Dental Radiography Principals And Techniques 5th Edition By Iannucci DDS MS – Test Bank

Complete Test Bank With Answers

Sample Questions Posted Below

Chapter 05: Radiation Protection

Iannucci: Dental Radiography, 5th Edition

MULTIPLE CHOICE

1.Which of the following should you do prior to taking x-rays to protect your patient from radiation exposure?

ANS: B

Proper film processing is an example of a patient protection technique used after x-ray exposure. Proper prescribing of radiographs is an example of a patient protection technique used before x-ray exposure. A lead apron is an example of a patient protection technique used during x-ray exposure. A thyroid collar is an example of a patient protection technique used during x-ray exposure.

DIF:ApplicationREF:Page 42OBJ:2

TOP: CDA, RHS, III.C.3. Identify ways to reduce x-radiation exposure to patients (ALARA)

MSC:NBDHE, 2.2 Principles of radiologic health

2.The “Guidelines for Prescribing Dental Radiographs” state that

ANS: D

Dentulous adult recall patients at increased risk for caries should have posterior bite-wing examinations at 6- to 18-month intervals. The recommendations for prescribing radiographs do not need to be altered for pregnancy. Edentulous adults do not need bite-wing radiographs. The “Guidelines for Prescribing Dental Radiographs” state that dentulous adult recall patients who are not at increased risk for caries should have posterior bite-wing examinations at 24- to 36-month intervals.

DIF:RecallREF:Page 44OBJ:9

TOP: CDA, RHS, III.A. Identify current ADA guidelines for frequency of exposure to radiation

MSC:NBDHE, 2.2 Principles of radiologic health

3.Inherent filtration in the dental x-ray tubehead

ANS: A

Inherent filtration in the dental x-ray tubehead includes filtration that takes place when the primary beam passes through the glass window of the x-ray tube, the insulating oil, and the tubehead seal. Added filtration includes the placement of aluminum discs in the path of the x-ray beam between the collimator and the tubehead seal. Inherent filtration alone does not meet the standards regulated by state and federal law. Inherent filtration is equivalent to approximately 0.5 to 1.0 mm of aluminum.

DIF:RecallREF:Page 42OBJ:3

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

4.Added filtration in the dental x-ray tubehead

ANS: D

Refers to the placement of aluminum discs in the path of the x-ray beam between the collimator and the tubehead seal. Filters out longer wavelength x-rays from the x-ray beam. Results in a higher energy beam. Added filtration in the dental x-ray tubehead results in a more penetrating useful beam.

DIF:RecallREF:Page 43OBJ:3

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

5.State and federal laws require that dental x-ray machines operating above 70 kVp have a minimum total (inherent plus added filtration) of ____ mm of aluminum filtration.

ANS: C

State and federal laws require that dental x-ray machines operating above 70 kVp have a minimum total (inherent plus added filtration) of 2.5 mm of aluminum filtration.

DIF:RecallREF:Page 43OBJ:3

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

6.The collimator ____________

ANS: B

The collimator may have either a round or a rectangular opening. The collimator restricts the size and shape of the x-ray beam. The collimator is a lead plate; the filter is aluminum. The collimator is fitted directly over the opening of the machine housing where the x-ray beam exits the tubehead.

DIF:RecallREF:Page 43OBJ:4

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

7.A circular collimator produces a cone-shaped beam that is __________ inch(es) in diameter.

ANS: C

A circular collimator produces a cone-shaped beam that is 2.75 inches in diameter.

DIF:RecallREF:Page 43OBJ:4

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

8.A rectangular collimator

ANS: C

A rectangular collimator restricts the size of the x-ray beam more than a circular collimator, but not 3 times. A rectangular collimator restricts the beam more than a circular collimator. A rectangular collimator significantly reduces patient exposure. A rectangular collimator is slightly larger than a size 2 intraoral receptor.

DIF: Comprehension REF: Page 46 OBJ: 4

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

9.Which of the following types of position-indicating devices (PIDs) produces scatter radiation?

ANS: D

Rectangular PIDs do not produce scatter radiation. Conical PIDs do produce scatter radiation. Round PIDs do not produce scatter radiation PIDs are not square. Rectangular and round PIDs do not produce scatter radiation.

DIF:RecallREF:Page 43OBJ:5

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

10.Which type of PID would be most effective in reducing patient exposure?

ANS: D

A conical PID would be least effective in reducing patient exposure. A 16-inch round PID would not be as effective in reducing patient exposure as a 16-inch rectangular PID. An 8-inch rectangular PID would not be as effective as a 16-inch rectangular PID in reducing patient exposure. A 16-inch rectangular PID would be most effective in reducing patient exposure.

DIF:RecallREF:Page 47OBJ:5

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

11.The thyroid collar

ANS: A

A thyroid collar is recommended for all intraoral exposures. The thyroid collar is not recommended for extraoral exposures. The lead apron is placed over the patient’s chest and lap; the thyroid collar, if attached, extends to protect the thyroid. The lead apron with the thyroid collar is recommended for both intraoral and extraoral exposures. The lead apron without the thyroid collar is used for extraoral exposures.

DIF:RecallREF:Page 47OBJ:5

TOP: CDA, RHS, III.C.3. Identify ways to reduce x-radiation exposure to patients (ALARA)

MSC:NBDHE, 2.2 Principles of radiologic health

12.The lead apron

ANS: A

The lead apron is recommended for intraoral exposures (and extraoral films as well). The lead apron is recommended for extraoral exposures. The lead apron is not an option; many state laws mandate the use of a lead apron on all patients. The thyroid collar is used to protect the thyroid gland.

DIF:RecallREF:Page 47OBJ:5

TOP: CDA, RHS, III.C.3. Identify ways to reduce x-radiation exposure to patients (ALARA)

MSC:NBDHE, 2.2 Principles of radiologic health

13.____-speed film is currently the fastest intraoral film available.

ANS: C

D-speed film (ultra-speed) is the oldest and slowest intraoral film available. E-speed film (ekta-speed) is faster than D-speed film but slower than F-speed film. F-speed film is currently the fastest intraoral film available. G-speed film does not exist at this time.

DIF:RecallREF:Page 47OBJ:5

TOP: CDA, RHS, III.C.3. Identify ways to reduce x-radiation exposure to patients (ALARA)

MSC:NBDHE, 2.2 Principles of radiologic health

14.On some dental x-ray machines, only the ____________ can be altered; the other parameters are preset by the manufacturer.

ANS: B

On some dental x-ray machines, only the exposure time can be altered; the kilovoltage is preset by the manufacturer; the other parameters are preset by the manufacturer; the PID length is determined by the manufacturer; the milliamperage is preset by the manufacturer.

DIF: Comprehension REF: Page 48 OBJ: 5

TOP:CDA, RHS, III.B.3. Demonstrate understanding of x-ray machine factors that influence radiation safetyMSC:NBDHE, 2.2 Principles of radiologic health

15.Which of the following can you do after x-ray receptor exposure to reduce(s) the amount of x-radiation your patient receives?

ANS: C

Proper placement of the lead apron protects the patient during x-ray exposure. Proper image retrieval or receptor processing reduces the amount of x-radiation a patient would receive from retakes. Proper instrument technique reduces the amount of x-radiation a patient receives during x-ray exposure. Selecting proper exposure settings limits the amount of x-radiation a patient receives.

DIF: Comprehension REF: Page 48 OBJ: 6

TOP:CDA, RHS, I.B.2. Demonstrate basic knowledge of digital radiography | CDA, RHS, I.B.3. Demonstrate basic knowledge of conventional film processing

MSC:NBDHE, 2.2 Principles of radiologic health

16.The primary dictum of operator protection guidelines is that the operator must

ANS: B

The operator must stand at least 6 feet away from the x-ray tubehead during x-ray exposure. The primary dictum of operator protection guidelines is that the operator must avoid the primary beam. The operator must never hold a receptor in place for a patient during x-ray exposure. The dental radiographer must never hold the tubehead during x-ray exposure.

DIF: Comprehension REF: Page 48 OBJ: 7

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

17.In order to avoid the primary beam while taking dental images, you should stand at a ____-degree to ____-degree angle to the beam.

ANS: C

To avoid the primary beam, the dental radiographer must be positioned at a 90-degree to 135-degree angle to the beam.

DIF: Comprehension REF: Page 49 OBJ: 7

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

18.Radiation monitoring can be used to protect the dental radiographer and includes monitoring of

ANS: C

Choice a is true, but choice b is also correct. Choice b is true, but choice c is also correct. Radiation monitoring can be used to protect the dental radiographer and includes monitoring of both equipment and personnel; however, drywall is not monitored for residual radiation because residual radiation does not exist.

DIF:RecallREF:Page 49OBJ:8

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

19.A film badge

ANS: B

A film badge is worn at waist level by the operator, not the patient. A film badge is worn close to the critical reproductive organs at waist level by the operator. A film badge is worn at waist level by the operator, not clipped to the shirt pocket of the patient.

DIF: Comprehension REF: Page 49 OBJ: 8

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

20.(1) Radiation legislation varies greatly from state to state. (2) For example, in some states a dental radiographer must successfully complete a radiation safety examination before he or she may expose dental x-rays.

ANS: A

Radiation legislation varies greatly from state to state. For example, in some states a dental radiographer must successfully complete a radiation safety examination before he or she may expose dental x-rays.

DIF:RecallREF:Page 50OBJ:9

TOP: CDA, RHS, III.B. Apply the principles of radiation protection and hazards in the operation of radiographic equipment MSC: NBDHE, 2.2 Principles of radiologic health

21.According to the current recommendations (2003) of the National Council on Radiation Protection and Measurements, the current MPD for occupationally exposed persons is ___________/year.

ANS: B

The current MPD for occupationally exposed persons is 5.0 rem/year. According to the current recommendations (2003) of the National Council on Radiation Protection and Measurements, the current MPD for occupationally exposed persons is 5.0 rem/year.

DIF:RecallREF:Page 50OBJ:9

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

22.According to the current recommendations (2003) of the National Council on Radiation Protection and Measurements, the current MPD for an occupationally exposed pregnant women is the equivalent of

ANS: C

It is recommended that dental radiographers not exceed a maximum dose of 50 mSv in any 1 year. For pregnant dental personnel, the radiation exposure limit is 0.5 mSv per month during the pregnancy months. For nonoccupationally exposed persons (i.e., the general public), the current MPD is approximately 1 mSv/year (0.1 rem/year).

DIF:RecallREF:Page 50OBJ:9

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

23.The acronym for the maximum dose permitted in a year is

ANS: A

MPD is the acronym for the maximum dose equivalent that a body is permitted to receive within a year. The MPD is the dose of radiation that the body can endure with little or no injury. The acronym for the permitted lifetime accumulated dose is MAD—maximum accumulated dose, now known as cumulative occupational dose.

DIF: Comprehension REF: Page 50 OBJ: 9

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

24.The ALARA concept states that all radiation must be kept

ANS: C

The ALARA concept states that all radiation must be kept as low as reasonably achievable.

DIF:RecallREF:Page 50OBJ:9

TOP: CDA, RHS, III.C.3. Identify ways to reduce x-radiation exposure to patients (ALARA)

MSC:NBDHE, 2.2 Principles of radiologic health

25.You are in charge of monitoring the film badges. Film badges are checked on a quarterly basis. Your co-worker is 4 months pregnant. The badge registered 5.0 Sv for the previous quarter. Based on the National Council on Radiation Protection and Measurements (NCRP), what information should you give the dentist?

ANS: D

For pregnant dental personnel, the radiation exposure limit is 0.5 mSv per month during the pregnancy months.

DIF:ApplicationREF:Page 50OBJ:9

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

26.You are 36 years old. What is your cumulative occupational dose recommended by the National Council on Radiation Protection and Measurements (NCRP)?

ANS: B

The NCRP has recommended that an individual’s cumulative occupational effective dose not exceed the worker’s age multiplied by 10 mSv.

DIF:ApplicationREF:Page 50OBJ:9

TOP: CDA, RHS, III.E.2. Identify safety measures to reduce operator x-radiation

MSC:NBDHE, 2.2 Principles of radiologic health

27.Your patient is a 5-year-old boy who you have been seeing since he was 3 years old. He is always eating candy and drinking cola beverages. Six months ago he had A, J, and T restored. One year ago he had B, I, and L restored. Which of the following should you do regarding taking radiographs?

ANS: D

Based on the “Guidelines for Prescribing Dental Radiographs”, children at risk for caries should have a bite-wing and/or occlusal radiographic examination at 6- to 12-month intervals. Based on the previous incidence of decay, dental images would be warranted. Although the “Guidelines for Prescribing Dental Radiographs” for children at risk for caries suggest a bite-wing and/or occlusal radiographic examination at 6- to 12-month intervals, based on the two previous incidences of decay, dental images at the preceding 6 month appointments, a 6-month interval would be warranted. The “Guidelines for Prescribing Dental Radiographs” for children at risk for caries is a bite-wing and/or occlusal radiographic examination at 6- to 12-month intervals.

DIF:ApplicationREF:Page 44OBJ:9

TOP: CDA, RHS, III.A. Identify current ADA guidelines for frequency of exposure to radiation

MSC:NBDHE, 2.2 Principles of radiologic health

28.Your next patient is a 35-year-old man who you have been seeing for the past 10 years. The only treatment he has needed since coming to the dental practice has been his 6-month “prophys.” He has no periodontal issues and is on a 6-month recall cycle. You last took four bite-wing images 1 year ago. Which of the following should you do?

ANS: D

Based on the “Guidelines for Prescribing Dental Radiographs”, adult recall patients at risk of decay should have bite-wing examinations every 12-18 months. Only if there were previous incidences of decay would dental images be warranted on a yearly basis. Based on the previous incidence of decay, dental images on a yearly interval would be warranted. Based on these guidelines, dental images will not need to be taken for 1-2 years. Based on the “Guidelines for Prescribing Dental Radiographs”, adult recall patients with little risk of decay should have bite-wing examinations every 24-36 months.

DIF:ApplicationREF:Page 44OBJ:9

TOP: CDA, RHS, III.A. Identify current ADA guidelines for frequency of exposure to radiation

MSC:NBDHE, 2.2 Principles of radiologic health