Utricle in vestible and saccule in vestibule.
otoliths and vestibular nerve
crista
Vestibule
The maculae, or macula is an area in the retina of the eye that is responsible for central vision. There are two main types of maculae: the fovea centralis, which is located at the center of the macula, and the parafovea, which surrounds the fovea. These structures are crucial for detailed vision and color perception.
Maculae ceruleae is bluish or blue-grey skin eruptions often seen on the trunk or thighs of patients with pubic lice. The Latin words mean blue spots.
The maculae in the utricle and saccule sense linear acceleration and head position relative to gravity. They are specialized structures in the inner ear that contain hair cells sensitive to movement and play a key role in our sense of balance and spatial orientation.
The vestibular system and the auditory system each contain structures called maculae. In the vestibular system, the maculae are found in the utricle and saccule of the inner ear and help detect linear acceleration. In the auditory system, the macula is a part of the cochlea and is involved in detecting sound vibrations.
The hair cells of the utricle and saccule are clustered in structures called maculae. These maculae are specialized sensory regions within the inner ear that detect changes in head position and linear acceleration. The hair cells within the maculae are essential for signaling information related to balance and spatial orientation to the brain.
Also called maculae provide information on head position (static equilibrium), as well as linear acceleration and deceleration, a type of dynamic equilibrium. The maculae consist of hair cells with hair bundles and supporting cells.
maculae/static equilibrium
The imaginary line that can be traced in de maculae, where the directions of the haircells in are exactly opposite.
The grains of calcium carbonate found in the maculae of fish are called otoliths. Otoliths play a key role in the fish's balance and orientation in the water. They help detect gravity and acceleration, allowing the fish to sense its position and movement in the water.