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Industrial Design / UX Design / Design Research

Open to Work/Research Opportunities! Industrial Design / UX Design / Design Research

Focus: Pediatric Cardiac Surgery Training | Period: Thesis Semester, Winter 2021/22 - Present

ImPulse aims to establish a new paradigm for pediatric cardiac surgery training. Currently, the only way for trainee surgeons to practice pediatric surgery is to operate on actual patients. Unfortunately, this exposes patients to unnecessary risk; thus, senior surgeons hesitate to let trainees participate. Hence the need for simulation training modules that pose no threat to patients.

Read the complete masters thesis on ResearchGate

Overview

Video Overview

ImPulse offers trainees a high-fidelity simulation training module called Janān, simulating the various steps of pediatric cardiac surgery from start to finish in a safe environment that is consistent, repeatable, and uses the same tools and equipment as actual surgery.

Janān and its internal modules are 3D printable, with heart modules representing common congenital heart deformities that all pediatric cardiac surgeons should be able to treat. This is especially beneficial for economically and politically constrained areas where it is otherwise difficult to access medical training devices.

Janān

Pediatric Cardiac Surgery Training

Congenital heart diseases are the most common form of birth deformities that require surgical intervention. Given the nature of infants, pediatric cardiac surgeons need to master their craft and develop advanced psychomotor skills to save such delicate yet complex organs. However, with its opportunity-based education, the current paradigm of surgical training programmes fails to provide trainees with adequate chances to develop those skills. Furthermore, existing training programmes are not feasible to implement in politically and economically constrained areas, making it impossible to establish highly specialised and well-trained local surgical teams.

ImPulse aims to incorporate an easy-to-implement surgical training module [Janān] into pediatric cardiac surgery training programmes by utilising digital imaging and 3D printing technologies. Operating on Janān enhances surgical trainees’ psychomotor skills in a consistent and meaningful way, thus eliminating the reliance on low-risk patient cases for hands-on training. Trainees can then develop their skills on demand rather than when the opportunity arises. This is especially advantageous during times such as the pandemic, where practising on live patients is very difficult.

Unlike traditional ways of training, trainees can repeatedly practice congenital heart surgery from start to finish with Janān, giving them familiarity and confidence with all steps of the operation. For instance, trainees can cut open and stitch the chest and breastbone, connect the heart to a heart-lung machine (the basis of every open-heart surgery), and perform corrective surgery on the same module.

3D Printed Heart Modules

I 3D printed the heart modules in a flexible material that mimics the haptics of natural tissue, which can be cut and stitched like natural hearts. Additionally, it is possible to 3D print heart modules based on a specific patient's CT scans, allowing surgeons to practice novel procedures that would otherwise pose a significant risk to live patients.

The modules represent the four most common congenital heart diseases globally. All of the modules are based on a healthy congenital heart that was created through the conversion of actual CT scans.

I designed Janān to be entirely 3D printable to make it possible to create high-fidelity and high-resolution simulation training modules in economically and politically constrained areas such as the Gaza Strip. I plan to clinically test Janān with my cardiac surgeon contacts in Germany and Tel Aviv before sending the 3D files to constrained areas. In addition, all design files will be freely published to help surgical trainees worldwide develop their skills.

For further information_

Please don’t hesitate to contact me if you’d like to check out the complete project documentation, thesis paper, additional material, or my current research proposal for further development. I’m actively seeking opportunities to push the project further!