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Get access to free live lectures, every week, from top radiologists.
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Dr. Resnick's MSK Conference
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Supplement your training program with case-based learning for residents, registrars, fellows, and more.
For Private Practices
Upskill in high growth, advanced imaging areas.
Emergency Call Prep
Prepare trainees to be on call for the emergency department with this specialized training series.
2 topics, 7 min.
8 topics, 32 min.
16 topics, 1 hr. 11 min.
Cerebellar Hematoma with Tonsillar Hernia
3 m.Intraventricular Hemorrhage
5 m.Parenchymal and Subdural Hematoma
5 m.Retroclival Subdural Hematoma
3 m.Acute on Chronic Subdural Hematoma
3 m.Midline Shift
4 m.Recurrent Subdural Hematoma
4 m.Subarachnoid Hemorrhage
5 m.Follow-up Imaging of Brain Trauma
6 m.Venous Epidural Hematoma
3 m.Venous Sinus vs. Arterial Epidural Hematomas
7 m.Evolution of Epidural and Subdural Hematomas
4 m.Diffuse Axonal Injury
9 m.Lucid Interval in Epidural Hematomas
3 m.Brainstem Hemorrhage
8 m.Pediatric Skull Fractures
7 m.6 topics, 28 min.
4 topics, 18 min.
14 topics, 1 hr. 6 min.
Secondary Traumatic Injuries
2 m.Traumatic Intracranial Dissection
5 m.Vertebral Artery Dissection, Pseudoaneurysm
6 m.Arteriographic Evaluation of Dissection
4 m.Traumatic Dissection of the MCA
4 m.Overview of Brain Herniation Types
5 m.Mechanisms of Brain Herniations
9 m.Herniation resulting in Infarction
9 m.Acute Hemorrhage on MRI
6 m.Subacute Hematoma on MRI
7 m.Chronic Hematoma on MRI
8 m.Hyperacute Hematoma on MRI
2 m.CT of Blood
3 m.Brain Trauma Summary
3 m.0:01
It is a common fallacy to think that the density of a
0:05
hematoma on CT is due to the iron content
0:09
within the blood products. In point of fact,
0:12
the density on CT is dependent on the hemoglobin protein
0:17
concentration rather than iron, and because of that,
0:22
the density of a hematoma on CT will vary depending upon
0:26
hemoglobin concentration or the patient's hematocrit.
0:29
With a hematocrit of 45,
0:32
a typical hematoma will have a Hounsfield unit of
0:35
approximately 56.
0:37
This is to be contrasted, for example,
0:41
with the normal Hounsfield units of gray matter of between
0:44
35 and 40 Hounsfield units, and white matter,
0:48
which is less dense than gray matter
0:50
at 30 to 35 Hounsfield units.
0:52
However,
0:53
you'll note that if one is anemic at a
0:56
hematocrit of between 24 and 30,
0:59
the Hounsfield units associated with that hematoma of an
1:03
anemic patient will simulate that of gray matter
1:08
or white matter, and therefore become isodense.
1:11
This is most frequently seen with isodense subdural
1:16
hematomas, which have low hematocrit concentration.
1:21
Over the course of time,
1:23
the density of a hematoma decreases as the body
1:28
removes the blood products from the hematoma,
1:32
whether it's in the intracranial intraparenchymal
1:35
compartment or in the extra-axial compartment.
1:39
And that density decrease in the parenchyma
1:42
is usually by 1.5 Hounsfield units per day.
1:46
So, as you can see,
1:47
it would take probably around ten days
1:51
for the hematoma of a hematocrit of 45 to get to the
1:57
similar density as that of, for example, white matter.
Interactive Transcript
0:01
It is a common fallacy to think that the density of a
0:05
hematoma on CT is due to the iron content
0:09
within the blood products. In point of fact,
0:12
the density on CT is dependent on the hemoglobin protein
0:17
concentration rather than iron, and because of that,
0:22
the density of a hematoma on CT will vary depending upon
0:26
hemoglobin concentration or the patient's hematocrit.
0:29
With a hematocrit of 45,
0:32
a typical hematoma will have a Hounsfield unit of
0:35
approximately 56.
0:37
This is to be contrasted, for example,
0:41
with the normal Hounsfield units of gray matter of between
0:44
35 and 40 Hounsfield units, and white matter,
0:48
which is less dense than gray matter
0:50
at 30 to 35 Hounsfield units.
0:52
However,
0:53
you'll note that if one is anemic at a
0:56
hematocrit of between 24 and 30,
0:59
the Hounsfield units associated with that hematoma of an
1:03
anemic patient will simulate that of gray matter
1:08
or white matter, and therefore become isodense.
1:11
This is most frequently seen with isodense subdural
1:16
hematomas, which have low hematocrit concentration.
1:21
Over the course of time,
1:23
the density of a hematoma decreases as the body
1:28
removes the blood products from the hematoma,
1:32
whether it's in the intracranial intraparenchymal
1:35
compartment or in the extra-axial compartment.
1:39
And that density decrease in the parenchyma
1:42
is usually by 1.5 Hounsfield units per day.
1:46
So, as you can see,
1:47
it would take probably around ten days
1:51
for the hematoma of a hematocrit of 45 to get to the
1:57
similar density as that of, for example, white matter.
Report
Description
Faculty
David M Yousem, MD, MBA
Professor of Radiology, Vice Chairman and Associate Dean
Johns Hopkins University
Tags
Vascular
Trauma
Physics and Basic Science
Neuroradiology
Metabolic
Hematologic
Emergency
CT
Brain
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