The Hopkins Pain Workgroup “Seeing Pain More Clearly” Optogentic and electrophysiological assay of pain fibers in skin (mice): Michael Caterina, Xinzhong.

Slides:

Advertisements

Similar presentations

The Nervous System Dont get nervous about the nervous system.

Advertisements

Hearing and Deafness 1. Anatomy & physiology Chris Darwin Web site for lectures, lecture notes and filtering lab:

Body and behavior Chapter 6. Standards Standard II: Biopsychological Biological basis of behavior IIA-1.1 Structure and function on neuron IIA- 2.1 Organization.

Nervous System VOCABULARY. Vocabulary  Afferent  Autonomic Nervous System  Cerebral Spinal Fluid  Conductivity  Congenital  Efferent  Equilibrium.

Nervous System Controlling your body’s movements and senses.

A Hot and Spicy Introduction to Basic Pain Mechanisms Michael J. Caterina M.D., Ph.D. Professor of Biological Chemistry and Neuroscience Member, Center.

General Sensory Reception. The Sensory System What are the senses ? How sensory systems work Body sensors and homeostatic maintenance Sensing the external.

Today –Sensory receptors General properties –Skin receptors.

The Ear Perry C. Hanavan. Outer Ear Peripheral –Outer ear –Middle ear –Inner ear –Auditory nerve Central –Brainstem –Midbrain –Cerebral.

Auditory Transduction How the ear converts acoustic energy into a neural response.

1 Somatic Sensation ( MCB160 Lecture by Mu-ming Poo, Friday March 9, 2007) Introduction –Adrian’s work on sensory coding –Spinal cord and dorsal root ganglia.

Anatomical Substrates of Somatic Sensation

DR. ZAHOOR ALI SHAIKH LECTURE --9

CHAPTER 3 SENSORY SYSTEMS

ANATOMY OF NERVOUS SYSTEM BY DR Noha Elsayed. INTRODUCTION DEFINITION The system which controls the sensory and motor functions of the body is called.

_ _ _ N E W R O N N E U R O N. 6.5 Nerves Homework.

The Inner Ear SPA 4302 Summer Two Halves: ____________--transduces motion and pull of gravity ____________-transduces sound energy (Both use Hair.

Principles of Health Science 2012 Nervous System.

Hearing and Deafness Anatomy & physiology. Protection Impedance match Capture; Amplify mid-freqs Vertical direction coding Frequency analysis Transduction.

Applied Psychoacoustics Lecture 1: Anatomy and Physiology of the human auditory system Jonas Braasch.

Fundamentals of the Nervous System and Nervous Tissue

Listen to the audio lecture while viewing these slides or view the video presentations available through Blackboard Psychology 372 Physiological Psychology.

Nervous System.  1. Function – Receives and sends out info from and to the outside and inside your body.

Mechanisms of tinnitus generation Carol A. Bauer Current Opinion in Otolaryngology & Head and Neck Surgery 2004,12:413 – 417 R1 石堅.

1 Inner Ear Physiology 2 3 Transduction Tympanic membrane Acoustical/mechanical Oval window Mechanical/hydraulic Basilar & tectorial membrane Hydraulic/mechanical.

Secondary Receptor Cell (Hair Cells) No axon Output in form of secretion of chemical transmitter agent.

Review of Cochlear Anatomy Bony Capsule Bony Capsule Semicircular Canals Semicircular Canals Vestibule Vestibule Scala Tympani Scala Tympani Scala Vestibuli.

Neurophysiology Neurons Gross Anatomy The Central Auditory Nervous System Frequency and Intensity encoding Central Auditory Processing Binaural Processing.

The Nervous System. Functions of the Nervous System the center of all thought, learning and memory.

Copyright © 2004 Pearson Education, Inc., publishing as Benjamin Cummings Human Anatomy & Physiology, Sixth Edition Elaine N. Marieb PowerPoint ® Lecture.

Sensory Processes Josée L. Jarry, Ph.D., C.Psych. Introduction to Psychology Department of Psychology University of Toronto May 28, 2003.

Pain Day – The Basics of Pain

Nociceptors 1. Nociceptors are receptors that respond only to actual or imminent tissue damage Several types: High threshold mechanoreceptors: mostly.

52 The Sense of Hearing Dr. A.R. Jamshidi Fard 2011.

THIS IS With Host... Your Ear Eye Neuroglia Cranial Nerves Nerve Cells Nervous System.

Outline Of Today’s Discussion 1.Auditory Anatomy & Physiology.

CHAPTER 8 Peripheral Auditory Nervous System and Haircells.

The Inner Ear SPA 4302 Summer 2004.

General Sensory Reception

Ch. 31.  collects information about the body’s internal and external environment  processes and responds  Messages allow organs to act together and.

Aims and objectives To discuss different types of periodontal receptor and their properties function of the sensory receptors in the periodontium differences.

PRINCIPLES OF SENSORY TRANSDUCTION

Ch 8. The Centrifugal Pathways(a) 강현덕. Contents  A. Introduction  B. The Olivocochlear Bundle 1. Anatomy 2. Neurotransmitters 3. Physiology.

Sense Receptors Receptor: a simple nerve ending Sense organ: a nerve ending that is connected to tissue to limit or enhance a response Sensory transduction:

The Nervous System.

Peripheral Auditory System

Hereditary sensory and autonomic neuropathy type 1

The Nervous System.

Somatosensation Mechanoreceptors that respond to touch/pressure on the surface of the body. Sensory nerve responds propotional to pressure 4 types of mechanoreceptors:

Peripheral Auditory System

b. They would provide the same precision of sensory information.

Classification and Mechanism of Fatigue Receptors

Sensory Receptors/ Endings/ Organs

Tuning in the basilar membrane

Electrical Signals within the Nervous System (lec 2)

Histology of Nervous Tissue

The Neural Response and the Auditory Code

Microneurography in humans: microneurography is an electrophysiological technique to record action potentials from individual peripheral nerve axons in.

Mechanoreceptors.

Structures of the Nervous System

Figure 1 Pathogenesis of diabetic neuropathy

(A) Diagram to illustrate some of the processes leading to central sensitization. (A) Diagram to illustrate some of the processes leading to central sensitization.

Nervous System Anatomy

How it maintains homeostasis

Microneurography in humans: microneurography is an electrophysiological technique to record action potentials from individual peripheral nerve axons in.

Chapter 10 Nervous System I

Itching for Insight Cell

Specialized Nerve Cells

Overview of the Nervous System

Presentation transcript:

The Hopkins Pain Workgroup “Seeing Pain More Clearly” Optogentic and electrophysiological assay of pain fibers in skin (mice): Michael Caterina, Xinzhong Dong,Yun Guan, Paul Fuchs Genetically-visualized pain fibers (mice): Xinzhong Dong, Yun Guan, Srinivasa Raja Functional and molecular characterization of pain fibers in nonhuman primates: Xinzhong Dong, Joseph Mankowski, Matthias Ringkamp Functional and molecular characterization of pain fibers in patients with painful peripheral neuropathy: Michael Caterina, Michael Polydefkis

Pain…

Pain in the (r)Ear

4

Innervation of the cochlea: analogous to skin? 5 Type I afferents, large myelinated axons, 95% of nerve, carry sound. Type II afferents, small axons, 5% of nerve unmyelinated, carry ???.

Type I neuron: 95% of afferents Contacts single IHC Type II neuron: 5% of afferents Contact many OHCs Berglund and Ryugo,1987 Cat Weisz 6

Progress to date Type II afferents poorly driven by OHCs – so would respond only to (very) LOUD sound But, type II afferents also excited by ATP (involved in pain sensation in skin). ATP is released during acoustic trauma. Do type II afferents carry ‘ear pain’? The jury is still out.

Hyperacusis, tinnitus: altered afferent balance? Acoustic trauma Type II afferents remain

Adapt fiber recording methods to excised skin to study transduction of pain Patapoutian et al. 2003,

The Hopkins Pain Workgroup