What do Veterinary Technologists and Technicians Do

Veterinary Technologists and Technicians

Owners of pets and other animals today expect superior veterinary care. To provide this service, veterinarians use the skills of veterinary technologists and technicians, who perform many of the same duties for a veterinarian that a nurse would for a physician. Although specific job duties vary by employer, there is often little difference between the tasks carried out by technicians and technologists, despite differences in formal education and training. However, most technicians work in private clinical practice while many technologists have the option to work in more advanced research-related jobs.

Veterinary technologists and technicians typically conduct clinical work in a private practice under the supervision of a licensed veterinarian. Veterinary technologists and technicians often perform various medical tests and treat and diagnose medical conditions and diseases in animals. For example, they may perform laboratory tests such as urinalysis and blood counts, assist with dental care, prepare tissue samples, take blood samples, and assist veterinarians in a variety of other diagnostic tests. While most of these duties are performed in a laboratory setting, many are not. For example, some veterinary technicians record patients' case histories, expose and develop x rays and radiographs, and provide specialized nursing care. In addition, experienced veterinary technicians may discuss a pet's condition with its owners and train new clinic personnel. Veterinary technologists and technicians assisting small-animal practitioners usually care for small pets, such as cats and dogs, but can perform a variety of duties with mice, rats, sheep, pigs, cattle, monkeys, birds, fish, and frogs. Very few veterinary technologists work in mixed animal practices where they care for both small pets and large, nondomestic animals.

Besides working in private clinics and animal hospitals, some veterinary technologists and technicians work in research facilities under the guidance of veterinarians or physicians. In this role, they may administer medications, prepare samples for laboratory examinations, or record information on an animal's genealogy, diet, weight, medications, food intake, and clinical signs of pain and distress. Some may sterilize laboratory and surgical equipment and provide routine postoperative care. Occasionally, veterinary technologists vaccinate newly admitted animals and may have to euthanize seriously ill, severely injured, or unwanted animals.

While the goal of most veterinary technologists and technicians is to promote animal health, some contribute to human health, as well. Veterinary technologists occasionally assist veterinarians in implementing research projects as they work with other scientists in medical-related fields such as gene therapy and cloning. Some find opportunities in biomedical research, wildlife medicine, livestock management, pharmaceutical sales, and increasingly, in biosecurity and disaster preparedness.

Work Environment

Veterinary technologists and technicians held about 114,400 jobs in 2020. The largest employers of veterinary technologists and technicians were as follows:

  • Veterinary services - 91%
  • Junior colleges, colleges, universities, and professional schools; state, local, and private - 4%
  • Social advocacy organizations - 1%

Veterinary technologists and technicians typically work in private clinics and animal hospitals. They also may work in laboratories, colleges and universities, and humane societies.

Their jobs may be physically or emotionally demanding. For example, they may witness abused animals or may need to help euthanize sick, injured, or unwanted animals.

Injuries and Illnesses

Veterinary technologists and technicians risk injury on the job. They may be bitten, scratched, or kicked while working with scared or aggressive animals. Injuries may happen while the technologist or technician is holding, cleaning, or restraining an animal.

Work Schedules

Veterinary technologists and technicians may have to work evenings, weekends, or holidays.

Education & Training Required

Most entry-level veterinary technicians have a 2-year associate degree from an American Veterinary Medical Association (AVMA)-accredited community college program in veterinary technology in which courses are taught in clinical and laboratory settings using live animals. Currently, about 20 colleges offer veterinary technology programs that are longer and that culminate in a 4-year bachelor's degree in veterinary technology. These 4-year colleges, in addition to some vocational schools, also offer 2-year programs in laboratory animal science. About 10 schools offer distance learning.

In 2009, about 160 veterinary technology programs in 45 States were accredited by the American Veterinary Medical Association (AVMA). Graduation from an AVMA-accredited veterinary technology program allows students to take the credentialing exam in any State in the country.

Those interested in careers as veterinary technologists and technicians should take as many high school science, biology, and math courses as possible. Science courses taken beyond high school, in an associate or bachelor's degree program, should emphasize practical skills in a clinical or laboratory setting.

Technologists and technicians usually begin work as trainees under the direct supervision of a veterinarian. Entry-level workers whose training or educational background encompasses extensive hands-on experience with diagnostic and medical equipment usually require a shorter period of on-the-job training.

Certifications Needed

Each State regulates veterinary technicians and technologists differently; however, all States require them to pass a credentialing exam following coursework. Passing the State exam assures the public that the technician or technologist has sufficient knowledge to work in a veterinary clinic or hospital. Candidates are tested for competency through an examination that includes oral, written, and practical portions and that is regulated by the State Board of Veterinary Examiners or the appropriate State agency. Depending on the State, candidates may become registered, licensed, or certified. Most States, however, use the National Veterinary Technician (NVT) exam. Prospects usually can have their passing scores transferred from one State to another, so long as both States use the same exam.

Employers recommend American Association for Laboratory Animal Science (AALAS) certification for those seeking employment in a research facility. AALAS offers certification for three levels of technician competence, with a focus on three principal areas—animal husbandry, facility management, and animal health and welfare. Those who wish to become certified must satisfy a combination of education and experience requirements prior to taking the AALAS examination. Work experience must be directly related to the maintenance, health, and well-being of laboratory animals and must be gained in a laboratory animal facility as defined by AALAS. Candidates who meet the necessary criteria can begin pursuing the desired certification on the basis of their qualifications. The lowest level of certification is Assistant Laboratory Animal Technician (ALAT), the second level is Laboratory Animal Technician (LAT), and the highest level of certification is Laboratory Animal Technologist (LATG). The AALAS examination consists of multiple-choice questions and is longer and more difficult for higher levels of certification, ranging from 2 hours and 120 multiple choice questions for the ALAT, to 3 hours and 180 multiple choice questions for the LATG.

Other Skills Required

As veterinary technologists and technicians often deal with pet owners, communication skills are very important. In addition, technologists and technicians should be able to work well with others, because teamwork with veterinarians and other veterinary technicians is common. Organizational ability and the ability to pay attention to detail also are important.

How to Advance

As they gain experience, technologists and technicians take on more responsibility and carry out more assignments with little veterinary supervision. Some eventually may become supervisors.

Job Outlook

Employment of veterinary technologists and technicians is projected to grow 15 percent from 2020 to 2030, faster than the average for all occupations.

About 10,400 openings for veterinary technologists and technicians are projected each year, on average, over the decade. Many of those openings are expected to result from the need to replace workers who transfer to different occupations or exit the labor force, such as to retire.

Employment

As the number of households with pets and spending on pets continue to rise, demand is expected to increase for veterinary technologists and technicians to do laboratory work and imaging services on household pets.

Earnings

The median annual wage for veterinary technologists and technicians was $36,850 in May 2021. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $28,370, and the highest 10 percent earned more than $48,100.

In May 2021, the median annual wages for veterinary technologists and technicians in the top industries in which they worked were as follows:

  • Junior colleges, colleges, universities, and professional schools; state, local, and private - $46,780
  • Veterinary services - $36,770
  • Social advocacy organizations - $35,480

Veterinary technologists and technicians working in research positions often earn more than those in other fields.

Veterinary technologists and technicians may have to work evenings, weekends, or holidays.

Academic Programs of Interest


Veterinary Medicine
Veterinary medicine is the application of medical, diagnostic, and therapeutic principles to companion, domestic, exotic, wildlife, and production animals. Veterinary science is vital to the study and protection of animal production practices, herd health and monitoring the spread of disease. It requires the acquisition and application of scientific knowledge in multiple disciplines and uses technical skills directed at disease prevention in both domestic and wild... more