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Full Time 3D Medical Imaging Post Processing Jobs

The Polymers Post Processing Technician will be responsible for the post-processing of 3D printed polymer devices. Relevant processes include: part washing, UV curing, support removal, and surface ...

The Polymers Post Processing Technician will be responsible for the post-processing of 3D printed polymer devices. Relevant processes include: part washing, UV curing, support removal, and surface ...

Who We Are BeLeaf Medical is one of Missouri's leading, vertically integrated cannabis companies ... Post-Processing Supervisor and management team. * Complete quality control audits as required ...

Who We Are BeLeaf Medical is one of Missouri's leading, vertically integrated cannabis companies ... Post-Processing Supervisor and management team. * Complete quality control audits as required ...

Create G-code post-processing scripts to enhance workflow and efficiency. * Conduct research and ... Comprehensive insurance (medical, dental, and vision). * A generous Employee Stock Option Plan.

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Full Time 3D Medical Imaging Post Processing information

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How much do full time 3d medical imaging post processing jobs pay per hour?

As of Jul 15, 2026, the average hourly pay for full time 3d medical imaging post processing in the United States is $24.67, according to ZipRecruiter salary data. Most workers in this role earn between $19.71 and $28.12 per hour, depending on experience, location, and employer.

What is a Full Time 3D Medical Imaging Post Processing Specialist?

A Full Time 3D Medical Imaging Post Processing Specialist is a healthcare professional who processes and enhances medical images, such as CT or MRI scans, to produce three-dimensional visualizations. These specialists use advanced software tools to assist radiologists and physicians in diagnosing and planning treatments by creating detailed models of organs, tissues, or abnormalities. The role requires knowledge of medical imaging technology, anatomy, and image processing techniques. It is a full-time position typically found in hospitals, diagnostic centers, or medical imaging companies.

What are the key skills and qualifications needed to thrive as a Full Time 3D Medical Imaging Post Processing Specialist, and why are they important?

To thrive as a Full Time 3D Medical Imaging Post Processing Specialist, you need a strong background in medical imaging, anatomy, and image analysis, often supported by a degree in radiologic technology or a related field. Familiarity with advanced imaging software (such as OsiriX, Mimics, or 3D Slicer), PACS systems, and possibly certifications in CT or MRI are typically required. Attention to detail, strong communication, and the ability to collaborate with radiologists and surgeons are crucial soft skills. These competencies ensure accurate, high-quality 3D reconstructions that are critical for diagnosis, surgical planning, and patient outcomes.

What is the difference between Full Time 3D Medical Imaging Post Processing vs MRI Technician?

AspectFull Time 3D Medical Imaging Post ProcessingMRI Technician
CredentialsCertification in imaging software, relevant degreesRadiologic Technologist certification, ARRT license
Work EnvironmentImaging labs, hospitals, clinics, primarily computer-basedHospitals, imaging centers, patient interaction
Employer & Industry UsageMedical imaging companies, hospitals, diagnostic labsHospitals, outpatient clinics, diagnostic centers
Job FocusProcessing and analyzing 3D imaging dataOperating MRI machines, capturing images

While both roles involve medical imaging, Full Time 3D Medical Imaging Post Processing focuses on analyzing and processing 3D imaging data, often in a computer-based environment. In contrast, MRI Technicians operate MRI machines to acquire images directly from patients. Both roles require specialized certifications and are essential in diagnostic workflows, but they differ in daily tasks and work settings.

What are some common challenges faced by professionals in Full Time 3D Medical Imaging Post Processing, and how can they be addressed?

Professionals in Full Time 3D Medical Imaging Post Processing often encounter challenges such as managing large volumes of imaging data, ensuring accurate and timely reconstruction, and maintaining clear communication with radiologists and other medical staff. Staying current with evolving software and imaging protocols is also crucial. To address these challenges, it's important to develop strong organizational and technical skills, participate in ongoing training, and foster collaborative relationships with the clinical team. This approach helps ensure high-quality results and efficient workflow in a fast-paced healthcare environment.
More about Full Time 3D Medical Imaging Post Processing jobs
What cities are hiring for Full Time 3D Medical Imaging Post Processing jobs? Cities with the most Full Time 3D Medical Imaging Post Processing job openings:
What are the most commonly searched types of 3D Medical Imaging Post Processing jobs? The most popular types of 3D Medical Imaging Post Processing jobs are:
What states have the most Full Time 3D Medical Imaging Post Processing jobs? States with the most job openings for Full Time 3D Medical Imaging Post Processing jobs include:
Infographic showing various Full Time 3D Medical Imaging Post Processing job openings in the United States as of July 2026, with employment types broken down into 1% As Needed, 86% Full Time, 10% Part Time, and 3% Contract. Highlights an 90% Physical, 3% Hybrid, and 7% Remote job distribution, with an average salary of $51,319 per year, or $24.7 per hour.
Postdoctoral Fellow - Imaging Physics - Research

Postdoctoral Fellow - Imaging Physics - Research

MD Anderson

Houston, TX • On-site

$64K - $76K/yr

Full-time

Medical, Dental, Retirement, PTO

Posted 17 days ago


MD Anderson Cancer Center rating

8.4

Company rating: 8.4 out of 10

Based on 169 frontline employees who took The Breakroom Quiz

27th of 885 rated healthcare providers


Job description

A postdoctoral fellowship position is available in the Department of Imaging Physics in the laboratory of Ke Li, PhD. Dr. Li's research program focuses on the development of next-generation computed tomography (CT) and cone-beam CT technologies and their translation into cancer imaging, image-guided radiation therapy, and image-guided surgical interventions. The laboratory offers a highly collaborative and multidisciplinary research environment with access to world-class medical imaging facilities, computational resources, clinical collaborators, and large-scale imaging datasets.
The successful candidate will contribute to innovative research at the intersection of physics, medicine, and engineering.
Current research projects include, but are not limited to:
• Development of photon-counting detector CT and cone-beam CT hardware and reconstruction algorithms to improve cancer detection, characterization, and precision in cancer treatment.
• Development and validation of advanced CT image reconstruction, artifact reduction, and post-processing techniques.
• Quantitative evaluation of deep learning-based CT reconstruction and image analysis algorithms.
• Explore and validate new clinical applications of quantitative and spectral CT and cone-beam CT.
All duties and responsibilities are carried out in compliance with institutional policies, ethical research standards, and applicable federal and state regulations.
LEARNING OBJECTIVES
The postdoctoral fellow will participate in highly productive interdisciplinary research spanning diagnostic radiology, image-guided radiation therapy, and image-guided surgery. Through these projects, the fellow will gain expertise in photon-counting detector physics, CT and cone-beam CT image reconstruction and artifact reduction techniques, Spectral CT and material decomposition, quantitative image quality assessment, virtual lesion insertion and imaging simulation, Monte Carlo-based imaging and detector simulation, and 2D-3D image registration.
The successful candidate will be expected to conduct independent and collaborative research, present research findings at laboratory meetings, seminars, or conferences, publish results in peer-reviewed journals, prepare abstracts, technical reports, and research proposals, and contribute to the development of new research initiatives and collaborative projects.
ELIGIBILITY REQUIREMENTS
Applicants must have earned a Ph.D. in Physics, Applied Physics, or Medical Physics by the start date of the appointment. Candidates with experience in one or more of the following areas are preferred: CT image reconstruction, Monte Carlo simulation, medical image registration, radiation detection and instrumentation, or related fields in medical imaging physics. Strong programming and quantitative analytical skills are highly desirable. This appointment is a research position and is not part of a clinical training program.
ADDITIONAL APPLICATION INFORMATION
The initial appointment is for one year from the date of hire, with the possibility of renewal based on performance, funding availability, and mutual agreement.
POSITION INFORMATION
MD Anderson offers full-time postdoc positions with a salary ranging from $64,000 to $76,000. depending on the number of years of postgraduate experience. The University of Texas MD Anderson Cancer Center offers excellent benefits, including medical, dental, paid time off, retirement, tuition benefits, educational opportunities, and individual and team recognition
Offsite work arrangements are subject to approval and may be modified or revoked at any time based on business needs, performance considerations, or regulatory requirements.
This position may be responsible for maintaining the security and integrity of critical infrastructure, as defined in Section 113.001(2) of the Texas Business and Commerce Code and therefore may require routine reviews and screening. The ability to satisfy and maintain all requirements necessary to ensure the continued security and integrity of such infrastructure is a condition of hire and continued employment.
It is the policy of The University of Texas MD Anderson Cancer Center to provide equal employment opportunity without regard to race, color, religion, age, national origin, sex, gender, sexual orientation, gender identity/expression, disability, protected veteran status, genetic information, or any other basis protected by institutional policy or by federal, state or local laws unless such distinction is required by law. http://www.mdanderson.org/about-us/legal-and-policy/legal-statements/eeo-affirmative-action.html

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