When a neurotransmitter binds with receptors at the membrane, it may cause sodium channels to open. An inflow of sodium causes the membrane to partially depolarize and become less negatively charged. For example, the voltage might change from -70 mV to -65 mV. This partial depolarization of the dendrites and cell body acts as: an EPSP, exciting the cell and increasing the likelihood of action potentials. an IPSP, inhibiting the cell and reducing the likelihood of action potentials. none of these options; depolarization has no excitatory or inhibitory effect on a neuron. both an EPSP and and IPSP.
Anatomy and Physiology of Special Sensory Organs
Sensory organs can be labeled as special sensory structures that permit sight, hearing, odor, and flavor. Sensory structures permitting proprioception, touch, thermal, and pain perception can be classified as more advanced sensory organs. The sensory neurons are trained to find out modifications in the external and internal conditions so that a person's body can react to that change. A stimulus is the first signal that is recognized by any sensory receptor of the body. Stimulus is an impulse generated when there is a change in the surroundings of a person. For example, a heated environment will alert the brain through the thermal sensory organs and generate a reflex accordingly.
Sensory Receptors
The human sensory system is one of the most complex and highly evolved structures, which processes a myriad of incoming messages. This well-coordinated system helps an organism or individual to respond to external stimuli, appropriately. The sensory receptors are an important part of the sensory system. These receptors are specialized epidermal cells that respond to external environmental stimuli. These receptors consist of structural and support cells that form the peripheral unit of the receptor and the neural dendrites which receive and detect the external stimuli.
When a neurotransmitter binds with receptors at the membrane, it may cause sodium channels to open. An inflow of sodium causes the membrane to partially depolarize and become less negatively charged. For example, the voltage might change from -70 mV to -65 mV. This partial depolarization of the dendrites and cell body acts as:
- an EPSP, exciting the cell and increasing the likelihood of action potentials.
- an IPSP, inhibiting the cell and reducing the likelihood of action potentials.
- none of these options; depolarization has no excitatory or inhibitory effect on a neuron.
- both an EPSP and and IPSP.
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