46 Sensory Receptors, Neuronal Circuits for Processing Information Dr. A.R. Jamshidi Fard 2011
Types of Sensory Receptors (1) Mechanoreceptors (2) Thermoreceptors (3) Nociceptors (4) Electromagnetic receptors (5) Chemoreceptors,
I. Mechanoreceptors Skin tactile sensibilities (epidermis and dermis) Free nerve endings Expanded tip endings Merkel’s discs Plus several other variants Spray endings Ruffini’s endings Encapsulated endings Meissner’s corpuscles Krause’s corpuscles Hair end-organs Deep tissue sensibilities Free nerve endings Expanded tip endings Spray endings Ruffini’s endings Pacinian corpuscles Muscle endings Muscle spindles Golgi tendon receptors Hearing; Sound receptors of cochlea Equilibrium; Vestibular receptors Arterial pressure Baroreceptors of carotid sinuses and aorta
II. Thermoreceptors Cold Cold receptors Warmth Warm receptors III. Nociceptors Pain Free nerve endings IV. Electromagnetic receptors Vision Rods Cones V. Chemoreceptors Taste Receptors of taste buds Smell Receptors of olfactory epithelium Arterial oxygen Receptors of aortic and carotid bodies Osmolality Neurons in or near supraoptic nuclei Blood CO2 Receptors in or on surface of medulla and in aortic and carotid bodies Blood glucose, amino acids, fatty acids Receptors in hypothalamus
Receptor Potential of the Pacinian Corpuscle An Example of Receptor Function Adaptation of Receptors Viscoelastic structure Accommodation
Relation Between Stimulus Intensity and the Receptor Potential.
Amplitude of Receptor Potential All or None Law ? Toni or Phasic Receptors
Classification of Nerve Fibers
Spatial Summation Temporal Summation Processing of Signals in Neuronal Pools
Divergence (Amplification) Convergence
Reverberatory Circuits CPG s Central Pattern Generator Prolongation of a Signal by a Neuronal Pool “Afterdischarge”
Reverberatory Circuits CPG s Central Pattern Generator
Instability and Stability of Neuronal Circuits 1- Synaptic Fatigue 2- Downregulation or Upregulation of Synaptic Receptors