3020 Lecture 10
Amber Stokes・2 minutes read
The sensory system detects external and internal stimuli through sensory neurons, following a four-step process of stimulation, transduction, transmission to the brain, and interpretation. Different types of receptors, like mechanoreceptors for touch and chemo receptors for taste, play key roles in perceiving sensory information and generating appropriate responses.
Insights
- Sensory information is processed through a four-step system involving stimulation, transduction, transmission to the central nervous system, and interpretation by the brain, allowing us to perceive external and internal stimuli.
- Various types of receptors, like mechanoreceptors for touch and electromagnetic receptors for sight, are crucial in detecting stimuli, with specific structures like Merkel's discs and Meissner corpuscles responsible for monitoring touch duration and pressure, showcasing the complexity and specialization of sensory systems.
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Recent questions
How does the sensory system process information?
Through stimulation, transduction, transmission, and interpretation.
What are the different types of sensory receptors?
Mechano receptors, chemo receptors, and electromagnetic receptors.
Why are fingertips sensitive to touch?
Due to the presence of mechanoreceptors.
How do proprioceptors function in the body?
By monitoring muscle length and tension.
What is the role of the lateral line system in fish?
To detect vibrations in water.
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Summary
00:00
Understanding the Sensory System and Perception
- The sensory system focuses on external senses like eyesight, hearing, smell, taste, and touch, with receptors detecting internal and external stimuli.
- Sensory information is picked up by sensory neurons in a four-step process: stimulation, transduction, transmission to the central nervous system, and interpretation by the brain.
- The stimulus is the physical impingement on a sensory neuron or receptor, which can include ions or other stimuli like hydrogen ions indicating blood acidity.
- Transduction involves transforming the stimulus energy into graded potentials in sensory neurons' dendrites.
- Transmission occurs through action potentials in the sensory neuron's axon to the central nervous system via aent nerve pathways.
- Interpretation by the brain creates sensory perception from electrochemical events, potentially leading to a response through motor pathways.
- Sensory receptors detect both internal and external stimuli, with exteroceptors sensing external stimuli and interoceptors sensing internal stimuli like muscle length, tension, pH, and oxygen levels.
- Sensory modalities depend on which receptors are stimulated rather than how they are stimulated, leading to specific pathways in the brain for smell, taste, touch, sound, and light.
- Three major categories of receptors include mechano receptors for touch, chemo receptors for taste, and electromagnetic receptors for sight.
- Mechano receptors include nociceptors for pain, touch receptors varying in density across the body, and responses to temperature, chemical damage, and mechanical stimulation.
27:48
Sensory Mechanoreceptors: Navigating Touch and Vibrations
- Fingertips are sensitive due to the presence of mechanoreceptors, which help us navigate and understand the world.
- Mechanoreceptors are located at different depths in the skin, with some in the dermis and others in the subcutaneous tissue.
- Merkel's discs, close to the skin surface, monitor duration and pressure of touch, especially light touch.
- Meissner corpuscles, found in specific areas like fingers and palms, detect heavy pressure.
- Ruffini corpuscles, deeper in the dermis, monitor duration, pressure, and respond to skin stretch.
- Pacinian corpuscles, deep in the skin, detect onset and removal of pressure, specifically picking up vibrations.
- Proprioceptors monitor muscle length and tension, detecting when muscles are overstretched.
- Spindle fibers in muscles have sensory neurons that send signals to the brain when muscles are stretched too far.
- Fish have a lateral line system with cupula, stereocilia, and hair cells to detect vibrations in water.
- The external ear, including the pinna, directs vibrations into the auditory canal for sound perception.
52:56
Journey of Sound Waves Through the Ear
- Sound enters the ear through the auditory canal and hits the tympanic membrane, also known as the eardrum, which vibrates like a drum in response to the sound waves.
- Vibrations from the eardrum are transmitted to three small bones in the inner ear - the malleus, incus, and stapes - which connect to the inner ear and amplify the vibrations.
- The stapes vibrates against the oval window, transmitting vibrations to the cochlea, a system of fluid-filled tubes in the inner ear.
- Sound waves cause the fluid in the cochlea to move, bending stereocilia inside the tubes, which are crucial for hearing and can be damaged by loud noises.
- The bending of stereocilia produces signals that are transformed into electrical impulses, traveling to the central nervous system for interpretation by the brain, allowing us to perceive and understand sounds in our environment.
