wernicke"s area造句1. Patients with strokes or other damage to Wernicke's area are able to talk freely, but they cannot comprehend language, and nothing they say makes any sense.
2. From Wernicke's area, information travels to Broca's area, then to the Primary Motor Cortex.
3. The other is Wernicke's area farther back in the brain. That area is named after the 19th century German neurologist Carl Wernicke.
4. The second was attached to the Wernicke's area, an area just above the left ear that acts as a sort of language translator for the brain.
5. Conclusion The disconnection between Broca's area and Wernicke's area is one of mechanisms in conduction aphasia.
6. One is Broca's area at the front. The other is Wernicke's area further back in the brain.
7. The belief is that Broca's area is responsible for speaking and that Wernicke's area is responsible forcomphrehendingcomprehending.
8. The belief is that Broca's area responsible for speaking and that Wernicke's area responsible for comprehending.
8.try its best to collect and build good sentences.
9. One is Broca's area at the front. The other is Wernicke's area farther back in the brain. That area is named after the 19th century German neurologist Carl Wernicke.
10. For example, when we speak, words are drawn from Wernicke's area and transferred to Broca's area, which determines the details of their form and pronunciation.
11. The belief is that Broca's area is responsible for speaking and that Wernicke's area is responsible for comprehending.
12. In what have come to be known as Broca's area, Wernicke's area and angular gyrus, all located in the left hemisphere of the brain.
13. Microelectrode grids sat on two parts of the volunteer's brain crucial for speech: the Face-Motor Cortex and Wernicke's area.
14. Combining data from both areas didn't improve accuracy, showing that brain signals from Wernicke's area don't add much to those from the facial motor cortex.
15. One unexpected finding: When the patient repeated words, the facial motor cortex was most active and Wernicke's area was less active.
16. The idea is that speech is produced in some parts of the brain, including a region known as Broca's area, and understood in others, including a region known as Wernicke's area.
17. They were less accurate – 76 per cent – when using signals from Wernicke's area.