Best Radiology Tech Programs in Texas

Last Updated on May 30, 2022

Those who are considering taking up a career in Radiology have to take inventory of their qualification and see if it meets the requirements needed to practice this profession in the country. A Radiologist is a doctor that will more or less diagnose and treat patients with injuries and diseases related to problems on the soft tissues and bones especially of the brain and its coverings, chest and abdomen.

Radiology is a specialty of medicine in which images of the body’s organs are interpreted in order to diagnose disease. Radiologists are medical doctors (MDs) having the specialized training to interpret medical images for diagnosis while radiologic technologists are the medical imaging professionals that use and manage the equipment for making the images. Radiologists interpret these images and give reports to referring clinical doctors ranging from surgeons, pediatricians, obstetricians, and internists to work as a team in providing medical care.

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Why Is Radiology Important?

Doctor Showing Patient X-Ray

Every sector within the health care field relies on radiology, including:

  • Surgery
  • Pediatrics
  • Obstetrics
  • Oncology
  • Trauma-response
  • Emergency medicine
  • Infectious disease

In many cases, early diagnosis can save lives, including those of patients diagnosed with cancer. Family doctors and emergency care physicians cannot effectively manage patients without diagnostic imaging, which is why they rely on radiology to find the right diagnosis and course of treatment.

What Is Radiology Used for?

Radiology is used for a wide range of conditions, and is classified depending on the type of radiology and the exact imaging test used. The various imaging exams include:

  • Radiographs: X-rays to look at bones, the chest or the abdomen.
  • CT (Computed Tomography): A CT captures multiple x-ray angles of the patient using a doughnut-shaped machine, then creates computer-processed images.
  • MRI (Magnetic Resonance Imaging): An MRI uses magnetic fields and radio waves with computer processing to create images.
  • Mammograms: Specially powered x-rays that look at breast tissues.
  • Ultrasound: An ultrasound uses sound waves to create moving images that display on a monitor, commonly used for echocardiograms and examining the womb during pregnancy.
  • Fluoroscopy: X-rays that make moving images of the body in real time. This imaging is crucial for many procedures, especially those involving the gastrointestinal tract.
  • Nuclear medicine: These are short-acting radioactive substances that generate light from bodily processes. A camera collects the light, so a computer can process it and develop an image.

Diagnostic radiology uses these imaging results to identify a wide range of problems, from broken bones to heart conditions and blood clots. Interventional radiology also uses imaging such as CT scans, MRI and ultrasounds to guide medical procedures. Patients are typically awake during these procedures, whether it’s treating cancer, back pain, or liver and kidney problems. In some cases, interventional radiology eliminates the need for surgery and scopes.

Radiology subspecialties

Breast imaging
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of breast diseases and conditions. This includes mammography, breast ultrasound, breast MRI, and breast procedures such as breast biopsy.

Cardiovascular Radiology
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of diseases of the heart and vascular or circulatory system (including blood and lymphatic vessels). This includes x-rays, CT (computed tomography or CAT), ultrasound and MRI.

Chest Radiology
The radiology subspecialty devoted to diagnostic imaging and diagnosis of diseases of the chest, especially the heart and lungs. This includes x-rays, CT (computed tomography or CAT), Ultrasound, MRI and chest procedures, such as lung biopsy and thoracentesis or drainage of fluid from the chest.

Emergency Radiology
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of trauma and non-traumatic emergency conditions. This includes x-rays, CT (computed tomography or CAT), Ultrasound and MRI.

Gastrointestinal (GI) Radiology
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of the gastrointestinal (GI) or digestive tract (the stomach and intestines) and abdomen. This includes fluoroscopy, x-rays, CT (computed tomography or CAT), Ultrasound, MRI, and GI procedures such as biopsy and fluid and abscess drainage.

Genitourinary Radiology
The radiology subspecialty devoted to the diagnosis and treatment of the organs of the reproductive and urinary systems. This includes x-rays, CT (computed tomography or CAT), MRI and procedures such as biopsy, kidney stone removal, and uterine fibroid removal.

Head and Neck Radiology
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of diseases of the head and neck. This includes x-rays, CT (computed tomography or CAT), Ultrasound and MRI.

Musculoskeletal Radiology
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of the muscles and the skeleton. This includes x-rays, CT (computed tomography or CAT), Ultrasound and MRI.

The radiology subspecialty devoted to the diagnostic imaging and diagnosis of the brain and nervous system, head, neck and spine. This includes x-rays, CT (computed tomography or CAT), Ultrasound and MRI.

Pediatric Radiology
The radiology subspecialty devoted to the diagnostic imaging and diagnosis of diseases of children. This includes x-rays, CT (computed tomography or CAT), Ultrasound, MRI and procedures such as fluoroscopy, biopsy and drainage of fluid or abscess collections.

Interventional Radiology
The radiology subspecialty devoted to the imaging, diagnosis and treatment of patients utilizing minimally invasive interventional techniques. This includes imaging and treatment of the blood vessels (such as angiography, angioplasty and stent placement), biopsy procedures, line and tube placement, uterine fibroid removal, fluid and abscess drainage. These may be performed with imaging guidance using x-rays, fluoroscopy, CT (computed tomography or CAT), Ultrasound or MRI.

Nuclear Radiology
The radiology subspecialty devoted to the imaging, diagnosis and treatment of patients using trace doses of radioactive material. This includes imaging of the heart, the skeletal system, and most organs in the body (for example the thyroid and parathyroid glands, liver, spleen, kidneys, lungs, etc.). It also includes the treatment of various conditions in the body such as a hyperactive thyroid gland and thyroid cancer. The imaging modalities include gamma imaging, PET, and PET/CT.

Radiation Oncology
The radiology subspecialty devoted to the treatment of cancer using radiation. The radiation may be delivered from an outside x-ray source or may be placed or injected into the body.

Best country to study radiology

United States of America

Radiology in the United States is a five years residency after obtaining a medical degree. The average salary of a Radiologist in the USA IS $414,090 as of April 2020, but the range typically falls between $360,090 and $479,090. The US Radiology physicians and diagnostic centers are leaders in the field of imagining, but the shortage of Radiologists in the USA, has affected hospital care and service delivery in some areas. Due to this, the demand for Radiologists in the USA is increasing which makes the USA the top destination for international students to study Radiology, Nuclear Medicine, and Medical Imaging.


Medicine is taught differently in the Netherlands as compared to any other country in the world which makes it one of the top countries worldwide for studying Radiology, Clinical medicine and Medical Imaging. Courses are taught in Dutch as well as in English, but if students choose the degrees which are taught in English, it is imperative that they learn Dutch alongside their other studies. The Final training year requires future doctors to work in Dutch hospitals and in the Netherlands, communication in Dutch language is of vital importance.


The German Universities provide subsidized education to students. This helps them to save a lot of money. Germany is the land of technical advancement and scientific development. Every year thousands of international student’s flocks to Germany in order to complete their higher education in Life Sciences and Medicine. This is because Germany provides world class education, low tuition fee, safety and health care facilities.

One of the world’s most popular non-anglophone study destinations, Germany is an ideal location for studying a medical degree, offering high-quality education at an affordable price. Getting a medical degree from Germany will boost your employability and turn financially rewarding.

There are no independent medical schools in Germany, but there are the world-renowned Universities with top class medical faculties which provide medicine courses. Following are the top universities in Germany for courses in Radiology, Clinical Medicine and Medical Imaging.

United Kingdom

UK is internationally known for its impressively ranked and reputed universities and for its high-quality academic profile. UK has a long history of welcoming international students and this is still in practice with the new Visa rules laid down by the UK government for the benefit of the international students.

UK has been a popular destination for international students, and with the list of top 5 universities in the UK for Courses in Radiology, Medical Imaging and Clinical Medicine, you can make the right decision for a rapid growth in your career in Medicine in the UK.

5. Canada: Canada is a country that welcomes expatriates and also is on a lookout for brighter minds across the world. Canada has even more liberal regulations for International students for their study programs. Canada is a friendly and multicultural country with natural landscapes such as the slopes of British Columbia to the Prairie province of Manitoba, along with the mountains, lakes and forests  which offers a great opportunity to international students to experience all these cultures and landscapes which very few nations in the world can boast about.

How to become a radiology tech in texas

Pursuing a career in radiology generally requires completion of an associate or bachelor’s degree, depending on the level of the occupation that interests you, according to the BLS. Students enrolled in radiology schools in Texas may find that clinical, hands-on skills comprise an important part of their learning, but other classes can help them learn more about clinical competence and professionalism. Although courses and requirements can vary from school to school, the education needed to enter the radiologic technology profession is often the same. Students enrolled in radiologic technologist schools in Texas could takes classes that include or are similar to:

  • Radiation Biology and Protection
  • Patient Care
  • Principles of Radiographic Imaging
  • Radiographic Pathology
  • Advanced Radiographic Procedures

Before enrolling in a program, students may want to check to see if it is accredited through the Joint Review Committee on Education in Radiologic Technology (JRCERT). Although licensing is not required for radiologic technologists in all states, graduation from an accredited program is often needed in those states that do require licensure. In Texas, passing the exam offered by the American Registry of Radiologic Technologists (ARRT) or the Nuclear Medicine Technology Certification Board (NMTCB) is necessary to seek state licensure.

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Once licensure is initially obtained, 24 hours of continuing education is necessary every two years to seek renewal. Licensure is good for two years. The state also does offer reciprocity licensing, meaning that if applicants are licensed in another state that has similar licensing requirements they may not need to go through the process in Texas. After entering the field, radiologic technologists may want to look into specializing in specific areas that can vary from cardiac-interventional (CI) radiography to mammography.

Best Radiology Tech Programs in Texas

Houston Community College

Houston Community College (HCC) is home to an Associate of Applied Science (AAS) in Radiography. This JRCERT-accredited program prepares graduates to meet the certification requirements of the ARRT and licensure requirements in the state of Texas. Courses include Basic and Advanced Radiographic Procedures; Advanced Medical Imaging; Sectional Anatomy for Medical Imaging; and Radiographic Pathology.

Students also complete clinical practica as well as a capstone course that combines theory, practice, and professionalization in the field of radiography. HCC also offers an AAS in Nuclear Medicine Technology and an Enhanced Skills Certificate in Radiography: Computed Tomography, which can help those who are currently certified by the ARRT and state of Texas add to their practice modalities. HCC offers competitive tuition and provides many incoming students with financial aid packages, which may be based on academic merit or financial need.

North Central Texas College

North Central Texas College’s full-time, two-year radiography program at the Gainesville campus leads to the Associate of Applied Science (AAS) in Radiologic Technology. Prior to beginning radiologic technology coursework, skills labs, and clinical rotations, students must first complete 14 credit hours of prerequisite courses in algebra; grammar and composition; and anatomy and physiology.

Students will complete a clinical rotation each semester of the program in addition to coursework covering medical imaging, radiography pathology, radiographic procedures, and radiation protection and biology. The highly selective program only admits 20 applicants a year. Prospective applicants must attend a mandatory advising session prior to applying for the program.

South Texas College

Graduates of South Texas College’s Associate of Applied Science (AAS) in Radiologic Technology program will be eligible to sit for the American Registry of Radiologic Technologists (ARRT) certification exam. The two-year, full-time program combines radiologic technology coursework, work in the on-campus laboratory, and clinical rotations to prepare students to begin working in entry-level radiology technologist positions.

Students will become proficient in radiographic positioning and in using both traditional and digital radiography equipment. Applicants to the program must submit their application materials by the end of May with those offered a seat in the program beginning their studies in the fall semester.

Tarrant County College

Tarrant County College confers the Associate of Applied Science (AAS) in Radiologic Technology to students who successfully complete the two-year, full-time radiography program. A combination of radiologic technology coursework and clinical rotations prepare students to take the ARRT certification exam upon graduation.

Program coursework covers patient care, radiographic imaging, radiographic pathology, and radiographic procedures. Students must also complete a series of clinical rotations to fulfill degree requirements. Prospective applicants must complete and receive a passing C grade in two prerequisite courses in anatomy and physiology. Applications for the selective program are due March 1 of each year.

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