physical therapy procedures -1- (rhs321) introduction to...
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Physical therapy procedures -1- (RHS321)Introduction to physical agents modalities:
Electromagnetics spectrum
RHSD-CAMS-KSU
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Objectives
Define the electromagnetic spectrum (EM)and explain its physical properties
1
Define waveform and frequency andunderstand the relation between them.
2
Explain how the laws governing EM energyapply to different therapeutic modalities
3
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Contents
Define electromagnetic spectrum, wavelength andfrequency .
Laws and principles related to electromagneticradiations and its clinical applications.
Reflection, Refraction and AbsorptionInverse Square lawLaw of Grotthus-DraperCosine LawArndt-Shultz Principle
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LOGOElectromagnetic spectrum?
Electromagnetic spectrum is a line containsdifferent kinds of radiations, which aredifferentiated by their wavelengths, frequencyand energy.
electromagnetic song - Yahoo! Search Results.flv
Electromagnetic Radiation1-Composed of electrical+ magnetic fields2-These fields are ordinated perpendicular to each others
Radiation is a process by whichelectromagnetic energy travels fromits source outward through space.
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LOGOPhysical Characteristics of
Electromagnetic Energy
Operate at specific wavelengths,frequencies & energy
All are knowns EM radiations.
All are moving through space(vacuum),at of light (3 × 108 m/s).
All travel as sinusoidal waves in straightline .
All can be reflected, refracted, absorbed&transmitted
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LOGOWavelength
Wavelength (λ) is the distance between the beginningand the end of a single wave cycle. It is measured inmeters, centimeters, millimeters or nanometer.
Longer Wavelengths (λ) are associated with deeper Penetration
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LOGOFrequency
Frequency (F)It is the number of waves per unit of time. It isexpressed in Hertz (Hz), which indicates wave persecond.
Energy (E)It is the capacity of system for doing work, and has differentforms
It is measured in Joules (J) , and equal to power multiplied by timewhere 1J=IW x 1sec.
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Velocity
Velocity (v) is the rate of changes distance in aparticular direction. It is the constant for allforms of electromagnetic waves, being 3x108
m/sec {i.e. the speed of light}.
As the velocity is constant for all electromagneticwaves if there is no disturbance
Wavelength = Speed of light / Frequency
λ= V/ƒ
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Frequency and energy of EM radiation are inverselyproportional to its wave length
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LongestWavelength
LongestWavelength
ShortestWavelength
ShortestWavelength
LowestFrequency
Energy
LowestFrequency
Energy
HighestFrequency
Energy
HighestFrequency
Energy
Region Wavelength(centimeters)
Frequency(Hz)
Energy(eV)
Radio > 10 < 3 x 109 < 10-5
Microwave 10 - 0.01 3 x 109 - 3 x1012 10-5 - 0.01
Infrared 0.01 - 7 x 10-5 3 x 1012 - 4.3 x1014 0.01 - 2
Visible 7 x 10-5 - 4 x 10-5 4.3 x 1014 - 7.5x 1014 2 - 3
Ultraviolet 4 x 10-5 - 10-7 7.5 x 1014 - 3 x1017 3 - 103
X-Rays 10-7 - 10-9 3 x 1017 - 3 x1019 103 - 105
GammaRays < 10-9 > 3 x 1019 > 105
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Non-Ionizing Radiation All kinds of EM radiations with
frequencies < 1015 Hz andwavelengths λ=10-8-104 m.
Can not break molecular bonds orproduce ion
Used for therapeutic/medicalapplications
Examples:Shortwaves(SWD),Microwaves (MWD)Ultraviolet,(UV)Infrared (IR)
Ionizing Radiation The EM radiations with higher
frequencies ≥ 1017 Hz.
Can break molecular bonds toproduce ion.
Used for medical imaging,cancer therapy
Examples:X-ray,
Gamma rays (γ-rays)
Beta rays (β-rays)
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Laws Governing EM-radiation
Reflected Refracted AbsorbedPenetrationTransmitted
When electromagnetic radiationssuch as Infra-red, visible light, ultraviolet, and short waves travel instraight lines until they encounter adifferent medium, then they may be:---------------------,------------------------,and-----------------------------
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LOGOReflection
Reflection occurs when EM rays encounters a mediumwhich will not transmit it. In this case, the ray is reflectedback into the same plane .
The degree of reflection reduced as the treatment angle approaches90 degrees
Clinical applications1-In infra-red and ultraviolet, where the re-direction of rays towards anappropriate target is required.2-In US therapy,
{tissue air interface, How?}(muscles bone interface)
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Refraction•Refraction occurs when EM rays are transmitted from onemedium to another, causes the ray to be bending from itsoriginal course by an amount depending on;
•Media involved
•Angle of incidence (Snell’ law).
Clinical application:using coupling media as intreatment of ultrasound (watercoupling media).
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Absorption
When an electromagnetic wave strike a new medium, theymay be partially absorbed and produce an effect (Heat),and the amount of rays absorbed depends on:
1. Wavelength & Frequency
2. Angle of incidence
3. Nature of a medium
4. Intensity of radiation.
Shorter wavelengths will have higher energy andfrequencies and low depth of penetration and greaterabsorption in superficial tissue.
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Absorption
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Law of Grotthus DraperDescribes the inverse relationship between thepenetration and absorption. If The Energy Is Not Absorbed It Must Be Transmitted To
The Deeper Tissues
The Greater The Amount of Energy Absorbed, the LessTransmitted and Thus The Less Penetration
In clinical; using US at afrequency of 1MHz would be moreeffective than at 3MHz, because lessenergy would be absorbedsuperficially at 1MHz and thus moreenergy penetrate to deeper tissues.
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Inverse Square Law
Inverse Square Law E=E o/D² E= energy received by the tissues Eo= energy produced by the source D2= Distance Squared
“Intensity of radiation striking the surface isinversely proportional to the square of the distance”from the source.
Inverse square law can be employed inpractice;
The closer the source of radiation , the greaterthe intensity of radiation being received by theskin, the further away, the less the intensity.
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Cosine Law (right angle law)
The optimum radiation occurs when the source ofthe radiation is perpendicular to the center of thesurface of the area to be radiated.
In clinical; when applying UV, IR, US, great effortsshould be made to ensure that the maximum numberof radiated energy strike the treatment area at a rightangle (angle of incidence = 0degree).
• For the most effective absorption of energy. Keepthe US head flat on treated body surface (Why?).
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Arndt-Schultz Principle
Amountof energy
Too smallNo significant
reaction
AdequateEnhance normal
function
To higherdisruption andloss of function
No Changes Or Reactions Can Occur In The Tissues Unless TheAmount Of Energy Absorbed Is Sufficient To Stimulate TheAbsorbing Tissues
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Clinical pearls
The clinical effects of EM radiation is determinedprimarily by the frequency and wavelength, and tosome degrees by intensity of radiations, andaffected by Laws governing radiation.
The intensity of any type of EM radiations reachingthe body is greatest when
Energy output is higher,Radiation source is close to the patients,Beam of radiation is perpendicular to the surface of
the skin
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Conclusion Physical modalities, shortwave diathermy (SWD) and
microwave diathermy (MWD), the infrared (IR) laser, and ultraviolet(UV) are all classified as portions of the electromagnetic spectrumaccording to corresponding wavelengths & frequencies associatedwith each region.
All electromagnetic radiations travel at the same velocity; thuswavelength and frequency are inversely related. Those radiations withthe longer wavelengths tend to have the greatest depth of penetration.
Radiations may be reflected, refracted, absorbed, or transmitted in thevarious tissues.
The purpose of using any therapeutic modality is to stimulate aspecific tissue to perform its normal function.
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Thank You !!
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REVIEW QUESTIONS
1. What is the electromagnetic spectrum and radiant energy?
2. What is the relationship between wavelength and frequency?
3. What are the characteristics of electromagnetic energy
4. According to the Law of Grotthus–Draper, what happens toelectromagnetic energy when it comes in contact with and/orpenetrates human biologic tissue?
5. Why must the head of an US unit is be in good contact andperpendicular with treated surface area?
Relationship Between Wavelength Depth of Penetration,Frequency, and Absorption
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Multiple Choice1-Which of the following is NOT an electromagnetic energy modality?
a. Ultraviolet lightb. Ultrasoundc. Low-power laserd. Shortwave diathermy
2. Sound or radiation waves that change direction when passing from one type of tissue toanother are said to.
a. Transmitb. Absorbc. Reflectd. Refract
3. The law states that if superficial tissue does not absorb energy, it must be transmitted deeper.a. Law of Grotthus–Draperb. Cosine lawc. Inverse square lawd. Arndt–Schultz principle
4. According to the cosine law, to minimize reflection and maximize absorption, the energysource must be at a angle to the surface.
a. 45 degreeb. 90 degreec. 180 degreed. 0 degree
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5.In each of the following pairs, circle the form of radiation with the LONGERWAVELENGTH:
a) Microwaves or radio wavesb) Infrared radiation or visible lightc) Gamma rays or UV radiationd) x-ray and infrared
6. In each of the following pairs, circle the form of radiation with the GREATERFREQUENCY:
a) Gamma rays or UV radiationb) X-rays and gamma raysc) UV radiation or radio waved) UV radiation or visible light
7.In each of the following pairs, circle the form of radiation with the HigherENERGY:
a) Gamma rays or UV radiationb) X-rays and gamma raysc) UV radiation or radio waved) UV radiation or visible light