Increased leak conductance alters ISI variability.

... CV = standard deviation of ISI distribution/mean ISI ...

4-Nervous system I: Structure and organization

... West, L. J., C. M. Pierce and W. D. Thomas. 1962. Lysergic acid diethylamide: its effects on a male Asiatic elephant. Science 138:1100-1103. Harwood, P. 1963. Therapeutic dosage in small and large mammals . Science 139: 684-685. ...

This is the only tug your heart should feel

... glove-and-stocking distribution is the most common nonhematologic side effect associated with paclitaxel (Taxol) therapy, whereas nerve damage leading to motor dysfunction is uncommon (J). We report here on a 53-year-old man with both non-insulin-dependent diabetes mellitus without systemic complica ...

Conditions Page 5

... affecting the brain, brain stem and spinal cord. More than one million people around the world are affected by MS. It is an unpredictable disease and varies in severity, from a mild illness in some to permanent disability in others. Symptoms typically begin between ages 20 and 40, and often include ...

File

... able to ‘fire’ again – this is due to the fact that, even though ions changed places and did not return, only a small percentage of the TOTAL Na+ and K+ swapped locations. A section of an axon may fire multiple times before it requires a Recovery Period (Ion Redistribution period), where both gates ...

11 Func[ons of the Nervous System Divisions of the Nervous System

... •  Thin nerve ﬁbers are ______________________ •  One Schwann cell may incompletely enclose 15 or more unmyelinated axons ...

Peripheral Nervous System 1: The Somatic System

... • Dendrites: carry nerve impulses toward cell body • Axon: carries impulses away from cell body • Synapses: site of communication between neurons using chemical neurotransmitters • Myelin & myelin sheath: lipoprotein covering produced by glial cells (e.g., Schwann cells in PNS) that increases axonal ...

Chapter 11

... Single extension from cell body that divides into 2  Axon carries info to and from cell body  Ex. Sensory neurons in PNS ...

Chapter 12 - Membrane Transport . PPT - A

... The slow K+ gates remain open longer than is needed to restore the resting state. This excessive efflux causes hyperpolarization of the membrane The neuron is insensitive to stimulus and depolarization during this time ...

Each of these case histories involves damaged areas of the brain

... allow the brain to make connections between the sensory information received by the visual cortex and experience. Patients may be able to describe an object that they see but not be able to “recognize” the object. This is a case history from Oliver Sacks. Mr. P is “The Man who Mistook his Wife for a ...

CHAPTER 10: NERVOUS SYSTEM I

... A resting neuron's cell membrane is said to be polarized = electrically charged (i.e. the charge inside the cell is different than the charge outside): Consequently, a potential difference (PD) exists across this resting cell membrane. ...

NeuroMuscular Junction and Excitation Coupling IP

... 3. (P 3.) How are skeletal muscle cells electrically insulated from each other? _______________________________ 4. (P 3.) What is a motor neuron? 5. (P3.) What part of the motor neuron carries impulses to the muscle? Describe its structure. 6. (P 4.) Match the following terms to their description: A ...

Input sources of alpha motor neurons

... • The primary function of the basal ganglia is to provide a feedback mechanism to the cerebral cortex for the initiation and control of motor ...

Lessons 1

... potential and currents that need to maintain this potential level are recorded The axon was immersed in sea water, so Vm represented the difference between the inside of the axon and the water HH inserted 2 silver electrodes in the axon, one measuring Vm and the other transmitting a current able to ...

Ch 7 The Nervous System Notes

... polygraph- measures stress incurred when tell a lie. You know it is wrong to lie, when you do lie your sympathetic NS kicks in and your adrenal glands cause heart rate to increase. measures changes in heart rate ...

PPT - Ohio University

... • Dendrites: carry nerve impulses toward cell body • Axon: carries impulses away from cell body • Synapses: site of communication between neurons using chemical neurotransmitters • Myelin & myelin sheath: lipoprotein covering produced by glial cells (e.g., Schwann cells in PNS) that increases axonal ...

nerve - Ohio University

... • Dendrites: carry nerve impulses toward cell body • Axon: carries impulses away from cell body • Synapses: site of communication between neurons using chemical neurotransmitters • Myelin & myelin sheath: lipoprotein covering produced by glial cells (e.g., Schwann cells in PNS) that increases axonal ...

03. Neurons and Nerves

... are many kinds of neurons. They differ in size, structure and function. ...

Central Nervous System

... the central nervous system. These nerves coordinate messages between all parts of the body and the central nervous system (brain and spine) ...

The Nervous System

... be.com/watch?v =TKG0MtH5crc ...

Physiology – Excitable Tissue – 11th May 2010

... 42. Regarding cellular elements of the CNS, which of correct? a. Microglia consists of oliodendrocytes, Schwann cells and astrocytes b. Fibrous astrocytes are found predominatly in grey matter c. Protoplasmic astrocytes produce substances that are trophic to neurons d. The cell body is always at th ...

PDF

... The overall goal of this dissertation project was to characterize the impact of ulceration on propulsive motility in guinea pig tri-nitro benzene sulfonic acid (TNBS) colitis. The study was comprised of three aims: to determine how ulceration affects motility; to examine changes in neural control of ...

sensation.

... A study of the relationship between physical characteristics of stimuli and our psychological experience with them. How we detect events in our environment using our sensory systems Physical World ...

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Rheobase

Rheobase is a measure of membrane excitability. In neuroscience, rheobase is the minimal current amplitude of infinite duration (in a practical sense, about 300 milliseconds) that results in the depolarization threshold of the cell membranes being reached, such as an action potential or the contraction of a muscle. In Greek, the root ""rhe"" translates to current or flow, and ""basi"" means bottom or foundation: thus the rheobase is the minimum current that will produce an action potential or muscle contraction.Rheobase can be best understood in the context of the strength-duration relationship (Fig. 1). The ease with which a membrane can be stimulated depends on two variables: the strength of the stimulus, and the duration for which the stimulus is applied. These variables are inversely related: as the strength of the applied current increases, the time required to stimulate the membrane decreases (and vice versa) to maintain a constant effect. Mathematically, rheobase is equivalent to half the current that needs to be applied for the duration of chronaxie, which is a strength-duration time constant that corresponds to the duration of time that elicits a response when the nerve is stimulated at twice rheobasic strength.The strength-duration curve was first discovered by G. Weiss in 1901, but it was not until 1909 that Louis Lapicque coined the term ""rheobase"". Many studies are being conducted in relation to rheobase values and the dynamic changes throughout maturation and between different nerve fibers. In the past strength-duration curves and rheobase determinations were used to assess nerve injury; today, they play a role in clinical identification of many neurological pathologies, including as Diabetic neuropathy, CIDP, Machado-Joseph Disease, and ALS.

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Rheobase