CSF Flow Study is an increasingly important tool that allows us to measure the velocity of cerebral spinal fluid as it flows from the cerebral ventricles (fluid reservoirs) inside the brain, down to the skull base via the cerebral aqueduct, and to the spinal canal via the fourth ventricle and foramen magnum”. Cerebral spinal fluid is continually produced within the center of the brain, (about 500 cc/day) and is continually reabsorbed at a number of locations along the surface of the brain. There are a number of events, and disease states that can significantly alter the velocity and behavior of CSF over time, these shifts are visible via the CSF waveform obtained through the MRI study. CSF is not a static fluid; it is continuously flowing back and forth between the head and the spine. The direction of flow is determined by the cardiac cycle. When the heart maximally contracts to pump blood out of its chambers and to the head and body (the systolic phase) the brain becomes engorged with blood, and as it temporarily swells up, ventricles filled with CSF are squeezed. This action pumps CSF downward towards the skull base and spine. Conversely, when the heart relaxes (the diastolic phase) blood fills the atria and the cerebral ventricles relax, which causes CSF flow to reverse its direction and the fluid flows upward from the upper spine and skull base, into the center of the brain again. Because of this cycling spinal fluid is pulsatile; its movement is determined by pulsation of the heart.
CSF Flow Study in MRI
CSF Flow Study is an increasingly important tool that allows us to measure the velocity of cerebral spinal fluid as it flows from the cerebral ventricles (fluid reservoirs) inside the brain, down to the skull base via the cerebral aqueduct, and to the spinal canal via the fourth ventricle and foramen magnum”. Cerebral spinal fluid is continually produced within the center of the brain, (about 500 cc/day) and is continually reabsorbed at a number of locations along the surface of the brain. There are a number of events, and disease states that can significantly alter the velocity and behavior of CSF over time, these shifts are visible via the CSF waveform obtained through the MRI study. CSF is not a static fluid; it is continuously flowing back and forth between the head and the spine. The direction of flow is determined by the cardiac cycle. When the heart maximally contracts to pump blood out of its chambers and to the head and body (the systolic phase) the brain becomes engorged with blood, and as it temporarily swells up, ventricles filled with CSF are squeezed. This action pumps CSF downward towards the skull base and spine. Conversely, when the heart relaxes (the diastolic phase) blood fills the atria and the cerebral ventricles relax, which causes CSF flow to reverse its direction and the fluid flows upward from the upper spine and skull base, into the center of the brain again. Because of this cycling spinal fluid is pulsatile; its movement is determined by pulsation of the heart.
Subscribe to:
Post Comments (Atom)
Popular Posts
-
--> Routine shoulder protocols are the most variable, but most include SHOULDER MRI SEQUENCES ...
-
Thoracic aorta anatomy is complex, variable and the blood flow can be fast or slow. As a result, no single protocol will be suitable for al...
-
High Resolution Brainstem Imaging CISS (Constructive Interference Steady State) CISS is a strongly T2 weighted GRE sequence. In essen...
-
IN THIS ARTICLE: MRI Brain Axial Planning/Reference Lines MRI Brain Coronal Planning/Reference Lines MRI Brain Sagital Planning/Re...
-
MRI of the Right Wrist Joint Clinical details: Pain in the wrist. Technique: Multiplanar multisequence study including T1, T2, ...
-
ABER Protocol for MRI Shoulder Align from coronal scout perpendicular to glenohumeral joint line (perpendicular to glenoid) Ideally th...
-
Normal MRI Anatomy The pectoralis tendon is best seen on axial T1 and T2-weighted images as a curvilinear low-signal band inserting o...
No comments:
Post a Comment