted for further testing, including a lipid panel and potentially an MRI of the brain. They'll also be prescribed aspirin and clopidogrel, an antiplatelet drug to try and prevent any further stroke.
MRI uses magnetic fields to detect subtle changes in the content of brain tissue. One effect of stroke is the slowing of water movement, called diffusion, through the damaged brain tissue, and MRI can show this type of damage within the first hour after the stroke symptoms start.
Magnetic resonance imaging (MRI).
An MRI can detect brain tissue damaged by an ischemic stroke and brain hemorrhages. Your doctor may inject a dye into a blood vessel to view the arteries and veins and highlight blood flow (magnetic resonance angiography or magnetic resonance venography).