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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. Reproductive (ova - sperm). Effects are passed on to generations. Genetic damage cannot be repaired
Radiosensitive cells
Inherent filtration
Fixer Solution
Genetic cells

2. 68 Degrees F
Radiosensitive cells
Median palatine suture
Added filtration
The optimum temperature for manual processing?

3. Coulombs per kilogram
Step-Down Transformer
Roentgen
Amount of tissue irradiated
Milliamperage adjustment

4. Cortical bone; J or U shaped radiopacity
Hamulus
Density
Zygomatic process of maxilla
Submandibular Fossa

5. Bony wall that divides 2 spaces - radiopaque
Suture
Submandibular Fossa
Septum
Rem (Roentgen equivalent (in) man)

6. 'Cheekbone'; cortical bone; radiopaque band extending from zygomatic process.
Floor of Nasal Cavity
Zygoma
Incisive (Nasopalatine) Foramen
Septa within maxillary sinus

7. Occurs very little; most photons pass through cell with little or no damage
Rad (Radiation absorbed dose)
Inverted Y
Roentgen
Direct Injury

8. Thin - curved areas of bone - radiopacities within nasal cavity and septum
Inferior Nasal Conchae
Septum
Internal Oblique Ridge
Radiosensitive cells

9. Used to increase incoming voltage to 65 -000 to 100 -000 volts used by the high-voltage circuit.
Step-Up Transformer
Nonthreshold dose-response curve
The conditions required for the darkroom
Coherent Scatter

10. Posterior to mandibular third molar
Conical PID
Kilovoltage peak adjustment
Anterior Nasal Spine
Ramus

11. Depression of bone; submandibular salivary gland found here; radiolucent; below mylohyoid ridge
Indirect injury
Genial Tubercles
Cortical Bone
Submandibular Fossa

12. Cortical bone - radiopaque band above maxillary incisors
Floor of Nasal Cavity
Process
Genial Tubercles
Maxillary Tuberosity

13. Suggest that no matter how small the amount of radiation received - some biologic damage occurs.
Alveolar Process
Periodontal Ligament Space
Cancellous
Nonthreshold dose-response curve

14. Encases/supports teeth
Anterior Nasal Spine
Alveolar Process
Hamulus
Inferior Nasal Conchae

15. Sharp - thornlike projection that appears radiopaque.
Spine
Hamulus
Contrast
Long-term effects

16. Can control the current passing from the cathode to the anode.
Spine
Radiosensitive cells
Kilovoltage peak adjustment
Mylohyoid Ridge

17. Within maxillary sinus; acts as a division - radiopaque lines sometimes not visible
Septa within maxillary sinus
Dose Rate
Periodontal Ligament Space
Indirect injury

18. 16-20 square feet (at least 4x4) - Light tight - Safelight must be at least 4 feet from the working area
The conditions required for the darkroom
Canal
Secondary Radiation
Cortical Bone

19. 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
Density
Coherent Scatter
External Oblique Ridge

20. Gray
Nutrient Canals
General Radiation
Tubercle
Rad (Radiation absorbed dose)

21. Reduces exposed silver halide crystals into black metallic silver a makes dark/black areas on film; unexposed silver halide crystals are unaffected by developer
Developer Solution
Latent Period
Total dose
Alveolar Crest

22. Internal ridge of mandible muscle attachment - continuous with internal oblique ridge; radiopaque line
Indirect injury
Mylohyoid Ridge
Tuberosity
Cancellous

23. X-radiation created when the primary beam interacts with a matter
Secondary Radiation
Periodontal Ligament Space
Total (inherent + added) filtration
Zygoma

24. Located above maxillary premolar/molar teeth - border is made up of cortical bone; sinus cavity is radiolucent compartment
Median palatine suture
Incisive (Nasopalatine) Foramen
Alveolar Process
Maxillary sinus

25. Intersection of maxillary sinus and nasal cavity - radiopaque - cortical bone; above maxillary canine.
Inverted Y
Tubercle
Lateral Fossa
Nonthreshold dose-response curve

26. U-shaped portion extending from ramus to ramus
Nasal Cavity/Fossa
Median palatine suture
Body of Mandible
Anterior Nasal Spine

27. Surrounds root - cortical bone - radiopaque
Suture
Rectangular and round PID
Short-term effects
Lamina Dura

28. Removes unexposed silver halide crystals and creates white/clear areas on film; black metallic silver remains on film.
Step-Down Transformer
Developer Solution
Fixer Solution
Scatter Radiation

29. 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.
Nutrient Canals
Total (inherent + added) filtration
Short-term effects
Dose Rate

30. Surrounded by genial tubercle - hole in bone near mandibular midline - radiolucent
Spine
Developer Solution
Step-Up Transformer
Lingual Foramen

31. Rounded prominence that appears radiopaque
Mandibular Canal
Genetic cells
Tuberosity
Step-Down Transformer

32. Two small openings (radiolucent) found on floor of nasal cavity->common exit is incisive foramen
Superior Foramina of incisive canal
Step-Up Transformer
Mylohyoid Ridge
Lamina Dura

33. Tube that passes through bone - contains nerve canals/blood vessels/and appears radiolucent
Internal Oblique Ridge
Canal
Genetic cells
Submandibular Fossa

34. Mature bone - muscle - nerve
Radioresistant cells
Somatic cells
Stochastic effects
Radiosensitive cells

35. Closed - pointed cone-high production of scatter - not used any longer.
Nonstochastic (deterministic) effects
Developer Solution
Process
Conical PID

36. Coronal part of alveolar bone - between teeth - cortical bone - radiopaque
Latent Period
Mylohyoid Ridge
Primary Radiation
Alveolar Crest

37. Mostly seen in mandibular nerve/blood supply vertical radiolucent lines
Cancellous
Mental Foramen
Nutrient Canals
Lateral Fossa

38. Extends from alveolar bone between maxillary centrals to posterior hard palate; seen as a radiolucent line
Periodontal Ligament Space
Median palatine suture
Ramus
Density

39. 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)
Kilovoltage peak adjustment
Dose Rate
Contrast
Tuberosity

40. Darkness or blackness on film. If kVp is increased film will be darker. If decreased - film will be lighter
Amperage
Tubercle
Superior Foramina of incisive canal
Density

41. Located at the midline of anterior portion of hard palate behind maxillary central incisors; round radiolucency between roots of centrals
Internal Oblique Ridge
Incisive (Nasopalatine) Foramen
Latent Period
Mylohyoid Ridge

42. Tube that travels length of mandible - radiolucent; has cortical walls - houses inferior alveolar nerve
Nutrient Canals
Mental Foramen
Mandibular Canal
Incisive (Nasopalatine) Foramen

43. Occurs frequently due to the high concentration of water in cells.
Rem (Roentgen equivalent (in) man)
Indirect injury
Septum
Developer Solution

44. Somatic effects that have a threshold; effects increase in severity with increasing absorbed dose. (Examples: Erythema - loss of hair - cataracts - and decreased fertility)
Nonstochastic (deterministic) effects
Sinus
Genetic cells
Lamina Dura

45. Used to decrease voltage from the incoming 110- or 220-line voltage to the 3 to 5 volts used by the filament circuit.
Voltage
Alveolar Crest
Nutrient Canals
Step-Down Transformer

46. Bony prominence posterior to maxillary third molar; radiopaque
Free Radical Formation
Zygoma
Maxillary Tuberosity
Nonstochastic (deterministic) effects

47. Effects seen years - decades - or generations later
Incisive (Nasopalatine) Foramen
Long-term effects
Genetic cells
Direct Injury

48. Superior to internal oblique ridge; anterior border of ramus ends in external oblique ridge; radiopaque band
Milliamperage adjustment
Radioresistant cells
External Oblique Ridge
Cell sensitivity

49. Continues from ramus; radiopaque band
Rad (Radiation absorbed dose)
Latent Period
Maxillary sinus
Internal Oblique Ridge

50. Cell damage occurs through formation of 'free radicals'. Free radicals are formed when an x-ray photon ionizes water.
Free Radical Formation
Developer Solution
Canal
Radioresistant cells