Nuclear Medicine Technology

Nuclear Medicine Technology

About the Program

A two-year Nuclear Medicine Technology Program student routinely learns the skills needed professionally between 8 a.m. and 4:30 p.m. in both classrooms and in on-site lab settings.

AWARD TYPES: Associate of Applied Science

AREA OF STUDY: Health Sciences

Degrees and Certificates

Learn more about the Degrees and Certificates offered by this program by visiting the HCC Catalog.

View Degrees & Certificates by Program Combined Shape Created with Sketch.

Program Student Learning Outcomes

Students will be able to:


Demonstrate competency in patient care.


Demonstrates competency in minimizing radiation exposure. (Radiation Safety)


Demonstrate competency to perform quality control procedures.


Prepare and administer radiopharmaceuticals.


Competently perform imaging and non-imaging nuclear medicine procedures.


Differentiate normal anatomy and pathology on a common nuclear medicine image.

Program Information

A Career in Nuclear Medicine Technology

Nuclear medicine is the medical specialty that utilizes the nuclear properties of radioactive and stable nuclides to make diagnostic evaluations of the physiologic and/or anatomic conditions of the body and to provide therapy with unsealed radioactive sources. The nuclear medicine technologist is an allied health professional who, under the direction of an authorized user, is committed to applying the art and skill of diagnostic evaluation and therapeutics through the safe and effective use of radiopharmaceuticals and pharmaceuticals. The nuclear medicine technologist exhibits professionalism in the performance of duties, demonstrates an empathetic and instructional approach to patient care and maintains confidentiality of information as required. Responsibilities include, but are not limited to: preparation, quality control testing and administration of radioactive compounds; execution of patient imaging procedures including computer processing and image enhancement; laboratory testing; patient interviews; instruction and preparation for administration of prescribed radioactive compounds for therapy; quality control; and radiation safety. The nuclear medicine technologist applies knowledge of radiation physics and safety regulations to limit radiation exposure of the general public, patients, fellow workers, and self to as low as reasonably achievable (ALARA). Professional growth and development is achieved through appropriate utilization of new technologies, participation in continuing education and involvement in research to enhance the quality of patient care.

A Nuclear Medicine Technologist, whose career requires the specialist to stand for long periods, is routinely transferring patients from wheelchairs and stretchers to scanning tables, giving injections and taking vital signs with or without accommodation. A Nuclear Medicine Technologist finds employment in hospitals and diagnostic clinics. Career ladders are open for advancement into research, sales, education and management.

With further training, a Nuclear Medicine Technologist could perform computed tomography (CT) imaging, magnetic resonance imaging (MRI), diagnostic medical sonography, or radiation therapy. According to the US Bureau of Labor Statistics the average salary for an entry-level Nuclear medicine Technologist in May 2022.
was 43.03 - median 89,610 - Annual Median.


Accreditation Information

Graduate achievement data is an indicator of program effectiveness, demonstrating the extent to which a program achieves its goals. The current report on graduate achievement data, identified by program, is available on the JRCNMT website by clicking on the following link:

Graduate Achievement Data | JRCNMT

Job Placement. Job placement indicates graduate employment status at six months post-graduation from a nuclear medicine technology program. The percentage on the data table is the percentage of total graduates that are working as a nuclear medicine technologist, diagnostic CT technologist or technologist working in both imaging areas in a full-time, part-time or per-diem position at six months ...


Licensure/Certification Exam Results

The Nuclear Medical Technology/Technologist program graduates licensures/certificates are issued by the nationally recognized Nuclear Medicine Technology Certification Board (NMTCB) and American Registry of Radiologic Technologists (ARRT)

2022 Third-Party Licensure/Certification Exam Results

Occupational licensure and/or certification pass rates reported by calendar year (Jan. 1 – Dec. 31). Results for the 2018, 2019, 2020, and 2021 calendar years are provided for comparison.

Program/Aligned AwardAgency StandardHCC Standard2018 Pass Rate (# Passed)2019 Pass Rate (# Passed)2020 Pass Rate (# Passed)2021 Pass Rate (# Passed)2022 Pass Rate (# Passed)
Nuclear Medicine Technology: Nuclear Medicine Technology Certification Board (AAS) 80% 80% 100% (26) 92% (24) 81% (25) 87% (13) 81% (17)
Nuclear Medicine Technology: American Registry of Radiologic Technologists (AAS) 80% 80% 100% (24) 100% (25) 82% (22) 82% (14) 95% (21)





There were about 1,230 (currently about 1,500) nuclear medicine technologists in the state of Texas in 2012. This number is expected to grow by 30.9% (380 jobs) from 2012-2022.

  • The estimated annual job openings in Texas is about 55 jobs a year.
  • Median Wages - $43.08 hourly; $89,610 annually


Texas Education Association (TEA) Industry Based Certification Resource

Certification NameTEA Resource Link Third-Party Certification AgencyThird-Party Certification Agency Website

Nuclear Medical Technology/

Nuclear Medicine Technology Certification Board (NMTCB)



Certification NameTEA Resource Link Third-Party Certification AgencyThird-Party Certification Agency Website

Nuclear Medical Technology/

American Registry of Radiologic Technologists (ARRT)



/media/houston-community-college/district/marketable-skills-custom-onets/99-9999.70.txt /media/houston-community-college/district/marketable-skills-custom-onets/99-9999.60.txt

Marketable Skills

Learn more about the marketable skills—skills valued by employers that can be applied in variety of work settings—so you can communicate these to potential employers. Click on the relevant award title below to see descriptions of marketable skills for that area.

Nuclear Medicine Technology, A.A.S.

Ready to apply? Ok, let's start!

Applications for this program are accepted during the specific application window listed in the Admission Guide. Evaluation of submitted applications begins once the application window has closed. All admissions selection communications will be sent to your preferred listed email account on your online application. So be sure to check this regularly for information, requests, and correspondences. If you received a not admitted letter, you must re-apply during the next appropriate application period.

1. Complete an information session

Learn more about the Nuclear Medicine Technology Program by completing an online information session.

The Information Session will be held in person and virtually for each date listed. The benefit of attending in-person is that you will get to tour the Nuclear Medicine Technology Lab and Coleman College for Health Science.

The Program Director of Nuclear Medicine Technology will give an information session and answer questions.

Start an online Info session Combined Shape Created with Sketch. Register for a virtual Info Session Combined Shape Created with Sketch.

2. Review the Admissions Guide

3.  Are you a current/former HCC Student?

If you are currently/formerly a registered HCC student with a valid student ID number and preferred email address, please proceed to step 4.

If you do not yet have a HCC student ID number, please apply for HCC at 

4. Apply to the Program.

Click on the link below to submit your online application.

Submit your application Combined Shape Created with Sketch.


Search for a Nuclear Medicine Technology Professor or request more information

Get in touch

Nuclear Medicine Technology

Vikki Davis-Littleton