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Receptor potential

Receptor potential. Learning Objectives of this class. Concept of labeled line principle Explain the receptor potential with reference to pacinian corpuscle Describe the mechanism of adaptation of receptors. Labeled line principle. Receptor Stimulation Impulse Nerve Brain

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Receptor potential

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  1. Receptor potential

  2. Learning Objectives of this class • Concept of labeled line principle • Explain the receptor potential with reference to pacinian corpuscle • Describe the mechanism of adaptation of receptors

  3. Labeled line principle • Receptor • Stimulation • Impulse • Nerve • Brain Touch Pain Temp

  4. Receptor Potentials • All sensory receptors have one feature in common. • Whatever the type of stimulus excites • Change in electrical potential of the receptor. • This change in potential is called a Receptor potential.

  5. Mechanisms of Receptor Potentials. • By mechanical deformation • Stretches the receptor membrane • Opens ion channels • By application of a chemical • Opens ion channels • By change of the temperature of the membrane • Alters the permeability of the membrane • By the effects of electromagnetic radiation, such as light • Allows ions to move • Basic cause of the change in membrane potential is a change in membrane permeability of the receptor

  6. Maximum Receptor Potential Amplitude. • The maximum amplitude of most sensory receptor potentials • 100 millivolts • Change in voltage when the membrane - maximally permeable to sodium ions. • When the receptor potential rises above the thresholdfor eliciting action potentials • Action potentials occur • More the receptor potential rises above the threshold level - Greater- action potential frequency

  7. Central nerve fiber extending through its core. Surrounding – multiple concentric capsule layers Compression anywhere on the outside of the corpuscle will Elongate, Indent or Deform the central fiber Pacinian Corpuscle

  8. Central fiber of the pacinian corpuscle • The tip of the central fiber - unmyelinated • The fiber - Myelinated • Deformed by compression • Sodium influx - a local circuit of current flow • Node of Ranvier, typical action potentials transmitted

  9. Very intense stimulation Progressively less and less additional increase in numbers of action potentials Allows the receptors to have an extreme range of response, From very weak To very intense Relation Between Stimulus Intensity and the Receptor Potential.

  10. Adaptation of Receptors • Receptors adapt either partially or completely to any constant stimulus after a period of time. • When a continuous sensory stimulus is applied, • The receptor responds at a high impulse rate at first • Then progressively slower rate until • Finally the rate of action potentials decreases to very few • To ………… none at all.

  11. Some sensory receptors adapt to a far greater extent than others Mechanoreceptors adapt almost completely Nonmechanoreceptors Chemoreceptors Pain receptors, never adapt completely. Adaptation of different types of receptors

  12. Mechanism of Receptor adaptation • Studied in greatest detail - pacinian corpuscle. • Readjustments - structure of the receptor • Pacinian corpuscle is a viscoelastic structure • Distorting force - transmitted by the viscous component • Elicit a receptor potential. • Within a few 100ths of a second- fluid within the corpuscle redistributes • Electrical type of accommodation • Progressive “inactivation” of the sodium channels

  13. Slowly Adapting Receptors • Detect Continuous Stimulus Strength • The “Tonic” Receptors. • Continue to transmit impulses to the brain as long as the stimulus is present/hours. • Keep the brain constantly apprised of the status of the body and its relation to its surroundings. • Golgi tendon apparatuses • Macula in the vestibular apparatus • Baroreceptors and chemoreceptors

  14. Rapidly Adapting Receptors -Imp • Detect Change in Stimulus Strength • The Rate / Movement / Phasic Receptors • Cannot be used to transmit a continuous signal • React strongly while a change is actually taking place. • Pacinian • Sudden pressure applied to the tissue excites this receptor for a few milliseconds • Transmits a signal again when the pressure is released…. • Importance

  15. Learning Objectives were • Concept of labeled line principle • Explain the receptor potential with reference to pacinian corpuscle • Describe the mechanism of adaptation of receptors

  16. Thank You

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