CT State Community College Catalog 2023-2024
- New students enrolling for the first time in Fall 2023 will begin as students of Connecticut State Community College under this catalog.
- Continuing students from one of the 12 community colleges will be transitioned into a CT State program in this catalog as of the start of the Fall 2023 term.
- The policies, courses and programs described are applicable as of the Fall 2023 term and may be updated as circumstances require.
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The Associate in Science degree program in Nuclear Medicine Technology prepare students for employment as nuclear medicine technologists in hospitals, medical offices, or ambulatory clinics. Upon completion of the program, the student may apply to take the certifying board examinations administered by the American Registry of Radiologic Technology (ARRT(N)) and the Nuclear Medicine Technology Certification Board (NMTCB). The program requires approximately twenty-two (22) months of clinical and academic course work. The curriculum includes appropriate didactic content and ample supervised clinical education to assure sufficient opportunity to achieve all didactic and clinical requirements.
Program Learning Outcomes:
- Students will demonstrate skills in effective oral and written communication
- Students will demonstrate oral communication skills
- Students will demonstrate written communication skills
- Students will demonstrate skills in critical thinking and problem solving in the principles and practices of Nuclear Medicine
- Students will assess patient requisitions in order to perform proper imaging procedures
- Students will use critical thinking to overcome clinical challenges
- Students will demonstrate clinical competence in the practice of Nuclear Medicine
- Students will apply As Low as Reasonably Achievable (ALARA) principles and practices of radiation protection
- Students will provide appropriate patient care
The mission of the Gateway Community College Nuclear Medicine Technology program is to offer high-quality instruction to a diverse population of students in an environment conducive to learning. We respond to the changing academic, occupational, technological, and cultural needs of both students and the community by strengthening our graduates through the inclusion of advanced technology, unique clinical internship experience, and quality patient care.
The major categories of the nuclear medicine technologist’s scope of practice include, but are not limited to, the following areas (as defined in the “Scope of Practice for the Nuclear Medicine Technologist 2020”, SNMMI Technologist Section: https://www.snmmi.org/AboutSNMMI/CommitteeContent.aspx?ItemNumber=5281):
Patient Care: Requires the exercise of judgment to assess and respond to the patient’s needs before, during, and following diagnostic imaging and treatment procedures and in patient medication reconciliation. This includes record keeping in accordance with the Health Insurance Portability and Accountability Act (HIPAA).
Instrumentation/Quality Control: Involves the operation of nuclear medicine and PET imaging systems: With or without sealed sources of radioactive materials, x-ray tubes, or MR systems for attenuation correction, transmission imaging, or diagnostic CT or MR (when appropriately trained and/or credentialed).
Quality control: The evaluation and maintenance of a quality control program for all instrumentation to ensure optimal performance and stability.
Diagnostic Procedures: Requires the utilization of appropriate techniques, radiopharmaceuticals, imaging medications and adjunctive medications as part of a standard protocol to ensure quality diagnostic images and/or laboratory results. Obtains biological samples to perform testing as required for the optimization of patient care and quality of diagnostic procedures.
Therapeutic Procedures: Requires the utilization of appropriate techniques, radiopharmaceuticals, and adjunctive medications as part of a standard protocol to ensure proper treatment of the disease process. Obtains biological samples to perform testing as required for the optimization of patient care.
Adjunctive Medications: Involves the identification, preparation, calculation, documentation, administration, and monitoring of adjunctive medication(s) used during diagnostic imaging, or therapeutic procedures. Imaging Medications: Involves the identification, preparation, calculation, documentation, administration, and monitoring of imaging medication(s) used during diagnostic imaging studies.
Imaging Medications: Involves the identification, preparation, calculation, documentation, administration, and monitoring of imaging medication(s) used during diagnostic imaging studies.
Radiopharmaceuticals: Involves the safe handling and storage of radiopharmaceuticals. This includes, but is not limited to, the procurement, identification, preparation, dose calculation, and administration of radiopharmaceuticals. It involves the safe handling and storage of radiopharmaceuticals. This includes, but is not limited to, the procurement, identification, preparation, dose calculation, and administration of radiopharmaceuticals. It also includes all associated documentation and disposal as appropriate.
Radiation Safety: Involves practicing techniques that will minimize radiation exposure to the patient, health care personnel, and general public. These include using protective devices, shields, dose reduction, and monitors consistent with ALARA principles. Establishing protocols for managing spills and unplanned releases of radiation.
Admissions Procedure:
- All students must first apply to CT State College.
- Unless waived, all applicants must take placement tests in reading, English, and mathematics.
- Attendance at one program specific information session.
- Students must have a 2.7 GPA
- Complete the following prerequisite courses
ENG 1010 - Composition (C or higher)
BIO 2111 - Anatomy & Physiology I (C or higher taken within past five years of program start date)
BIO 2112 - Anatomy & Physiology II (C or higher taken within past five years of program start date)
MATH 1600 - Pathway to Calculus: College Algebra (C or higher taken within five years of program start date)
- Submit official copies of all transcripts.
Detailed information regarding selective admisson events and deadlines is available on the CT State Selective Admissions Webpage.
Students in this program are responsible for expenses including but not limited to uniforms, physical examinations and blood work, travel to clinical sites, parking, meals, CPR training, background check and toxicology screening, dosimeters, textbooks, liability insurance, Trajecsys and CastleBranch. Specific information about these costs is available on the Nuclear Medicine webpage and in the Nuclear Medicine Program Student Handbook. Financial aid information is available through the College Financial Aid office.
Students will be charged the Supplemental Course (program) Fee Level 1 every fall and spring semesters while in the program.
Program Accreditation:
- The Nuclear Medicine Technology Program is accredited by the Joint Review Committee on Educational Programs in Nuclear Medicine Technology (JRCNMT). The accreditation is currently under the home of Gateway Community College as we transition to the new structure of CT State Community College Gateway Campus. Additional information regarding accreditation can be found on the JRCNMT website (www.jrcnmt.org).
National Exams:
- Nuclear Medicine Technology Certification Board (NMTCB)
- American Registry of Radiologic Technologists (ARRT)(N)
Graduation Criteria
All program students must complete the following to receive an associate degree from the program. See the student handbook for complete details.
- Complete all didactic curricula with a final grade of C or better.
- Complete all clinical curricula with a final grade of C or better.
- Complete all competency exams with a final grade of 100%.
- Maintain all hospital and program standards as outlined in the program handbook.
Graduates of the program are eligible to take the Nuclear Medicine Technology Certification Board (NMTCB) American Registry of Radiologic Technologists, Nuclear Medicine Examination ARRT(N).
Clinical Experience will take place at:
- Yale-New Haven Hospital (New Haven)
- Yale-New Haven Hospital St. Raphael Campus (New Haven)
- Yale University PET Center (New Haven)
- The Veterans Affairs Connecticut Health Care System (West Haven)
- Middlesex Hospital (Middletown)
- Griffin Hospital (Derby)
- Cardinal Health Nuclear Pharmacy Services (East Hartford)
- Midstate Medical Center (Meriden)
- Bridgeport Hospital (Milford Campus)
- William W. Backus Hospital (Norwich)
- Lawrence & Memorial Hospital (New London)
- Stamford Hospital (Stamford)
- Greenwich Hospital (Greenwich)
- UCONN Medical Center (Farmington)
- Hospital of Central Connecticut (New Britain)
- Waterbury Hospital (Waterbury)
- Simulated labs are held in the Nuclear Medicine lab at the Gateway campus and are scheduled on lecture days.
Note: Students are responsible for their own transportation to and from class and clinical assignments. Due to standards from The Joint Commission, students are advised that the healthcare facilities to which they are assigned for clinical rotations may require that they submit a criminal background check, required immunization records and other documentation needed to meet the standards. CT State Community College cannot be responsible for finding an alternate clinical placement for a student who fails to meet the required hospital requirements. A student who is unable to complete the required clinical experience will be unable to complete the requirements for the associate degree in Radiation Therapy but may be able to apply some or all the credits completed to an associate degree in General Studies. Students are advised to meet with a Counselor to discuss degree completion requirements.
Clinical Curriculum
The structure of the curriculum is such that courses are offered in sequence and progress in complexity. It offers appropriate didactic content and ample supervised clinical education to assure sufficient opportunity to achieve all didactic and clinical requirements established by the Nuclear Medicine Technology Certification Board (NMTCB) and the American Registry of Radiologic Technologist (ARRT.)