For a diagnosis of carpal tunnel syndrome, the majority of ultrasound energy at 3.0 MHz will be absorbed at what depth?

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Study for the National Physical Therapy Examination (NPTE) with flashcards and multiple choice questions. Each question is designed with hints and explanations to ensure comprehensive understanding. Get ready for your exam!

Multiple Choice

For a diagnosis of carpal tunnel syndrome, the majority of ultrasound energy at 3.0 MHz will be absorbed at what depth?

Explanation:
The concept of ultrasound energy absorption is crucial when considering modalities for diagnosing conditions such as carpal tunnel syndrome. Ultrasound waves at a frequency of 3.0 MHz predominantly have their energy absorbed in superficial tissues due to the physical properties of sound transmission. At 3.0 MHz, most of the ultrasound energy is effectively absorbed at depths of 1-2 centimeters. This is particularly relevant for diagnosing carpal tunnel syndrome, as the median nerve, which is often affected, lies relatively close to the surface of the wrist. Depths greater than 2 centimeters would typically result in decreased intensity of ultrasound energy, making it less effective for examining structures like the median nerve in this region. Understanding this absorption characteristic is essential for practitioners utilizing ultrasound for diagnostic purposes, as optimal imaging and assessment require the appropriate frequency and depth selection to provide the best visualization of the structures involved.

The concept of ultrasound energy absorption is crucial when considering modalities for diagnosing conditions such as carpal tunnel syndrome. Ultrasound waves at a frequency of 3.0 MHz predominantly have their energy absorbed in superficial tissues due to the physical properties of sound transmission.

At 3.0 MHz, most of the ultrasound energy is effectively absorbed at depths of 1-2 centimeters. This is particularly relevant for diagnosing carpal tunnel syndrome, as the median nerve, which is often affected, lies relatively close to the surface of the wrist. Depths greater than 2 centimeters would typically result in decreased intensity of ultrasound energy, making it less effective for examining structures like the median nerve in this region.

Understanding this absorption characteristic is essential for practitioners utilizing ultrasound for diagnostic purposes, as optimal imaging and assessment require the appropriate frequency and depth selection to provide the best visualization of the structures involved.

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