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What is scattered punctate hyperintensities?
Scattered punctate hyperintensities are small areas of increased signal intensity seen on MRI scans. They are often non-specific findings and can be caused by various conditions such as chronic small vessel ischemic disease, demyelination, or small areas of brain injury. Additional clinical information and correlation with other imaging findings are usually needed to determine the significance of these hyperintensities.
What is Punctate foci of the cerebral hemispheres?
Punctate foci of the cerebral hemispheres are small areas of abnormal signal intensity seen on MRI images. They are typically found incidentally and can be caused by a variety of factors such as small vessel disease, migraines, or prior head trauma. Follow-up imaging or clinical evaluation may be needed to determine the significance of these findings.
What happened when increase the fader level?
Increasing the fader level will increase the amplitude (volume) of the audio signal coming from that channel. This will lead to a louder sound output from the corresponding speaker or output device. If increased too much, it could lead to clipping or distortion of the audio signal.
What stimulates fat breakdown?
Fat breakdown is stimulated by a calorie deficit, increased physical activity, and hormones like adrenaline and glucagon. These factors signal the body to release stored fat for energy production.
What is T2 bright signal changes in the brain?
T2 bright signal changes in the brain typically indicate the presence of increased water content in the affected area, which can be due to various conditions such as inflammation, infection, edema, or demyelination. These changes are commonly seen on magnetic resonance imaging (MRI) scans and can help in diagnosing different neurological disorders.
What is scattered punctate hyperintensities?
Scattered punctate hyperintensities are small areas of increased signal intensity seen on MRI scans. They are often non-specific findings and can be caused by various conditions such as chronic small vessel ischemic disease, demyelination, or small areas of brain injury. Additional clinical information and correlation with other imaging findings are usually needed to determine the significance of these hyperintensities.
Where is the auditory cortex?
The primary auditory cortex, i.e. where the auditory signal first reach the cortex, is located on the Heshl's gyrus, on the supratemporal plane (the upper part of the temporal lobe). The auditory information then spreads to secondary auditory cortices located around primary the primary auditory cortex. Then the auditory signal diffuses to associative areas located in the parietal and frontal lobes.
What is Punctate foci of the cerebral hemispheres?
Punctate foci of the cerebral hemispheres are small areas of abnormal signal intensity seen on MRI images. They are typically found incidentally and can be caused by a variety of factors such as small vessel disease, migraines, or prior head trauma. Follow-up imaging or clinical evaluation may be needed to determine the significance of these findings.
Can you split a component video signal?
Yes. But you will lose signal quality (decreased brightness and increased interference) without an amplifier.
What is the effect on analog signal by increasing its gain?
There is no effect on frequency but the amplitude is increased
What is increased signal intensity in a acl ligament?
Increased signal intensity in an ACL (anterior cruciate ligament) on an MRI image typically indicates injury or pathology, such as a tear or inflammation. This abnormal signal intensity may suggest ligamentous disruption or degeneration, and further evaluation is usually necessary to determine the extent and significance of the findings.
What is a transistor that is normally on with no applied signal?
The PNP transistors conducts when there is no signal at base (0V or grounded), when base current is increased the conduction of PNP transistor decreases.
Which event signals the brain to breathe?
Increased blood levels of carbon dioxide signal the brain to breathe.
What causes apraxia?
Apraxia is caused by brain damage related to conditions such as head injury, stroke, brain tumor, and Alzheimer's disease. The damage affects the brain's ability to correctly signal instructions to the body.
How you increase amplitude of wave?
The amplitude of a wave can be increased by changing the energy or force producing the wave. This can be done by increasing the magnitude of the source creating the wave, such as by increasing the power of a sound source or increasing the voltage of an electrical signal. Additionally, the amplitude of a wave can also be increased by using a device that amplifies the signal, such as an amplifier for an electrical signal or a horn for a sound wave.
What are the major power challenges of 4G MANET?
The forth generation of wireless technology offers increased bandwidth, mobility and the signal's range. Increasing the signal power, a device requires more electrical power that will be consumed during signal transmission.
Can a Wireless G device benefit from a Wireless N router's increased range?
It will not benefit from its increased throughput capability but it will benefit from the signal enhancement as it is the transmittor so lnog as the receiver is in range.
