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ELECTRIC CURRENTS BY B.Nelson
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Aims of Presentation Outline the basic principles of electricity
Explain the physiological responses to electricity
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What is electric current ?
Net movement of electrons through a conductor Electrons are particles of matter which are negatively charged and have a small mass Electrons will move from an area of high potential to an area of lower potential
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Components of electrical current
Ampere(A) : unit of measure that indicates the rate at which electrical current is flowing Coulomb :the number of electrons flowing per second 1 ampere = 1 coulomb/ 1 second
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Components of electrical current
Conductor : materials that permit free movement of electric current (metals) Insulators : materials that resist the flow of electric current (wood , glass)
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Basic Types of current Direct current (DC/galvanic)
Alternating current (AC)
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Types of current cont’d
Direct current :unidirectional flow of electrons from the negative to the positive poles,e.g batteries Alternating Current: continuous bidirectional flow of electrons from negative to positive poles ,e.g outlets in the home produce AC
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Waveforms Indicates a graphic representation of the shape ,direction ,amplitude ,duration and frequency of the current produced by the device Electrical currents may take on a Sinusoidal, Rectangular, square or spiked waveform shape
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Waveforms Cont’d
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Components of electrical current
Pulse amplitude : reflects the intensity of the current and is measured in amperes(amp/A) Pulse duration :the length of time current is flowing in one cycle Pulse frequency: number of pulses or cycles per second and is measured in Hertz (Hz)
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Current flow through biologic tissue
Flows through the path of least resistance Tissue with highest water content & ion content best conductor of electricity Skin is considered an insulator as it offers primary resistance to current Muscle conducts electric current effectively Muscle- tendon unit and fat are poor conductors
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Physiological responses to electrical currents
Electrical currents are used to : Produce muscle contractions Modification of pain through effects on motor and sensory nerves
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Effects of electrical impulses
Nerve Depolarisation Muscle depolarisation Ionic effects of electrical currents
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Nerve Depolarisation Action potential : basic unit of communication
Within the nerve Strength – duration curve: a graphic representation of quantity of current required to produce an action potential in a nerve SDC varies for different types of nerves
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Sensory nerves: low current amplitude/intensity and short pulse durations can depolarise- less than 80 microseconds Motor nerves : high current amplitude/intensity and longer pulse duration cad depolarise microseconds Pain transmitting C –fibres: higher current intensity and longer pulse duration- 10 milliseconds and over
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Longer pulses of 10ms are required to depolarise muscle cell of denervated muscle
This type of stimulation stimulates the A-delta and C-fibres – when present Uncomfortable for patient
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Rheobase: minimum current ampitude/intensity with long duration required to produce an action potential Chronaxie: minimum time to stimulate the tissue at twice the rheobase intensity Chronaxie and rheobase are used in electromyography
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Electromyography ; analysing and recording electric activity in skeletal muscles
Used to diagnose neuropathies, myopathies ect
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Accommodation `process where the nerve becomes less responsive to stimulation Action potential travels faster in large –diameter myelinated nerves than in small- diameter unmyelinated fibres
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Muscle depolarisation
Innervated muscle contract due to depolarisation of motor nerves Denervated muscles contract due to depolarisation of muscle cell membrane Denervated muscles require longer pulse duration (> 10 ms) to produce muscle contraction Muscles do not accommodate
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+++++++++++++ Ionic effects of electrical currents
Cathode (neg. electrode)attracts positively charged ions, while the anode(+ electrode) attracts negative electrode Iontophoresis : process where direct current is used to facilitate transdermal drug penetration Used to treat during the inflammatory stages, facilitate tissue healing and decrease oedema
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