Nuclear Medicine Technology (NMT)
College of Science and Health
Health Professions Department
Program Director:
Aileen Staffaroni
4046 Health Science Center, 608.785.6625
e-mail:
staffaro.aile@uwlax.edu
Nuclear medicine technology is a health professions specialty
employing the use of radiopharmaceuticals for diagnostic and
therapeutic purposes. Students majoring in this program are
provided a substantial educational foundation in the sciences
and clinical applications in a hospital internship so that
graduates may function as technologists. The pre-professional
and professional program collectively requires six semesters on
campus to earn a minimum of 90 credits including certain
prescribed courses followed by a 12-month internship at an
affiliated internship site.
The university sponsors up to 30 clinical internships each
year. The size of the nuclear medicine technology program is
limited by these internships. Students must make formal
application to the program during the spring semester of either
their sophomore or junior year (see adviser). Refer to the
sample schedules on the next page. A Nuclear Medicine Technology
Professional Program Selection Committee composed of
representatives from the university and the program’s clinical
affiliates evaluates each application on the basis of the
applicant’s past academic performance (a minimum cumulative GPA
of 2.50 is required for admission into the professional
program), their references, their past work experience, and the
results of a formal interview. Based on these factors, the
applicants are ranked and accepted for entry into the
professional program. Those students admitted to the
professional curriculum will be eligible for an internship upon
successful completion of the on-campus course requirements and
selection by a clinical affiliate. Acceptance into the
professional program does not guarantee an internship at a
hospital. The hospitals select students for internships. During
the senior year, clinical internship students enroll at UW-L for
a minimum of 34 semester credits in clinical courses and pay
full tuition and fees. Upon successful completion of the
internship and all other university requirements, students are
awarded a Bachelor of Science degree with a major in nuclear
medicine technology.
Hospital educational programs of nuclear medicine technology
are accredited by the Joint Review Committee on Educational
Programs in Nuclear Medicine Technology (JRC-NMT). Graduates are
eligible to take the examination for certification as a
certified nuclear medicine technologist offered by the Nuclear
Medicine Technology Certification Board (NMTCB) or as a nuclear
medicine technologist offered by the American Registry of
Radiologic Technologists (ARRT).
Nuclear Medicine Technology — Affiliated Internship Sites
— Mayo Clinic, College of Medicine, School of Health Sciences
Rochester, MN
— Froedtert Hospital
Milwaukee, WI
— St. Joseph’s Hospital
Marshfield, WI
— Aurora St. Luke’s Hospital
Milwaukee, WI
— Veterans Administration Edward Hines, Jr. Hospital
Hines, IL
— Northwestern Memorial Hospital
Chicago, IL
Nuclear Medicine Technology Major
(Science and Health) 100-101 credits, including internship
Pre-Professional Requirements (65-66 credits): BIO 103* or
105*, 312, 313, 433; CHM 103*, 104, 250, or 325, 301, 461; CHE
460; HP 250, 310; MTH 145*, 150* or higher, NMT 201, 314 or RT
421, 395 or MIC 406; PHY 103* or 125*; PHY 376; SOC 110* or
120*; SOC 420 or 422. Internship: Each nuclear medicine
technology intern will enroll in clinical courses for a minimum
of 34 credits. (See below)
Recommended Electives
BIO 306, 432; CHM 300, 325; CST 354; ECO 471; ESS 201, RT
310, 350; MIC 230.
*This course can also fulfill General Education requirements.
It is recommended that students have at least 10 hours of
observation in a nuclear medicine department before they apply
to the professional program. Students must have completed all
courses taught at UW-L prior to their clinical internship
experience. All courses must be completed with a grade of “C” or
above. A cumulative grade point average of 2.50 on a 4.00 scale
is required for acceptance into the professional program,
maintenance of accepted status, and for graduation with a major
in nuclear medicine technology.
Professional Program: Internship
(34 credits): NMT 401, 402, 403, 405, 407, 409, 411, 412,
413, 415, 416, 417, 418, 419, 420, 421, 423, 427, 495, 499. All
of the above courses are not required but a minimum of 34
credits must be earned from the above list.
Nuclear Medicine Technology Sample Schedule
First Year
— Semester I (15 total credits)
CHM 103
General Chemistry I
5
MTH 150
College Algebra
4
HIS 101
Global Origins of
the Modern World
3
ENG 110
College Writing I
3
— Semester II (17 total credits)
CHM 104
General Chemistry II
5
BIO 105
General Biology
4
SOC 110
The Social World
3
or
SOC 120
Social Problems
3
CST 110
Communicating Effectively
3
Appreciation course
2
Second Year
— Semester I (17 total credits)
CHM 301
Analytical Chemistry
5
BIO 312
Human Anatomy
and Physiology I
4
MTH 145
Elementary Statistics
4
SAH 105
Analysis of Health,
Wellness, and Disease for
the Healthcare Consumer
3
NMT 201
Introduction to Nuclear
Medicine Technology
1
— Semester II (16 total credits)
CHM 250
Intro to Organic Chemistry
and Biochemistry
3
BIO 313
Human Anatomy
and Physiology II
4
PHY 125
Physics for the Life
Sciences
4
Appreciation Course
2
Minority Cultures or Multiracial
Women’s Studies course requirement
3
Third Year
— Semester I (15 total credits)
NMT 314
Cross-Sectional Anatomy
2
PHY 376
Intro to Nuclear Science
2
HP 310
Pathophysiology
3
SOC 420
Health Care and Illness
3
or
SOC 422
Death, Grief, and
Bereavement
3
NMT 395
Immunology for Nuclear
Medicine Technologists
1
CHE 460
Medical Terminology for
Health Education
1
Elective course
3
— Semester II (16 total credits)
BIO 433
Radiation Biology
3
CHM 461
Nuclear Chemistry
4
International Studies course
3
Humanistic Studies course
3
Elective course
3
Fourth Year
— Internship:
NMT 400 level courses
NMT 201
Cr. 1
Introduction to Nuclear Medicine Technology
Orientation to the application and professional aspects of
nuclear medicine technology; including radiation safety and
protection, types of imaging procedures performed, computer
applications, related allied health professions and ethics.
Lect. 0.5, Lab. 1. Offered Fall.
NMT 314
Cr. 2
Cross-Sectional Anatomy
This course revisits anatomy specifically from an imaging
perspective. Students will learn to identify normal and abnormal
structures on CT and MRI scans and locate topographic landmarks
on diagnostic and simulation images. Prerequisite: BIO 313 with
a grade of “C” or better. Students with credit in RT 421 cannot
earn credit in NMT 314. Offered Fall.
NMT 395
Cr. 1
Immunology for the Nuclear Medicine Technologist
A highly focused investigation of the practices of immunology
for the student of nuclear medicine technology. Offered Fall.
NMT 401
Cr. 0-2
Hospital Orientation
A survey of hospital administrative procedures including
medical terms and medical ethics. Prerequisites: completion of
90 credits and acceptance into a hospital program. Offered
annually.
NMT 402
Cr. 1-4
Clinical Correlation: Anatomy, Physiology and Pathology
A lecture series of topics of current interest selected and
presented by nuclear medicine physicians. Emphasis on clinical
interpretation of organ systems pathophysiology as viewed by the
practicing nuclear physician. Lect. 1-4. Prerequisites:
completion of 90 credits; senior standing; acceptance into a
hospital program. Duration: two semesters. Offered annually.
NMT 403
Cr. 2-4
Anatomy, Physiology and Pathology
The anatomy, physiology and pathology of the human organ
systems treated in the application of nuclear medicine. Lect.
2-4. Prerequisites: completion of 90 credits; senior standing;
acceptance into a hospital program. Offered annually.
NMT 405
Cr. 2-3
Radiation Protection
Properties of alpha, beta and gamma radiations, their effects
upon human beings and methods for protecting patients and staff
from unnecessary exposure and possible injury. Prerequisites:
completion of 90 credits and acceptance into a hospital program.
Offered annually.
NMT 407
Cr. 2-5
Clinical Instrumentation and Techniques
Structure, operating characteristics and practice in use of
nuclear radiation detection instruments and radioisotope
handling devices used in medical diagnosis and therapy. Lect.
1-3, Lab. 3-6. Prerequisites: completion of 90 credits and
acceptance into a hospital program. Offered annually.
NMT 409
Cr. 1-3
Mathematical Evaluation of Clinical Data
A study of the expected variations in results depending on
the choice of radionuclide, instrument and patient.
Prerequisites: completion of 90 credits and acceptance into a
hospital program. Offered annually.
NMT 411
Cr. 1-2
Records and Administrative Procedures
Records and procedures required by federal, state and
professional regulatory agencies to insure proper: (1)
acquisition, handling, application, storage, and disposal of
radioactive materials; (2) awareness of radiation dosages
received by patients and staff; and (3) functioning of detection
equipment. Prerequisites: completion of 90 credits and
acceptance into a hospital program. Offered annually.
NMT 412
Cr. 3-9
Clinical Nuclear Practicum I
The supervised use of radionuclides in imaging and scanning
of patients for diagnostic purposes. Lect. 1-3, Lab. 6-18.
Prerequisites: completion of 90 credits and acceptance into a
hospital program. Offered annually.
NMT 413
Cr. 3-9
Clinical Nuclear Practicum II
The supervised use of radionuclides in vitro and in vivo in
patients for diagnostic purposes. Lect. 1-3, Lab. 6-18.
Prerequisites: completion of 90 credits and acceptance into a
hospital program. Offered annually.
NMT 415
Cr. 1-3
Application of Radionuclides to Medicine
Review of radionuclides and the compounds into which they are
formed that are useful in medical research, diagnosis and
therapy. Lect. 1-3. Prerequisites: completion of 90 credits and
acceptance into a hospital program. Offered annually.
NMT 416
Cr. 1-3
Nuclear Medicine Quality Control Practicum
Elution of Mo/Tc generator, preparation and testing of
radiopharmaceutical products. Gamma Camera uniformity, relative
sensitivity and spatial linearity and resolution testing. The
use of flood field and bar phantoms on in vivo imaging detectors
in the nuclear medicine imaging laboratory. Lect., 5-1.5, Lab.
1.5-4.5. Prerequisites: completion of 90 credits and acceptance
into a hospital program. Offered annually.
NMT 417
Cr. 2-5
Nuclear Radiation Physics and Instrumentation
Properties of alpha, beta and gamma radiations; their origins
and interactions with matter; their control and shielding; and
the statistics of counting. Lect. 1-3, Lab. 3-6. Prerequisites:
completion of 90 credits and acceptance into a hospital program.
Offered annually.
NMT 418
Cr. 1-3
Clinical Procedures Review
Classroom technique to establish clinical practices used in
nuclear medicine imaging; develop techniques used in planar and
SPECT imaging. The fundamental skills of patient care,
radiopharmaceutical preparation and administration. Emphasis is
also on computer processing techniques used in coordination with
imaging procedures. Lect. .5-1.5. Prerequisites: completion of
90 credits and acceptance into a hospital program. Duration: two
semesters. Offered annually.
NMT 419
Cr. 1-3
Clinical Radiation Biology
Cellular and organ responses to radiation sources and
radionuclides employed in nuclear medicine. Lect. 1-2, Lab. 0-3.
Prerequisites: completion of 90 credits and acceptance into a
hospital program. Offered annually.
NMT 420
Cr. 1-2
Gamma Cameras
This course consists of lectures and laboratory sessions
relating to the gamma camera from a physics point of view. It
will convey to the student the principles of gamma camera
operation, methods of measuring and maintaining camera
performance, and the theory and practice of acquiring
tomographic studies. Lect. .5-1, Lab. 1.5-3. Prerequisites:
completion of 90 credits and acceptance into a hospital program.
Offered annually.
NMT 421
Cr. 0-1
Therapeutic Radionuclides
The chemical, physical and biological properties of the
radionuclides used in diagnosis and therapy. Prerequisites:
completion of 90 credits and acceptance into a hospital program.
Offered annually.
NMT 423
Cr. 1-3
Radiopharmacy
A study of the radiopharmacology and the chemistry of
radionuclides used in the clinical laboratory. Lect. 1-3.
Prerequisites: completion of 90 credits; senior standing and
acceptance into a hospital program. Offered annually.
NMT 427
Cr. 1-5
Application of Computers to Nuclear Medicine
A study of data collection, data reduction and data
enhancement by computer methods. Lect. 1-2, Lab. 0-9.
Prerequisites: completion of 90 credits and acceptance into a
hospital program. Offered annually.
NMT 495
Cr. 1-3
Special Topics in Nuclear Medicine
Topics of current interest in nuclear medicine with emphasis
on new or experimental methods. Hours arranged. Prerequisites:
completion of 90 credits and acceptance into a hospital program.
Offered annually.
NMT 499
Cr. 0-3
Independent Study
Independent projects under the direction and supervision of a
member of the clinical staff. Hours arranged. Prerequisites:
completion of 90 credits and acceptance into a hospital program.
Offered annually.