Dr. Choi Q7 - Final

*intensifying screens* do what?

*- convert X-rays to visible light - reduce patient dose - sensitive to visible light*

Effective Dose Equivalent Limit - fetus

*0.5 rem(5 mSv)/9 mo.*, not to exceed 0.05 rem/mo.

ALARA means

*A*s *L*ow *A*s *R*easonably *A*chievable The reasonableness of the dose must coincide with the diagnostic quality of the film.

Emulsion pick off artifacts

*Cause:* dirty rollers

Chemical fog artifacts

*Cause:* inadequate or improper chemistry.

Crescent moon [finger nail] artifacts*

*Cause:* kinking film with finger or nail

Light or radiation fog artifacts

*Cause:* light leaks, primary beam, safe light too close.

*high kVp*

*Compton Dominant* [low contrast]

what are the 2 most important *interactions of X-rays with matter*?

*Compton and photoelectric effect* [Pair Production]

Difference between X-Ray & Gamma ray

*Gamma rays* are produced as byproduct of radioactive decay in nature *X-rays* are man-made & produced by sudden stopping of high speed electrons in an x-ray tube (control)

Tungsten - W74 Electron Binding Energy

*K shell = 70 keV* - (this may be important later) L = 12 keV M = 2.8 keV N = 0.6 keV O = 0.08 keV

*low kVp*

*PE dominant [high contrast]*

kVp determines the

*Quality* of x-rays [penetrating power] Higher kVp = faster electrons = stronger interaction with tungsten = stronger x-rays [hard x-rays]

Film Badge

*Radiation [Xray/Gamma] sensitive film* in a small plastic holder clipped to clothing Pro: Inexpensive & reasonably accurate (80% - con) Con: 10mR-50mR range, sensitized by heat/pressure, can't be worn >month d/t temp/humidity

[kVp Control knob] kVp determines the

*Speed of electrons hitting the anode.* 1. Major selector= increments of 10 starting at 40- 125 kVp (common for chiropractors) 2. Minor selector= increments of 1 from 1 to 10 kVp

Define *Half Value Layer* (HVL)

*The absorber thickness required to reduce the intensity of radiation to ½ its original value* [used for leakage shielding & to determine need for lead lining]

What are the two areas of work that need to be kept separate regarding Darkroom design?

*Wet area* - handling chemicals processing film. *Dry area* - loading & unloading cassettes.

Does wider latitude with higher kVp or narrow latitude with low kVp gives more room for error?

*Wider latitude* with higher kVp.

*Faster film/screen speed* correlates with a

*decreased mAs*

Voltage

*force applied to electrons to move them* - electrical potential difference b/w two points in a circuit, one having more electrons than the other volt/kilovolt

*Lower contrast* (Longer gray scale) =

*higher kVp* - lower patient dose, but more Compton scatter [increase film fog]

grid ratios and effectiveness?

*higher the ratio the more effective at cleanup*

If you have an *underexposed film* what do you want do with mAs?

*increases mAs* = increases OD → darker film

Variable aperture collimator contain:

*lead shutters* or leafs that open & close to a desired field size. *Less Penumbra* b/c further away from tube port window then aperture diaphragm

Non-Stochastic Radiation Effect Aka. Deterministic effects

*occurs with certainty* following a measured radiation dose and severity increases with the dose. hours/days large dose; short time Threshold dose

Stochastic Radiation Effect:

*probability/best guess* probability of occurrence of the biologic effect to radiation increases as the dose increases *long term effects* i.e *Malignancies & Genetic mutations*

*Supercoat* on a composite film does what?

*protects emulsion layer* from scratching, pressure and contamination

What is the exposure latitude?

*range of mAs* at a given kVp → filament circuit → number of projectile electrons → number of xray photons → acceptable OD of the film.

Please explain the recommended wall color of a 'Darkroom' for X-ray film processing.

- *Light pastel colors* (allow for less intensity safelight) - yellow semi-gloss (reflects low levels of light) . Black walls require a higher intensity safelight.

*Contrast Improvement* Through Scatter Control

- *Optimum kVp* - *Field Size control* - Beam Limiters - Grids - Air-gap technique - *Recumbent Radiography* & tissue compression devices

What is an automatic exposure control or device?

- *compensates for patient density automatically.* - Photocell in the bucky measure radiation exposure to film. - You set the mA and kVp- the AED is preset for desired film density. - Automatically shuts off exposure at desired film density.

What occurs in a Fixed (Optimum) kVp Technique?

- *m/c used* - *Highest kVp* that results in *lowest patient dose* and *acceptable contrast.* - A single kVp is set to ensure adequate penetration of a wide range of patients thickness. - Controller is *mAs* - The kVP will be *higher than* used in *variable kVp techniques.*

Administering Dose: Protraction

- A continuous low dose rate for a long period of time. - Reduces biological effects of radiation Examples: radioactive pellets inserted in the thyroid or prostate, controls proliferation of cancer cells without destroying the tissues.

Radiation Characteristics: *Linear Energy Transfer (LET)*

- A measure of the rate at which energy is transferred from *ionizing radiation to soft tissue* - LET ↑ = ↑ ability to produce biological response - Particles with high LET → Transferring more energy to the tissue [more damage] Alpha Particles: high LET (superficial malignancies) X-Ray: low LET

Credentials for taking x-rays

- ARRT certification - Am. Registry of Rad Techs. - 2 yrs minimum - ACRRT - Limited radiographer - Chiropractic Tech's Accepted by many but not all states. (Minimum 48 hrs course.)

Alternating Current (AC) movement

- BIDIRECTIONAL - movement of electrons that constantly change speed & direction of flow - U.S. uses 60 Hz

What are the advantages of a fixed kVp technique?

- Consistent contrast. - Decreased patient dose. - Shorter exposure times= less motion [blur] - *wider latitude (mAs range)*

What are the disadvantages of variable kVp technique?

- Contrast may be too high. [less gray scale] - Increase pt. dose [low kVp] - Increase patient exposure times- more motion. - Narrow latitude. [mAs range] - Less consistency between exposures.

Describe High Frequency transformers:

- Decreases exposure time = decrease pt. dose. - larger pts - Voltage ripple < 1% - It produces high quality (high energy) X-ray beam

Explain Rotating Anode

- Developed in 1929 by Phillips Corp. - *Designed to increase the capacity of the anode to withstand heat* - It increased the heat capacity by a factor of 200 - It is disc-shaped and mounted on a spindle - Made of molybdenum & covered with tungsten

Tissues most sensitive to carcinogenic effects of ionizing radiation:

- Female Breast (minimize w/ P→A) - Active bone marrow [adolescent teen females need breast shield d/t higher risk of developing breast cancer]

Characteristics of Slow Film

- Less sensitive to light → Longer exposure time - clear [better image detail]

By minimizing voltage ripple, we can achieve...?

- More *constant kVp* (less fluctuation in voltage change). - Production of *high quality/quantity*. - Close to true DC vs. pulsating DC. - More efficient production of X-rays. - *Shorter exposure time* & less soft X-rays → *lowering patient dose*

What is variable kVp with an optimum range?

- More difficult because *two variables* may change. [mAs/kVp] - More accurate in customizing body part settings. - Short range of optimum kVp's. - Requires experience to master.

Characteristics of Fast Film

- More sensitive to light → Short exposure time - grainy & less detail

What are some Technique Conversion Factors?

- Pediatric - Elderly - Cast - Grid - Speed - Distance - Pathology

What is a technique chart?

- Predesigned technique information that includes anatomical region, body part, cm measurements through the central ray, mA, s, kVp, mAs, film size and bucky or no bucky. - Standardized to give machine considering the generator type, grid and film/screen speed.

Transformer [Generator] assembly

- Receives input from the control console - prepares exact *electrical output* to the x-ray tube via transformers

Radiation Effects on Fertility:

- Temporary sterility males & females - dose of 200 rads to gonads. - Permanent sterility - dose of 500 rad to gonads.

What is variable kVp technique?

- The *mAs is set* per body part and the *kVp is varied.* - kVp = 2X the cm thickness of part + 30 [lumbar] [+40 C/T; +50 EXT] - *lower* kVp compared to FIXED kVp technique - Best used in the *60-80 kVp* range for the spine.

Direct Current (DC) movement

- UNIDIRECTIONAL - Has 2 types: Uniform & Pulsating

Ways to keep dose reasonable:

- Use optimum kVp technique *High kVp - reduce dose* - *C*ollimate to film size or less - Reduce exposure to radiosensitive organs (*P-A position helps*) - Maintain *calibrated* equipment - Use rare earth screens/films. - Appropriately use *gonad shields & aprons* - Use *portal filters* - vs underpart filter - Minimize patient *position errors -less repeat films*

Types of Tube Failure

- Vaporization - Surface Melting, Pitting or Cracking (anode) - Failed Bearings - Rotor Assembly [M/C] - Cracked Glass - x-ray tube

Factors in determining shielding requirements:

- Workload = Amount of radiation produced - kVp and mAs used - Distance from source to protected areas - Existing walls construction material - Scatter & leakage radiation consideration - Operator location - Occupancy of surrounding areas

*Air gap technique*:

- a *physical gap* between the patient and the buckey instead of a grid. - the magnification and distortion outweigh the benefit - *REDUCES SCATTER*

Operating Booth

- able to see pt. for all performances - viewing window - leaded glass. 18" from the edge of the booth - exposure switch far from entrance booth - open booth - beam needs to be scattered twice before it reaches operator [RED line]

Prep Switch [rotor switch]

- activates electromagnetic induction *rotor*, turning the anode. - activating the *filament circuit* [mA] --> cloud of electrons [space charge] --> preparing for *thermionic emission* - prepares for exposure by producing cloud of electrons and bring rotor up to speed

Exposure switch

- activates the *high voltage circuit* moving the electrons from cathode to anode, creating x-rays and making the exposure

Control Console characteristics?

- can control x-ray tube current, voltage & exposure - houses the meters and controls for the line compensation, kVp, mA & exposure timer.

Linear Grids

- commonly used - parallel - allows for tube tilt w/o attenuation of beam

Distance: FFD or SID

- focal spot to film distance - source of image receptor to distance - this distance affects the *number of x-rays reaching the film*, and follows the inverse square law

Filament circuit mAs [low voltage]

- generates a space charge - uses a *step down transformer* - step down causes a proportional increase of current - provides current to the filament - *generate electrons in a controllable fashion at the filament*

Administering Dose: Fractionation

- high dose rate - Delivered in increments with healing time between - Reduces the biological effects of radiation - Kills all types of tissues - aggressive cancers Example: Bronchogenic Carcinoma Goal - kill cancer not patient

What are some advantages of the line-focus principle?

- improves spatial resolution - improves heat capacity

To decrease motion unsharpness:

- instruct pt. not to move - immobilization devices - lock equipment in place - short exposure time

Half-Wave Rectification Current

- inverse voltage is removed by rectification - x-ray is pulsed at 60 pulses/sec.

Explain Stationary Anode

- large mass of copper to dissipate heat & conduct electricity - is limited in its heat capacity from electrical load - used mostly in low output machines - has tungsten embedded in the copper as a target

Describe 3 phase:

- nearly constant voltage - > # of photons at all levels = high energy beam = decrease pt. exsposure

Full-wave Rectification

- negative impulses of an AC waveforms are reversed - x-ray is pulsed at 120 pulses/sec.

X-Ray Tube characteristics:

- protective metal housing - *Glass* Enveloped - Two electrodes: *Anode* & *Cathode* - electronically *vacuumed* leaving no gas to reduce X-Ray efficiency

Tube housing characteristics? (4)

- provides mechanical support for the glass x-ray tube - prevents electrical shock - provides thermal cushion - prevents leakage radiation

High voltage circuit [kVp]

- purpose: *drive the electrons from cathode to anode* - Kinetic energy of high-speed electron is *directly proportional* to the kVp - kVp is the only factor affecting x-ray energy - activated by exposure switch - standard: 220volts - requires: *step-up transformer*

High kVp=

- stronger cathode to anode attraction of electrons - more e- [more x-ray photons] - faster e- [stronger x-ray]

Central Ray (CR) is

- the central portion of the primary beam - directed at the center of the structure to be radiographed an to center of film

In a Filament Circuit, mA is inversely proportional to

- turns ratio [step-down transformer]

In a High Voltage Circuit, kVp is directly proportional to?

- turns ratio - kinetic energy of high- speed electron

What is the range of exposure latitude that is diagnostically useful?

0.25 - 2.5

Radiation Absorbed Dose (RAD) is?

1 Roentgen (R) = 1 RAD in soft tissue

Factors that affect penumbra are?

1) *Focal Spot Size* 2) Source to object distance (SOD) 3) Object to image distance (OID)

factors contributing to scatter?

1) *kVp* 2) *tissue type and thickness* 3) *Field size*

What are the 2 types of Dynamic Electricity?

1) Alternating Current (AC) 2) Direct Current (DC)

What are the 3 parameters to describe the waveform of a photon of Electromagnetic Radiation?

1) Frequency 2) Wavelength 3) Velocity V=F x wavelength

3 basic factors in all circuits are?

1) Voltage 2) Current 3) Resistance

What are the 3 parts of the Quantum Theory?

1) X-rays exist at the speed of light or not at all 2) Photon energy is *directly* proportional to the *photon frequency* (high frequency = higher energy) 3) Photon energy is *inversely* proportional to *photon wavelength* (longer wave = lower energy)

if we overexpose a film and want to lighten it, what are our two methods?

1) decrease mAs by 50% 2) decrease kVp by 15%

2 major factors of radiographic contrast are?

1) detector contrast (film) 2) subject contrast (absorption characteristics)

3 main components of x-ray system are?

1) x-ray tube 2) control console 3) transformer assembly

3 circuits inside the transformer

1. *High voltage circuit* [kVp]- connected to anode 2. *Filament circuit [mA]* - connected to cathode 3. *Timer circuit* - controls the cathode and anode

*Systems International Units* 1. Roentgen (R) [Ionization in Air] 2. Radiation Absorbed Dose (RAD) [Living/Non-Living] 3. Rad Equivalent Man (REM) [Biological Effects] 4. Curie (Ci) [Radioactivity]

1. *SI*: Coulombs/kg 2. *SI*: Gray (Gy) 3. *SI*: Seivert (Sv) 4. *SI*: Becquerel (Bq)

3 Cardinal Rules of Radiation Protection: (occupational workers)

1. *Time* - keep exposure time short 2. *Distance* - stay as far away from the radiation as possible 3. *Shielding* - shield radiosensitive organs

Conditions needed for x-ray production

1. A source of electrons 2. A means to accelerate electrons 3. A hard surface to decelerate electrons

Types of Beam Limiters

1. Aperture diaphragm 2. Cones & Cylinders 3. Collimators - Semi-automatic - Fully-automatic

What are the steps of automatic processing of X-ray films?

1. Developer 2. Fixer 3. Wash 4. Dry

Details on Inspection:

1. Distance accuracy 2. Collimation accuracy 3. Filtration 4. Beam alignment 5. Personal Shield

Measurement of radiation dose to occupational radiation workers?

1. Film badge 2. Thermoluminescent dosimeter (TLD) 3. Pocket dosimeter

Please list the nine 'Artifacts' seen on X-ray film, as given in the notes.

1. Guide shoe marks* 2. Pi lines* 3. Crescent moon [finger nail]* 4. Chemical fog 5. Curtain effect 6. Static artifacts* 7. Light or radiation fog 8. Emulsion pick off 9. Hypo/Hyporetention [artifacts with asterisk* very important]

Switches on the control console

1. Main on/off switch- has a separate breaker 2. Line- voltage compensator LVC 3. Milliampere Knob [mA] - higher mA for bigger/ thicker person 4. Timer control- presents the exposure time

Protective Barrier Design 4 Requirements?

1. Primary Protective Barrier (primary wall) 2. Secondary Protective Barrier (secondary wall) 3. Operating Booth 4. Inspection [includes replacing old tube]

Control console

1. Quantity- amount produced [mA] 2. Quality- their energy, activity [kVp] 3. Duration of x-rays [Sec]

2 types of generators

1. Single phase 2. Constant potential [three-phase, high frequency]

3 types of constant potential generators or transformers

1. Single phase 2. Three phase 3. *High frequency* [voltage ripple < 1%]

What are technique systems?

1. Technique charts: SuperTech. 2. Anatomical pre-programmed techniques. [APT] 3. Automatic exposure control or device. [AED]

Preventing tube failure

1. Warm up anode - prevents cracking 2. Determine heat unit limits by using the charts- decrease the mA and increase the time

4 primary factors of exposure

1. kVp 2. mA 3. time 4. Distance

Problems with Grids

1. upside down 2. off level 3. off focus 4. warped 5. lateral decentering

chest x-ray exposure ?

10 mrem per exposure

Human & animal studies suggest that teratogenic & developmental effects are minimal with exposures below?

10 rads = 10k mREM.

100 speed film with 20 mAs changing to 400 speed film What's the mAs

100 x 20mAs = 400 x mAs2 2000/400 = *5 mAs*

1 Amp = ? mA

1000 milliampere

How much radiation dose from the whole body scanner?

1000-2000 scans = 1 chest x-ray

First patent for a line focus tube was issued in ________

1916

Which trimester is more sensitive to radiation?

1st trimester [8.3 more] 3rd - 7th wk - higher risk of congenital malformations

human exposure to radiation per day ?

2 mrem/ day = about 620 mrem/ year

how do you warm up an X-ray tube?

2 successive exposures with collimator closed at 50 and 100 mA @ 50kVp and 1/30 sec

solar flares can increase radiation while flying by how much?

200 times

for every 5000ft of elevation we get how much more radiation?

2X (from cosmic radiation)

Anodes rotate at _____________ rpm and some at ________________ rpm

3,400 rpm 10,000 rpm The faster the rotation the greater the load capacity

radon gas accounts for how much of the 620 mrem of exposure per human per year?

37%

Dx X-ray is what range of Voltage?

40 to 150 kV

Focused grid range from

40 to 72 inches

human radiation is broken up into what percentages (natural/ human-made) of the 620 mrem?

50% man-made 50% natural

processed films should be stored how?

50-60% humidity 60-80 degrees F

optimal kVp for smaller extremities is

55-60 kVp

characteristic X-ray of tungsten is what?

58kVp [due to electron binding E difference b/t K & L shells]

Laws Governing Filtration

70 to 100 kVp = 2.5 mm equiv. Aluminum

optimal kVp for larger parts of the spine is ?

80-90 kVp

grids with "good cleanup" will reduce scatter by how much?

80-90%

Compton Effect produces what percentage of scatter at 70 kVp

95% -5% from classic scatter

Increasing the *SID* does what to sharpness & recorded detail?

= decrease in unsharpness (increase sharpness) = increase recorded detail. = less magnification

Decreasing the *OID* does what to sharpness & recorded detail?

= decrease in unsharpness (increase sharpness) = increase recorded detail (decreased magnification)

Decrease in the film-screen speed system does what to unsharpness and recoded detail?

= decrease in unsharpness (increased sharpness) = increase in recorded detail

Decreasing the *SID* does what to sharpness & recorded detail?

= increase in unsharpness (decrease sharpness) = decrease recorded detail. = more magnification

Increasing the *OID* does what to sharpness & recorded detail?

= increase in unsharpness (decrease sharpness) = decrease recorded detail (increased magnification)

Increase in the film-screen speed system does what to unsharpness and recoded detail?

= increase in unsharpness (decreased sharpness) = decrease in recorded detail.

Increasing a Focal Spot, does what to unsharpness & recorded detail?

= increase unsharpness = decrease in recorded detail

Processing & contrast with WEAK chemicals?

= underdeveloped film Overall film density reduced Decreases Contrast

Soft x-rays [lower voltage]

Absorbed in the body → don't reach the x-ray film,. Increase patient dose [Slower e- and lower frequency]

Most common material used in chiropractic for compensating filters?

Aluminum

Define Electricity

An effect produced with the movement of electrons OR the flow of electrons from one place to another

Umbra

Area of geometric Sharpness

Difference between Transmission & Backscatter X-Rays

Backscatter - bounces back Transmission - through body

Biological Factors: Oxygen Effect

Biologic tissue more sensitive when irradiated - In oxygenation state (aerobic) - High pressure oxygen used to increase sensitivity of nodular & avascular tumors in radiation therapy.

What are the three types of Screen Film?

Blue Sensitive Green Sensitive UV Sensitive

bone rad vs soft tissue rad

Bone has about 4X RAD as soft tissue, meaning it absorbs 4X as much (3.6:1 about a 4:1)

food with a lot of potassium? (1/ 8550 = radioactive)

Brazil nuts, lima beans, bananas

what kind of diagnostic imaging will give you the most ionizing radiation exposure?

CT scan

The only element in the body with a binding energy (4keV) at the k-shell to produce x-rays is?

Calcium

Which side of the X-ray beam between anode side and cathode side has greater penumbra effect?

Cathode

Electron Spin Velocity

Centrifugal force that pushes away due to inertia and stops the electrons from crashing into the nucleus = equilibrium

Function of Beam Limiters

Changes the size & shape of the primary beam. Decreases scatter = increase in contrast Increase collimation (tightening) = decrease field size = decrease pt. dose.

PE vs Compton in *soft* tissues is ?

Compton >> PE

increased X ray energy is going to do what to the ratio of photoelectric effect vs Compton scatter?

Compton >> PE

why does high kVp create less contrast?

Compton scatter

Natural Radiation Sources aka. Natural Background Radiation (NBR)

Cosmic Radiation Terrestrial Radiation Internal Radiation

Acute Radiation Syndrome: what is it & how does it manifest?

Death may ensue within days or weeks of certain whole body radiation. 1. Hematologic <1k] 2. GI [1k-5k] 3. CNS [>5k]

If you have an overexposed film what do you want do with mAs?

Decrease mAs = decrease optical density → Bright or white

Determining Heat Unit Limits: How to make an Unsafe technique Safe

Decrease the mA & increase the time, using the same kVp. [Changing the kVp will change the exposure of the film]

motion of the tube does what to recorded detail?

Decreases [creates a blur] - need shorter exposure time

*Low kVp & Contrast*

Decreasing kVp = less penetrating = decrease scatter = more PE effect (than Compton) = decrease fog = increase contrast.

Compensating Filters are for?

Density balance when there is 'over' & 'under' exposure on the same film (Make up for variation in patient thickness/over thinner body parts)

4 Important considerations in selecting proper screen-type film for your office

Detector Contrast Film Speed Latitude Spectral Response

X-rays that have energy of 40 - 150 keV and are used in medicine, Chiropractic, dentistry, etc

Diagnostic

X-rays that are used for research & analysis and have energy < 10 keV

Diffraction

Types of X-Rays

Diffraction Grenz Diagnostic Superficial Orthovoltage Supervoltage Megavoltage

mAs is _______ ____________ to the tube distance?

Directly Proportional

A 15% increase in kVp =

Doubling the OD

When the mA is doubled what happens?

Doubling the mA (100mA to 200mA) → 2 X the *number of electrons striking the anode* → *2 x* the number of *X-rays produced* Doubles the darkness of the film (exposure)

Cast Conversions

Dry cast- add 10 kVp from non-cast tech. or double mAs Wet cast - add 15 kVp from non-cast tech. or triple mAs Fiberglass cast add 5 kVp from non-cast tech.

Radiation Definition

Energy in motion through space and/or matter.

What is the technique chart best for?

Estimating for exposure.

Controlling the *exposure area* helps limit patient dose/improves quality and should never:

Exceed film size

Higher volatile to the anode will result in an increase number of electrons at the filament. T or F

F- no effect of the number of electrons at the filament → filament circuit

T/F - Genetic mutations from radiation exposure stay in the gene pool for many generations.

FALSE [women exposed to less than 50 rads had no children born with defects]

How does a filter work?

Filtration "hardens" the beam by increasing the average energy of the beam

What are the ways to apply technique?

Fixed kVp. Variable kVp. Variable kVp within an optimum range.

Information needed to give a medical radiation physicist?

Floor plan Location of x-ray machine Primary & secondary walls - What they are made of Occupancy of adjacent rooms

Underpart Filter - Boomerrang

For shoulder imaging Placed behind shoulder to filter soft tissue - over-exposure of AC joint is common without filtration.

ionization

Gaining or losing electrons to form ions

Ionizing Radiation examples

Gamma rays X-rays Protons Neutrons Electrons Beta particles (fast neutrons) Alpha Particles

Penumbra

Geometric unsharpness along the edges of the film/structure imaged - *greatest* on the *cathode side* of the tube -x-ray beam is *stronger* on *cathode* side

X-rays that have energy of approximately 10 keV and are used in dermatological therapy

Grenz (means boundary/borderline)

Two types of rectification?

Half-wave rectification - 2 diodes Full-wave rectification - 4 diodes

Can we minimize anode heel effect?

Heel effect is *less noticeable* with *smaller exposure areas* due to collimation.

lowest voltage ripple?

High Frequency Wave

How would kVp affect HVL?

Higher the kVp →more penetrating power→need thicker HVL

Voltage ripple

Highest volt to lowest volt [we want to minimize voltage ripple]

kVp determines:

How fast the electrons travel across the x-ray tube Quality of X-ray Beam = Penetrating power

Inverse Square Law formula

I = X-ray intensity in mR d = distance in inches I= 1/d^2

*High kVp & Contrast*

Increasing kVp = *Increase* the amount of *scatter* (Compton) = increase fog* = *decrease contrast*.

Total Filtration

Inherent - 0.5 mm Added - 1.0 mm Mirror - 1.0 mm Total = 2.5 mm equiv. Al.

Energy in motion

Kinetic Energy

Types of Grid Designs

LINEAR CROSS GRID (CROSS HATCHED) FOCUSED GRID

Non-ionizing Radiation

Lacks the energy to knock out an orbital electron from an atom. causes excitation w/in atom

What kind of focus is used for (greater heat dispersion) longer exposure times & thicker, denser body parts (large filament) (thorax, abdomen, lumbar spine)

Large Focus

Biological Factors Affecting Radiosensitivity

Law of Tribondeau & Bergonie: Oxygen Effect: Age: Gender: Chemical Agents:

Radiation that is emitted from any part of the housing other than the Port Window?

Leakage radiation

What are the advantages of variable kVp technique?

Less scatter - Lower kVp.

What results in effective focal spot size much less than the actual focal spot size?

Line-Focus Principle (LFP)

Lumbar X-ray, CXR & CT approximately how many mRem?

Lumbar - 50 mREM CXR - 6-10 mREM CT - 1000 mREM xray - no residual radiation

MRI is gold standard for what Dx?

MS, spinal cord lesion, joint disease, brain tumors

How does the Anode rotate in the tube?

Magnetically by electromagnets *[stator]*

X-rays that have energy >1000keV and are used to *eradicate deep-seated tumors*

Megavoltage

What is the anatomical preprogrammed technique?

Menu driven: - Select anatomical part, i.e.C spine.and the view, i.e. lateral C spine. - Punch in the patient's measurements. - kVp and mAs appear on menu. - You can increase or decrease any factor.

What are the disadvantages of fixed kVp technique?

More scatter (higher kVp) Lower contrast.

Biological Factors: Age

More sensitive *before birth* Decrease sensitivity until mature Become more sensitive in *old age*

radiation sources

Naturally occurring (environment) Artificial Sources (Human made devices)

radiation categories

Non-Ionizing Radiation Ionizing Radiation

Ten Day Rule

Non-emergency films done in the 10 day period from the onset of menses

OID Stands for?

Object to Image-receptor Distance

Pi Line Artifacts*

Occur every 3.14 inches. *Causes:* dirty rollers or flat edge on roller.

Portal Filter Characteristics?

On collimator or tube head Attenuate beam *before* reaching patient reduce direct patient dose PREFERRED

Diodes allow for

One direction of electron flow

X-rays that have energy of 200 - 300 keV and are used in radiation therapy for carcinomas

Orthovoltage

Electromagnetic Radiation

Oscillating electormagnetic fields that travel in a vacuum with the velocity of light

What pathologies are EASY to penetrate?

Osteoporosis, multiple myeloma, metastatic bone disease, carcinoma Disuse atrophy, various bone tumors and emphysema. *50% reduction in mAs*

What type of overhead light is recommended for the darkroom?

Overhead white light [incandescent > fluorescent]

How should the chest be positioned when taking chest X-rays to minimize the magnification of the heart?

P → A because it has less magnification

PE vs Compton in *hard* tissues is?

PE >> compton

What are other factors to consider in a technique chart?

Patient age. Tissue density. Pathologies. [constantly update]

Minimize health risks to:

Patients Staff General public

Elderly Conversions

Patients over age 55 ↓ mAs by 30-50% - On average - ↓ 30% - males - ↓ 50% - females Bedridden over 6 months ↓ mAs by 50%

Hard x-rays [higher voltage]

Penetrate the body → reaching the x-ray film [faster e- and higher frequency]

Is an area of geometric unsharpness along the border of a structure, which causes the border to appear fuzzy?

Penumbra

Types of factors of Radiosensitivity

Physical & Biologic factors

Underpart Filter Characteristics?

Placed behind the patient Beam is attenuated *after* it exposes the patient Patient dose is NOT reduced

Compensation Filters Identified by Location of Application

Portal Filter Underpart Filter

When considering Safelight sources in your Darkroom, how is the film sensitivity to light changed after exposure to X-ray?

Post exposure Fog [PEF] -exposed film is 10X more sensitive to light than unexposed films.

time control know [sec]

Presets the exposure time - automatically stops

mA Control Knob

Presets the filament voltage & current for a tube current (50 mA, 100 mA, 200 mA, 300 mA, etc.) - Lower current (50 mA & 100 mA) → small filament 50S, 100S - Higher current (200 mA & 300 mA) → large filament 200L, 300L

Primary Protective Barrier

Primary Wall - A - Primary beam point at - lead sheeting

*Rectification* of current

Process of converting AC current to DC current. - accomplished by *diodes* or *rectifiers* that allow flow in one direction only and saves the tube

The relationship of energy of an x ray photon to its wavelength is known as the?

Quantum Theory

REM equation

REM = Wr x RAD (Wr= weighting factor, or type of the ray) 1 rad X-Ray = 1 rem 1 rad alpha particles = 20rem

what is the order of waves of non-ionizing radiation on the spectrum

RMIVU [Radio (weakest), Micro, Infrared, Visible light, UV light (strongest)]

Physical Factors Affecting Radiosensitivity:

Radiation Characteristics: LET Administering Dose: Protraction, Fractionation

Examples of Non-Stochastic Radiation Effect

Radiation burns Cataracts in lens of eye Loss of fertility Damage to blood or blood forming tissues Other acute effects

Non-Ionizing Radiation examples

Radio waves Microwaves Infrared Visible Light Ultraviolet

EM Spectrum from lowest to highest?

Radio waves (lowest) Microwaves Infrared Visible light Ultraviolet (UV) X-rays Gamma rays (highest)

Biological Factors: Chemical Agents

Radiosensitizers: Enhance effects [Methotrexate, actinomycin D, vit K.] Radioprotectors: decrease effects [superoxide dysmutase]

National Council on Radiation Protection & Measurements [NCRP] does what?

Recommends & communicates radiation protection policy in U.S. (Limitations on Dosage - but no dose limits set)

REM is?

Roentgen Equivalent Man

Please give the two 'Golden Rules of X-ray film processing.

Rule #1: *Standardize procedures* - lack of following a procedure increases the risk of poor quality film. Rule #2: *Keep darkroom & equipment clean* - ignored routine maintenance leads to poor quality film.

Guide shoe marks artifacts*

Run the length of the travel direction of the film, usually 1 inch apart. *Causes:* rough handling of rollers during cleaning, warped plastic rollers Lines are black = developer section Lines are white = fixer or wash

What pathologies are HARD to penetrate?

Sclerosis, DJD, paget's disease, metastatic bone disease, arthritis, bronchogenic carcinoma, pneumonia, edema, various bone and chest tumors. *Increase 4-6 kVp*

What are the three types of Film?

Screen Direct Exposure Duplicating Film

Secondary Protective Barrier

Secondary Wall - B, C, D Any wall in the exposure room NOT exposed to the primary beam Not all need to be leaded

Law of Tribondeau & Bergonie:

Sensitivity related to metabolic activity of tissue irradiated. younger tissue = greater sensitivity - higher metabolic rate - greater proliferation rate of cells - greater growth rate of tissues Differentiation level - how different the cell is from original shape - effect radiation sensitivity

Of the available darkroom doors which type is noted as the most feasible & cost effective?

Single Door.

What kind of focus is used for smaller, thinner, less dense body parts (small filament) (cerv. spine & extremities)

Small focus

Which type of X-ray is more apt to be absorbed in body tissue rather than penetrate through it?

Soft X-ray

SID stands for?

Source to Image-receptor Distance [FFD = Focal-spot to Film Distance (SID)]

SOD stands for?

Source to Object Distance

What are the 2 types of electricity?

Static Dynamic

X-rays that have energy of 50 - 110 keV and are used to treat superficial skin injuries and some types of CA and ringworm

Superficial

X-rays that have energy from 300 - 1000 keV and are used in radiation therapy to treat *carcinomas*

Supervoltage

Space charge is

The cloud of electrons at the filament circuit

What is radiographic technique?

The combination of *mA, time,* and *kVp* for a given FFD [SID] used to produce a diagnostic quality film.

The positive hump on the AC graph is created by

The electrons flying to the anode

Frequency

The number of cycles/second [cps or hertz (Hz)]

Inverse square law

The number of x-rays reaching the film is *inversely proportional* to the square of the distance from the source I= 1/d^2

Current is

The rate of flow of electrons; measured in Amp

Geometric Properties

The sharpness of detail in the image which is achieved by obtaining the maximum amount of "recorded detail" and minimizing the amount of "image distortion."

mAs is a combination of

Time in sec X mA (Ex. Exposure time = 0.5 sec, and 200 mA for lumbar spine --> 200mA x 0.5 sec= 100 mAs)

Static artifacts*

Tree like black jagged lines or smudges *Cause:* static in the dark room- NO CARPET!

High ratio grid is more effective in absorbing scattered radiation than the low ration one. However it requires higher mAs resulting in more patient dose. *T/F*

True

The first completely safe x-ray system was designed by Coolidge for use in dental machines in 1921...T/F?

True

An area of geometric sharpness?

Umbra

What causes electroplating of the internal components of the x-ray tube upsetting the electrical characteristics & leads to tube failure?

Vaporization

What is the formula for Voltage?

Voltage (v) = Current (I) x Resistance (R) - known as Ohm's Law

Energy of EM Radiation is characterized by?

Wavelength

LD 50/30: (Lethal Dose)

Whole body dose resulting in death of 50% of those irradiated within 30 days

EDL for Occupational Exposure

Whole body including radiosensitive organs [eyes, thyroid, breast, gonads, active bone marrow] = *50 mSv (5 rem) (annually)* - Skin, hands, and feet= *500 mSv (50 rem) (annually)*

Biological Factors: Gender

Women survive 5% - 10% *more* radiation than men

The faster the film/screen speed system, the more sensitive it is to

X-Ray density (Extremities - slow Spine - fast)

Radiation Cataracts:

X-rays & Gamma Rays minimum cataractogenic dose: - 200 - 500 rads single exposure. - > 1000 rads delivered over time (probably means intermittently). - Optic Lens - sensitive

1% of kinetic E of projectile electron is converted to?

X-rays (Not all of the X-rays are usable)

Curtain effect artifacts

Yellow, green, blue, purple runs. *Cause:* chemistry not being squeezed from film due to warped rollers or processor is running to slow.

Hypo/Hyporetention artifacts

Yellow/brown stains appear over time. *Cause:* not all of the (fixer) thiosulfate is removed in the wash. Wash water contaminated-not clean.

Exposure

a measure of the *strength* of a *radiation* field at some point *in air*

Roentgen (unit)

a measurement of X-ray or gamma ray exposure (intensity in air) (coulombs/ Kg)

REM was created because?

a universal absorption factor across all absorptions [used exclusively for radiation protection reporting of occupational exposures]

10-15% of beam consists of characteristic x-rays, 80-85% are Bremsstrahlung

above 70 kVp

Grid Conversions

actually a division factor then multiply by old mAs

negative of a really effective grid ?

actually absorbs "good" x-rays, creating a need for more/ higher energy X-rays - *increase pt radiation dose*

remnant radiation is what?

all radiation exiting the patient and heading towards the film - unabsorbed primary X-rays/ secondary rays/ scatter

air infused tissues allow the X-rays to do what?

almost complete penetration

what gives off a higher REM? X-ray of alpha particle?

alpha particle (20X that of x-ray)

radon radiation is in what form?

alpha particles - 2nd leading cause of lung cancer

Quantum detection Efficiency (QDE) of intensifying screens is what

amount of X-ray that can be absorbed and the amount of photons that can be emitted

electron binding energy is?

amount of energy required to overcome the electron binding force

Ci (Curie) unit quantifies?

amount of radioactivity given a certain sample

What attracts electrons from the cathode filament when the high voltage circuit is activated?

anode -positive electrode Two designs: -Stationary -Rotating

A manifestation seen on a film due to uneven exposure across the film is the _________________

anode heel effect - the lesser the anode angle the greater the heel effect

optimal kVp for cervical spine is?

around 70 kVp

where at sea level is cosmic radiation the most prevalent?

at the extreme poles of the earth (magnetic draw of the electromagnetic radiation) [Intensity increases 15% for every 50º increase in Latitude from the equator]

Bremsstrahlung interactions

b/t projectile *e- and nucleus* (+) - breaking/*slowing* down - *closer to nucleus* - loss of E is converted to X-Rays [stronger] - *farther*: less E loss [softer]

no characteristic x-rays are present in the beam, they are all [100%] Bemsstrahlung

below 70 kVp

The smaller the *effective* focal spot size, the _________________ ________________ of the radiograph

better quality

where are grids placed?

between the patient in the film

when an electron moves from an outer shell to an inner shell what happened to the energies?

binding energy: increases potential energy: decreases

what tissue has the most photoelectric effect in the body?

bone

negative of crossed pattern grids (perpendicular)?

cannot use tube tilt - cleans more scatter than linear

The intensity of the beam is greatest toward the?

cathode side.

what is the secondary radiation caused by photoelectric effect?

characteristic radiation

SuperTech is a type of?

chart with a slide rule device

explain Manifest Image in regard to X-ray Film Processing

chemical processing of the film - the build up of silver atoms is further developed into a silver grain that now becomes visible in the film as a tiny black grain of silver

kVp relative to Compton scatter?

controls balance b/t "Scatter & Absorption' - high kVp = less absorption [less PE] - more scatter [Compton effect]

what does a lot of scatter(Compton) do to a film?

creates fog and decreases contrast

Thick body part does what to density?

decrease film density = increase mAs.

attenuation is?

decrease in energy of the primary ray as it passes through the body

What should you do to mAs when using a new x-ray film and it is too dark [OD too high] on the same settings of the old film?

decrease mAs maintain kVp

Increase in SID does what to magnification?

decrease magnification

Overall, as kVp increases, Compton and PE do what?

decrease overall (less pt. dose)→ but relative portion of Compton scatter ↑ → decrease in contrast

To maintain density, Decreased distance (SID) requires?

decreased mAs

Absorption by heel of target results in?

decreased x-ray intensity on anode side of beam

As the target angle decreases, the effective focal spot size?

decreases

Decreased kVp does what to optical density?

decreases

Increased development time does what to contrast?

decreases contrast [BLUE]

increasing the focal film distance [SID] does what to the optical density?

decreases it (white)

Decrease in OID does what to magnification?

decreases magnification

A 15% decrease in kVp =

decreasing the OD by ½.

The *faster* the FILM/SCREEN speed system, the more sensitive it is to?

density

direct exposure films are used when?

dentistry, mammography, high detailed needs as in fascial bones

If there are more electrons attracted to the anode what is the speed?

e- move faster to anode

x-rays and gamma rays are what kind of radiation?

electromagnetic and ionizing

Static electricity:

electrons at rest building up on one object and transferring to another by *static discharge*

Dynamic electricity:

electrons in continuous motion in a circuit.

The cathode part of the X-ray Tube is the source of?

electrons to produce x-rays - has a filament and focusing cup

Projectile electrons are

electrons traveling from cathode to anode

photographically sensitive part of the composite film is?

emulsion (may be double sided or single sided)

single emulsion film and a single cassette are used for?

extremity films - gives high detail

what kind of tissues cause more scatter?

fat and water-based tissue

The __________________ in the Tube is a coil of thoriated tungsten wire 1.5-2 mm in diameter

filament [dual filaments: Large/Small]

mA Controlled by

filament circuit and controls how much current will flow into the filament, which is directly related to # of electrons at the filament

backscatter causes what?

film fog

film speed is aka?

film sensitivity

Lower energy x-rays are determined by

filtration used

Anode rotation allows for a continual cooler surface and a broader distribution ring of the focus beam called a?

focal track

most important device to reduce scatter?

grid: chiros usually use 10:1/ 12:1

narrow (short) latitude film is for what?

high contrast

Benefits of Tungsten Filaments (Cathode)

high melting point Atomic #74 does not vaporize easily

Film that is *too dark* has a

high optical density = over exposed = over penetrated.

In EM radiation, if you have shorter wavelength then you have _________________ energy

higher (higher frequency)

*mAs 50% rule*

if you need to seriously *darken or lighten a film* we need to either double mAs or reduce it by half

the greatest binding energy is found where?

in the K ring of the atom (closest)

Distortion in Shape is due to?

inaccurate alignment of the central ray with the part being imaged on the film. - elongation/foreshortening

*Compton scatter* is?

incident of X-ray interacting with the OUTER shell electrons THEN - *ends up deflecting* → lower energy [decreases image contrast]

Decreased development time does what to contrast?

increase contrast [RED]

Thinner body part does what to film density?

increase film density = decrease mAs.

Decrease in SID does what to magnification?

increase magnification

When you decrease the focal spot size you?***

increase sharpness & increase recorded detail

When you increase the focal spot size you?***

increase unsharpness & decrease in recorded detail

Slower film/screen speed correlates with a

increased mAs

To maintain density, Increased distance (SID) requires?

increased mAs

Increased kVp does what to optical density?

increases

decreasing the focal film distance [SID] does what to the optical density?

increases in density (black)

Increase in OID does what to magnification?

increases magnification

increased tissue thickness does what to the contrast?

increases scatter, decreases contrast

the reflective layer in intensifying screen does what?

increases speed

increasing the air gap does what to contrast?

increases, but causes magnification too

what radiation is more dangerous?

ionizing

particulate radiation and electromagneticradiation can be what 2 kinds?

ionizing and non-ionizing

Pulsating Direct Current

is not maintained consistently as voltage rises and falls - xray tube uses direct current

characteristic radiation is?

is the radiation released when an *outer shell electron falls into an inner shell* spot after that one has been *ejected* - the amount is the difference between the two energies

main controller of radiographic contrast?

kVp

The only factor that controls quality of beam =

kVp We want to keep kVp constant and play with mVp

Line-voltage Compensator LVC deals with?

keeps voltage consistent - Adjust voltage to precisely to 220V - Incoming voltage varies by as much as 5% up to 10% by law - Automatic in newer machines

ionizing radiation has the ability to do what?

knock out an orbiting electron Causing an imbalance in the atoms number of electrons or ionizing it.

The larger the *actual* focal spot size, the _______________ the effective focal spot size

larger

Aperture Diaphragm is a?

lead Collar placed over the Port area directly on the housing. Disadvantages: limited sizes; large penumbra effect

Soft X-rays are

less penetrating - longer wavelength & lower energy - less frequency & low energy

Small focus results in?

less penumbra and better detail

The tighter the collimation (smaller field of exposure) →

less scatter → better (increased) image contrast

All forms of Electromagnetic Radiation travel at the speed of?

light (C)

Thermoluminescent dosimeter (TLD)

lithium/calcium in plastic holder crystals heated - visible light indicates incident dose Pro: sensitive, low as 5mR, worn up 3mths, *Reusable* Con: Cost, once read info lost [no record], recalibrated each use

film that is *too light* has a

low optical density = under exposed = under penetrated. [increases mAs]

In EM radiation, if you have longer wavelength then you have __________________ energy

lower (less frequency)

Higher contrast (short gray scale) =

lower kVp - higher patient dose, but less Compton scatter

mA x time (second) = ?

mAs

Main controlling factor for the optic density of a film?

mAs (milliamperes and time)

With Grid & Density; Adding, removing or changing grids requires an adjustment in the

mAs to maintain density. if grid removed = decrease mAs

leading dose of X-rays to the bone marrow in people per year?

medical x-rays

all influencing factors on contrast are attempting to do what?

minimize scatter

The focusing cup around the filament in the x-ray tube is made of?

molybdenum - is negatively charged to condense the electron stream before it travels across the tube to the target

higher speed film allows for?

more absorption/ contrast and less time

Hard X-rays are

more penetrating - short wavelength & high energy - more frequency & high energy

Large focus results in?

more penumbra and less detail

*Screen film*

most common film in *medical imaging*, minimal pt exposure - usually double emulsion

do grids decrease patient radiation dose?

no

classic scatter on image quality is what?

no significant impact

Electromagnetic Radiation (EM) characteristics

not particles - bundles (photons) speed of light electrical/magnetic properties ionizing/non-ionizing no weight/charge

Law of Electrostatics

opposite charges attract & like charges repel - causes a centripetal force or (pulling) binding together = binding force

Resistance is the?

opposition to electron flow and is measured by Ohm - Insulators resist the flow - Conductors allow for easy flow

With Optical Density, kVp changes both?

optical density and quality (contrast) of the image

mAs with OD refers to the?

overall blackening (darkness) of the finished radiograph.

Particulate Radiation characteristics

particles all less than light speed arise from decay of radioactive atom ionizing/non-ionizing mass possibly charge

difference between particulate and electromagnetic radiation?

particulate has mass and may have charge

recumbent radiography and tissue compression devices reduce scatter how?

patient is either lying [flatten] or they are strapped to the buckey as to prevent motion and therefore scatter -compression bands

photoelectric effect contributes to what?

patient's total x-ray dose

Differential Absorption occurs because of the?

photoelectric effect [determines subject contrast on film]

electromagnetic radiation releases what?

photons of light

X-rays produced by an X-ray machine are

polychromatic

internal radiation sources?

potassium-40, carbon-14 from birth

Energy at rest

potential energy

mAs determines

quantity of x-rays [exposure Intensity] More mAs = more projectile electrons = more x-ray beams

greatest radiation source in the world?

radon gas

Current is the

rate of flow of electrons and is measured as Ampere (Amp) - 1 Amp = 1000 mA (milliampere)

Uniform Direct Current

remains continuous at peak voltage Batteries

scatter radiation is aka ?

secondary radiation

photoactive ingredient in the *emulsion layer* is ?

silver halides Silver Halides composition of X-ray Film: - *Silver bromide (AgBr)* - 90 to 99% - Silver iodide (Agl) - 1 to10% - Crystal form

In reality, the actual focal spot size is determined by the?

size of the filament [w/ angle of the target remains constant]

differential absorption

some x-ray *absorbed* in tissue and some will *pass thru* the body

cosmic radiation comes from?

space

*focused grids* must be used how?

specific focal film *distances*

spectral response to a film is referring to?

spectrum of light that is able to be absorbed

Wavelength

straight line distance of travel of one cycle

explain Latent Image in regard to X-ray Film Processing

the *undetectable change induced in the silver halide crystals* [metallic silver] - chemically processed -> Manifest Image

detector contrast is ?

the amount of contrast absorbed by the film

Intensifying screen speed is?

the amount of light photons emitted per time of exposure

Absorbed Dose

the amount of radiation absorbed by and object.

subject contrast is?

the amount of radiation absorbed by the pt

film speed is determined by ?

the amount of silver halide in the emulsion

photoelectric effect is what?

the complete absorption of an X-ray by the body (pt. dose), causing a free electron because it knocks one out of another atom

Higher energy x-rays are determined by

the kVp (kilovolt peak) as set on the Control Console.

[Terrestrial] Radon comes from?

the natural decay of uranium ordorless/tasteless

Manual Collimator beam limitation is done by?

the operator with knobs with no automatic "exposure hold" in case you forget to collimate

film latitude is?

the spectrum of rays a film can absorb

99% of kinetic E of projectile electrons is converted to?

thermal E (called Anode Heel)

Sufficient heat causes the outer shell of electrons of the tungsten to release or boil off in the filament...this is called?

thermionic emission

what are grids used for?

they are used to *decrease scatter* - made up of lead foil strips

lead vinyl blockers reduce scatter how?

they cover the part of the film that isn't in the image, it is used in extremity films

When X-raying a body part that varies in thickness, we want the anode side of the tube toward the?

thinner body area (anode = thinner body area)

Total electrical load applied to an anode is limited based on the?

tube's heat rating

Pocket dosimeter (hospital setting)

used in higher radiation area for immediate feedback, pencil shaped Pro: monitor shorter exposure periods, immediate readout, reusable, accurate Con: expensive, records need to be maintained daily, no permanent record, units can discharge - give false readings

Radiographic Contrast is the

variation in densities on the radiograph

Filters are used to remove the

very low energy, long wavelength, soft x-rays [These x-rays are too low energy to penetrate the patient and expose the film]

how do we increase Bremsstrahlung interactions?

we increase the kVp - higher avg. E - more x-ray photons (attracting more e-)

scatter radiation is?

when primary radiation is deflected and changes course

grid cut off is?

when the primary ray gets absorbed - decreases contrast of image

secondary radiation is?

when the primary ray interacts with matter creating a new electromagnetic ray

will a wide or a small field give more scatter?

wider field = more scatter

Anode Heel Effect

x-rays produced from the *anode side* of the target must go through a greater thickness of target material = decrease in the intensity of the x-ray beam on the anode side of the tube

Primary Radiation are

x-rays produced in & emitted from x-ray tube

If you increase the filament current [mA] what does ot do to the space charge?

↑ space charge →↑ in # of electrons to the anode. - Size of space charge ↑ in larger filament → can produce larger space charge → More X-rays

too high of a kVp will do what to the contrast of the film?

→ low PE → Low patient dose → low image contrast

too low of a kVp will do what to the contrast of the film?

→ more PE → High patient dose , but improves subject contrast due to less scatter & more differential absorption.