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Radiology 3

Subjects : health-sciences, radiology

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Within maxillary sinus; acts as a division - radiopaque lines sometimes not visible
Ridge
Characteristic Radiation
Voltage
Septa within maxillary sinus

2. Gray
Milliamperage adjustment
Rad (Radiation absorbed dose)
Lateral Fossa
Dose Rate

3. 'Cheekbone'; cortical bone; radiopaque band extending from zygomatic process.
Cell sensitivity
Hamulus
Zygoma
Mandibular Canal

4. Quantity of radiation received or total amount absorbed (more damage with tissue absorbing large quantities of radiation)
Total dose
Stochastic effects
Inferior Nasal Conchae
Periodontal Ligament Space

5. An x-ray photon that has its path altered by matter.
Lingual Foramen
Rad (Radiation absorbed dose)
Maxillary sinus
Coherent Scatter

6. Tubes within maxillary sinus that carry nerves - blood supply - radiolucent band with boundary of two radiopaque cortical bony lines
Coherent Scatter
Nutrient Canals
Coronoid Process
Somatic cells

7. Coronal part of alveolar bone - between teeth - cortical bone - radiopaque
Voltage
Alveolar Crest
Suture
Tuberosity

8. Sievart
Lamina Dura
Ridge
Lateral Fossa
Rem (Roentgen equivalent (in) man)

9. The penetrating x-ray beam that is produced at the target of the anode
Median palatine suture
Added filtration
Primary Radiation
Rem (Roentgen equivalent (in) man)

10. Used to increase incoming voltage to 65 -000 to 100 -000 volts used by the high-voltage circuit.
Lateral Fossa
Step-Up Transformer
Ramus
Alveolar Process

11. A direct function of the dose. No dose threshold; effects do not depend on the magnitude of the absorbed dose (Examples: cancer and genetic mutations)
Stochastic effects
Lingual Foramen
Genetic cells
Scatter Radiation

12. Opening/hole in bone that allows the passage of blood vessels/nerves and appears radiolucent
Secondary Radiation
Characteristic Radiation
Foramen
Stochastic effects

13. Cortical bone; J or U shaped radiopacity
Zygomatic process of maxilla
Incisive (Nasopalatine) Foramen
Cancellous
Mental Foramen

14. Occurs frequently due to the high concentration of water in cells.
Alveolar Process
Maxillary Tuberosity
The conditions required for the darkroom
Indirect injury

15. A line of union between adjoining bones - found only in skull; appears as radiolucent line
Suture
Compton Scatter
Mental Foramen
Superior Foramina of incisive canal

16. Sharper of dark and light areas and how they are separated on film. Low kVp results in high contrast (many white and black areas - very little gray). Useful when diagnosing decay. High kVp results in low contrast (many shades of grade) Useful for per
Contrast
Nasal Cavity/Fossa
Amperage
Cortical Bone

17. Hollow space - cavity that appears radiolucent
Sinus
Compton Scatter
Lamina Dura
Kilovoltage peak adjustment

18. Aluminum disks between collimator and tubehead seal. Aluminum disks filter long wavelength - low energy x-rays from x-ray beam. 0.5 mm increments
Conical PID
Added filtration
Ramus
Nonthreshold dose-response curve

19. Effects seen years - decades - or generations later
Indirect injury
Coronoid Process
Collimation
Long-term effects

20. Anterior ramus of mandible; attachment for muscle of mastication; superimposed around maxillary tuberosity.
Nutrient Canals
Coronoid Process
Superior Foramina of incisive canal
Zygomatic process of maxilla

21. Rounded prominence that appears radiopaque
Amount of tissue irradiated
Compton Scatter
Tuberosity
Nonthreshold dose-response curve

22. Bump of bone - muscle attachment; lingual aspect of mandible - 'ring shaped' radiopacitiy below mandibular incisors.
Genial Tubercles
Maxillary Tuberosity
Voltage
Cell sensitivity

23. Internal ridge of mandible muscle attachment - continuous with internal oblique ridge; radiopaque line
Nonthreshold dose-response curve
Rem (Roentgen equivalent (in) man)
Anterior Nasal Spine
Mylohyoid Ridge

24. Mature bone - muscle - nerve
Long-term effects
Alveolar Crest
Radioresistant cells
Collimation

25. 'hooklike' - posterior to maxillary tuberosity; extension of medial pterygoid plate of sphenoid bone; radiopaque
Milliamperage adjustment
Hamulus
Somatic cells
Lingual Foramen

26. Marked prominence that appears radiopaque.
General Radiation
Direct Injury
Canal
Process

27. 16-20 square feet (at least 4x4) - Light tight - Safelight must be at least 4 feet from the working area
Rad (Radiation absorbed dose)
Alveolar Crest
Conical PID
The conditions required for the darkroom

28. Small lymphocyte - bone marrow - reproductive cells - immature bone
Zygoma
Hamulus
Tubercle
Radiosensitive cells

29. Surrounds root - cortical bone - radiopaque
Lamina Dura
Anterior Nasal Spine
Step-Up Transformer
Sinus

30. Bony wall that divides 2 spaces - radiopaque
Septum
Maxillary sinus
Secondary Radiation
General Radiation

31. Continues from ramus; radiopaque band
Zygomatic process of maxilla
Free Radical Formation
Internal Oblique Ridge
Collimation

32. Coulombs per kilogram
Mandibular Canal
Contrast
Dose Rate
Roentgen

33. Between canine and lateral incisor - depression is not always visible - radiolucent
Developer Solution
Added filtration
Lateral Fossa
Process

34. Bony prominence posterior to maxillary third molar; radiopaque
Ridge
Total (inherent + added) filtration
General Radiation
Maxillary Tuberosity

35. Tube that travels length of mandible - radiolucent; has cortical walls - houses inferior alveolar nerve
Mandibular Canal
Hamulus
Cancellous
Kilovoltage peak adjustment

36. Extends from alveolar bone between maxillary centrals to posterior hard palate; seen as a radiolucent line
Somatic cells
Cortical Bone
Median palatine suture
Genial Tubercles

37. Dental x-ray machines operating 70 kVp or below: minimum 1.5 mm aluminum filtration - Dental x-ray machines operating above 70 kVp: minimum of 2.5 mm. of aluminum filtration.
Rem (Roentgen equivalent (in) man)
Floor of Nasal Cavity
Total (inherent + added) filtration
Tubercle

38. Cell damage occurs through formation of 'free radicals'. Free radicals are formed when an x-ray photon ionizes water.
Total dose
Radioresistant cells
Free Radical Formation
Cancellous

39. 'Cortex'-> dense - outer layer; also called compact bone-appears radiopaque on film
The optimum temperature for manual processing?
Spine
Rectangular and round PID
Cortical Bone

40. All cells except reproductive; effects are seen in person irradiated
Somatic cells
Amperage
Nutrient Canals
Nonthreshold dose-response curve

41. Area of body exposed total body produced more adverse effects
Amount of tissue irradiated
Alveolar Process
Lingual Foramen
Contrast

42. Darkness or blackness on film. If kVp is increased film will be darker. If decreased - film will be lighter
Rad (Radiation absorbed dose)
Density
Rem (Roentgen equivalent (in) man)
Short-term effects

43. Closed - pointed cone-high production of scatter - not used any longer.
Maxillary Tuberosity
Periodontal Ligament Space
Conical PID
Hamulus

44. Reduces exposed silver halide crystals into black metallic silver a makes dark/black areas on film; unexposed silver halide crystals are unaffected by developer
Alveolar Process
Lingual Foramen
Developer Solution
Mandibular Canal

45. Do not occur in dentistry
Body of Mandible
Short-term effects
Zygomatic process of maxilla
Cell sensitivity

46. Primary beam passes through glass window - insulating oil - tubehead seal. 0.5 to 1.0 mm of aluminum
Inherent filtration
Amount of tissue irradiated
Long-term effects
Conical PID

47. Superior to internal oblique ridge; anterior border of ramus ends in external oblique ridge; radiopaque band
Amount of tissue irradiated
Secondary Radiation
Internal Oblique Ridge
External Oblique Ridge

48. Rate which exposure to radiation occurs and absorption occurs (more damage occurs with high dose due to rapid delivery and does not allow for repair)
Dose Rate
Median palatine suture
Radiosensitive cells
Roentgen

49. Linear prominence that appears radiopaque.
Nonthreshold dose-response curve
Ridge
Hamulus
Stochastic effects

50. Scooped out of depressed area of bone that appears radiolucent
Rem (Roentgen equivalent (in) man)
Roentgen
Fossa
Nonthreshold dose-response curve