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Biomedical Engineer Jobs in Indiana (NOW HIRING)

Fortive

Field Service Engineer

Fort Wayne, IN · On-site +1

Provides guidance to Customers to include hospital Biomedical engineers along with Field Service Technicians and/or Representatives and assists when customer satisfaction issues arise. * Provide ...

Siri InfoSolutions Inc

Manufacturing Engineer

Warsaw, IN · On-site

$70K - $90K/yr

Mechanical Engineering, Mechanical Engineering Technology, Biomedical Engineering, Bioengineering, Biomedical Engineering Technology, Bioengineering Technology, Aerospace Engineering or Aeronautical ...

TRIMEDX Holdings

Biomedical Technician I

Lafayette, IN · On-site

$24.25 - $32.25/hr

Summary The Biomedical Equipment Technician I (BMET I) provides clinical equipment services under ... engineering environment preferred * Travel may be required based on customer or business needs At ...

Trimedx

Biomedical Technician I

Lafayette, IN · On-site

$24.25 - $32.25/hr

Summary The Biomedical Equipment Technician I (BMET I) provides clinical equipment services under ... engineering environment preferred * Travel may be required based on customer or business needs At ...

Renovo Solutions

Biomedical Equipment Tech I

Danville, IN · On-site

$25 - $31/hr

Biomedical Service & Maintenance * Troubleshoot and repair electromechanical patient care equipment in compliance with manufacturer specifications and hospital standards * Repairs can include the ...

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All JobsBiomedical Engineer JobsBiomedical Engineer Jobs in Indiana

Biomedical Engineer information

See Indiana salary details

$39K

$90.2K

$133.2K

How much do biomedical engineer jobs pay per year?

As of Jun 30, 2026, the average yearly pay for biomedical engineer in Indiana is $90,215.00, according to ZipRecruiter salary data. Most workers in this role earn between $70,900.00 and $110,400.00 per year, depending on experience, location, and employer.

What engineers make $500,000?

Highly experienced biomedical engineers working in senior roles, management, or specialized fields such as medical device development can earn salaries approaching or exceeding $500,000 annually, especially with bonuses and stock options. Achieving this level typically requires advanced degrees, extensive experience, and leadership responsibilities within the industry.

What type of jobs do biomedical engineers do?

Biomedical engineers design and develop medical devices, equipment, and software used in healthcare, such as imaging systems, prosthetics, and diagnostic tools. They often work in research labs, hospitals, or manufacturing environments, applying engineering principles to improve patient care and medical technology. Strong knowledge of biology, engineering, and computer skills are essential for these roles.

What can I work with a biomedical engineering degree?

A biomedical engineer can work in designing medical devices, developing healthcare technologies, and improving clinical equipment. They often work in hospitals, research labs, or manufacturing settings, utilizing skills in biology, engineering, and computer-aided design. Certifications and knowledge of regulatory standards can enhance employment opportunities.

What are biomedical engineers?

Biomedical engineers are professionals who apply principles of engineering and biological sciences to design, develop, and maintain equipment, devices, computer systems, and software used in healthcare. They work to improve the quality and effectiveness of patient care by creating technologies such as artificial organs, medical imaging devices, and prosthetics. Biomedical engineers often collaborate with doctors, researchers, and other engineers to solve clinical problems and advance medical technology. Their work can be found in hospitals, research facilities, manufacturing companies, and regulatory agencies.

What Do Biomedical Engineers Do?

A Biomedical Engineer is an expert in the fields of medicine and biological sciences. They use their extensive knowledge base to develop different kinds of equipment and devices with the end goal of improving the effectiveness of patient care. Biomedical Engineers are critical thinkers and analysts. Their time is spent brainstorming solutions to medical problems and designing new devices, such as diagnostic machinery and even equipment for artificial body part generation. It is the job of a Biomedical Engineer to maintain the equipment they develop and to train other clinicians on proper usage and upkeep. In addition to the hands-on aspect of this career, Biomedical Engineers also dedicate time to researching medical dilemmas, studying up on biological discoveries, and assisting in the development of new scientific advances.

What are some common challenges biomedical engineers face when working on interdisciplinary teams?

Biomedical engineers frequently collaborate with professionals from diverse backgrounds, including clinicians, software developers, and regulatory specialists. One common challenge is effectively communicating technical concepts to non-engineers and aligning project goals across disciplines. Navigating differing priorities and timelines can also require strong project management and interpersonal skills. Emphasizing clear communication and a willingness to learn from other fields helps biomedical engineers successfully contribute to innovative healthcare solutions.

What is the difference between Biomedical Engineer vs Mechanical Engineer?

AspectBiomedical EngineerMechanical Engineer
Required CredentialsBachelor's in Biomedical Engineering or related field; often licensed or certifiedBachelor's in Mechanical Engineering; licensure varies by role
Work EnvironmentHospitals, medical device companies, research labsManufacturing, automotive, aerospace, research facilities
Industry UsageHealthcare, medical device development, biotechAutomotive, aerospace, energy, manufacturing

Biomedical Engineers focus on designing and improving medical devices and healthcare solutions, working mainly in healthcare settings. Mechanical Engineers have a broader scope, working on machinery, systems, and products across various industries. While both roles require engineering degrees, their work environments and industry applications differ significantly.

What are the key skills and qualifications needed to thrive as a Biomedical Engineer, and why are they important?

To thrive as a Biomedical Engineer, you need a solid background in biology, engineering principles, mathematics, and often at least a bachelor's degree in biomedical engineering or a related field. Familiarity with CAD software, medical imaging systems, and regulatory standards such as FDA guidelines is typically required. Strong problem-solving, communication, and teamwork skills help you collaborate with healthcare professionals and translate technical solutions into clinical practice. These competencies are crucial for developing safe, effective medical devices and technologies that improve patient outcomes.

Can a Biomedical Engineer make 200k?

Biomedical engineers can earn salaries approaching or exceeding $200,000 annually, primarily with extensive experience, advanced degrees, or specialized skills in areas like medical device development or management. High salaries are more common in senior roles, leadership positions, or in certain geographic regions with higher living costs. Certifications and expertise in regulatory standards can also contribute to higher compensation.
More about Biomedical Engineer jobs
What are the most commonly searched types of Biomedical Engineer jobs in Indiana? The most popular types of Biomedical Engineer jobs in Indiana are:
What are popular job titles related to Biomedical Engineer jobs in Indiana? For Biomedical Engineer jobs in Indiana, the most frequently searched job titles are:
What job categories do people searching Biomedical Engineer jobs in Indiana look for? The top searched job categories for Biomedical Engineer jobs in Indiana are:
What cities in Indiana are hiring for Biomedical Engineer jobs? Cities in Indiana with the most Biomedical Engineer job openings:
What are popular job titles related to Biomedical Engineer jobs in IN? For Biomedical Engineer jobs in IN, the most frequently searched job titles are:
Biomedical Engineer jobs near you
Infographic showing various Biomedical Engineer job openings in Indiana as of June 2026, with employment types broken down into 2% Internship, 1% As Needed, 50% Full Time, 8% Part Time, 37% Contract, and 2% Nights. Highlights an 88% Physical, 4% Hybrid, and 8% Remote job distribution, with an average salary of $90,215 per year, or $43.4 per hour.

Associate or Full Professor in Convergent Biology and Biomedical Engineering

Indiana University Academic Positions

Indianapolis, IN

Other

Posted 18 days ago

Job description

Position Details
Title Associate or Full Professor in Convergent Biology and Biomedical Engineering Appointment Status Tenure Department IU Indianapolis Department of Biomedical Engineering and Informatics - Luddy School Location Indianapolis Position Summary
The Indiana University (IU) School of Science and the Luddy School of Informatics, Computing, and Engineering at IU Indianapolis invite applications for a tenured Associate or Full Professor position whose research operates at the intersection of biology and biomedical engineering.
This position is a strategic joint hire aligned with the Convergent Bioscience and Technology Institute (CBATI) and is intended to strengthen and expand interdisciplinary research capacity across biology, biomedical engineering, and translational biosciences.
Strategic Research Areas of Interest
Priority consideration will be given to candidates whose research programs align with one or more of the following areas:
- Bacterial pathogenesis and antibiotic resistance, including microbiology, immune engineering, and host-pathogen interactions
- Biohybrid and bioinspired materials and biological-synthetic interfaces
- Bio-machining, bio-manufacturing, and biofabrication, including bioprinting and scalable living systems
- Regenerative biology and regenerative medicine with translational relevance
Role within the Convergent Bioscience and Technology Institute (CBATI)
The Convergent Bioscience and Technology Institute (CBATI) drives interdisciplinary bioscience and technology research and collaboration with industry partners in pursuit of discoveries ranging from wearable and implantable medical devices and sensors to the advanced detection of biomarkers and AI-enabled drug discovery and delivery. With a goal of quickly delivering IU health and sciences innovations from the bench to bedside, the institute will aim to stimulate substantial growth in the disclosure and licensing of inventions, discoveries and innovations, as well as industry partnerships and IU-launched startup companies.
This position is affiliated with the Convergent Bioscience and Technology Institute (CBATI), IU Indianapolis' institute dedicated to advancing convergent bioscience and technology research. Faculty affiliated with CBATI are expected to participate actively in interdisciplinary research efforts and collaborative proposal development.
IU has also recently broken ground on the Launch Accelerator for Biosciences (IU LAB) - a first-of-its kind academic-industry initiative to harness Indiana's extensive resources in bioscience discovery, leading to significant advancements in human health. Supported by a $138 million Lilly Endowment Inc. grant, IU LAB acts as the hub between industry and academia, positioning Indiana and the greater Indianapolis region as an international leader for biosciences research and innovation. IU LAB is expected to open in the 16 Tech Innovation District in 2027.
The successful candidate will have opportunities to contribute to shaping collaborative research themes, support interdisciplinary training and mentoring, and engage with translational and industry-facing initiatives through CBATI and IU LAB, consistent with their interests and experience.
Application Process
Open until filled.
Application materials include:
  • Curriculum Vitae
  • Cover Letter
  • Statement of Research
  • Statement of Teaching
  • List of References

About the Indiana University Luddy School of Informatics, Computing and Engineering - Indianapolis
The Indiana University Luddy School of Informatics, Computing and Engineering is the first completely new school in the United States devoted exclusively to Informatics and a range of its subdisciplines. With its formative national role in creating the nation's largest Informatics Program on the Bloomington and Indianapolis campuses, the school is the broadest and one of the largest information/computing schools in the U.S. At IU Indianapolis, the school also has strong ties with the health and life sciences in the areas of health data exchange, clinical decision support, consumer health informatics, integrated health information systems, and interactive health information technologies. The school provides state-of-the-art facilities including fully equipped classrooms, media and gaming labs, human-computer interaction research labs, usability and mobile development labs, ample research facilities, and studios for sound design and interactive media production. Access to advanced, high-resolution wall-sized displays and virtual environments are also available within the Informatics and Communications Technology Complex. The school has formed key research partnerships with the IU School of Medicine and the Regenstrief Institute, an internationally recognized medical informatics research center. The school also enjoys collaborations with the Roudebush VA Medical Center, IU Health (one of the largest health care organizations in the Midwest), the IU Schools of Nursing, Public Health, Health and Human Sciences, and School of Science. Luddy School faculty have access to state-of-the art computing resources. IU's Quartz supercomputer, Big Red 200 is among the world's fastest research supercomputers. Owned and operated solely by IU, these high-performance resources are designed to accelerate discovery in a wide variety of fields, including biomedicine, biotechnology, health care, and enable effective analysis of large, complex biomedical data sets (i.e., big data).
About the Indiana University School of Science
The School of Science is home to six departments and two interdisciplinary academic programs that serve over 2000 students. Each of the six departments hosts thriving PhD and research programs. The Department of Biology has 25 full-time faculty members, over 750 undergraduate majors, and approximately 60 graduate students enrolled in Ph.D. and M.S. programs. The Department of Biology has a strong record of externally funded research, well-equipped research laboratories and several core facilities. With an extensive hospital system and the IU School of Medicine, IU Indianapolis is home to a large and vibrant community of researchers and collaborators in all areas of biomedical science. Consistent with our health and life science focus, many faculty in the department have strong connections with the IU School of Medicine (Indiana University School of Medicine (iu.edu)) on the same campus, and pursue strong, externally funded, programmatic research.
About Indiana University Indianapolis
The IU Indianapolis campus, with over 21,000 students, is located adjacent to downtown Indianapolis. IU Indianapolis is the health and life science campus of Indiana University, the focal point of health profession education in the State of Indiana. IU Indianapolis offers a full range of academic programs, and is an academic leader in the development and use of information technology. IU Indianapolis shares a campus with the Indiana University School of Medicine, the largest medical school in the US. IU Indianapolis is an eight-time recipient of the Higher Education Excellence in Diversity Award by Insight into Diversity. IU Indianapolis is a campus renowned for service learning, civic engagement, and health sciences research.
About Indianapolis
Indianapolis is the nation's 16th largest city, the capital of Indiana, home to the Indianapolis Motor Speedway, the NCAA, the Indianapolis Colts and Indiana Pacers, Indiana Repertory Theatre, Indianapolis Symphony, Indianapolis Ballet, Indianapolis Museum of Art, Indianapolis Zoo and one of the country's most livable big cities.
Indiana is entering a new era of dynamic growth led by the biosciences, manufacturing, artificial intelligence, healthcare and hospitality industries. Just last year, Indiana's biosciences sector generated over $99 billion in economic activity, while its hospitality industry welcomed 30 million visitors who contributed $5.8 billion of economic impact. Indianapolis is a significant biotech hub, anchored by global giants like Eli Lilly and Roche, alongside numerous other major players like Elanco, AstraZeneca, Merck, and Sanofi, plus specialized firms such as Zimmer Biomet, INCOG BioPharma, Genezen Labs, and Beckman Coulter, making it a strong center for pharmaceuticals, diagnostics, and life sciences.
To learn more about Indianapolis, see any of the following websites:
  • IndyParks, with over 150 parks in and around the city
  • Local Government & Neighborhoods
  • Downtown Indianapolis
  • Tourism
  • Indianapolis Monthly's "Best of Indy"
  • Carmel, Indiana, rated the #1 Best Place to Live in the U.S.
Basic Qualifications
Basic Qualifications
  • Ph.D. or equivalent terminal degree in Biology, Biomedical Engineering, Bioengineering, Biotechnology, or a closely related discipline
  • Appointment at the tenured Associate or Full Professor level at time of hire
  • Demonstrated ability to sustain an externally funded research program
  • Evidence of effective teaching and mentoring.
Department Contact for Questions
Jeff Hostetler, HR Business Partner, jehostet@iu.edu.
Additional Qualifications Salary and Rank Special Instructions For Best Consideration Date Expected Start Date 08/01/2026 Posting Number IU-101454-2026

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