While scanning a curved structure, you notice shadowing at the lateral edges. What is required for this artifact to occur?

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Prepare for the Davies SPI Test with engaging flashcards and multiple choice questions. Each question offers hints and explanations to enhance your learning. Achieve success with our comprehensive study tools!

Multiple Choice

While scanning a curved structure, you notice shadowing at the lateral edges. What is required for this artifact to occur?

Shadowing at the lateral edges of a curved structure comes from refraction of the ultrasound waves as they cross a boundary between tissues with different speeds of sound. The curve causes the rays to bend differently at the edges, so some rays are redirected away from the transducer’s path and don’t return data there, creating a dark shadow along the sides. If the two media had the same propagation speed, there would be no refraction and no edge shadowing. Perpendicular incidence would minimize bending, and simply having a higher transmit frequency or a fluid-filled path isn’t what drives this edge shadowing—the crucial factor is the speed contrast across a curved interface.

While scanning a curved structure, you notice shadowing at the lateral edges. What is required for this artifact to occur?

Prepare for the Davies SPI Test with engaging flashcards and multiple choice questions. Each question offers hints and explanations to enhance your learning. Achieve success with our comprehensive study tools!

While scanning a curved structure, you notice shadowing at the lateral edges. What is required for this artifact to occur?

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