Rama Alkhalaileh (LinkedIn) is a PhD student in Clinical Medical Sciences at the Medical School of the University of Pécs, based in Hungary.
Her research focuses on improving the mechanical reliability of 3D‑printed orthoses, bridging digital manufacturing with clinical safety and patient‑specific care. She also work on 3D-printed materials, including their mechanical and environmental testing.
- Industry relevance tags: Medtech, 3D printing, Orthopaedics, Digital manufacturing, Material science, and Mechanical testing
- Core research problem: How 3D-printed, carbon-fiber-reinforced orthoses can be made mechanically reliable, affordable, and clinically safe while enabling patient-specific customization.
“Innovation in healthcare only works when technology, safety, and patient needs are designed together.”
Rama Alkhalaileh, The Short Version
- LinkedIn: Rama Alkhalaileh
- Institution: University of Pécs, Medical School
- Location: Pécs, Hungary
Rama Alkhalaileh is a PhD student in clinical medical sciences, working at the intersection of orthopaedics, biomedical engineering, and 3D printing.
Her research explores carbon fibre-reinforced composites 3D‑printed polymers for patient‑specific orthotic devices.
With a background in orthotics, prosthetics, and biomedical engineering, she combines clinical insight with engineering innovation.
Outside research, she enjoys exploring new technologies, learning languages, and staying active through sports and outdoor activities.
Reimagining Orthopaedic Devices
Rama’s PhD research aims to improve the mechanical reliability of 3D‑printed orthoses for patients with neuromuscular and musculoskeletal disorders.
Her work evaluates whether carbon fibre-reinforced composites polymers can deliver lightweight, cost‑effective, and safe alternatives to traditionally manufactured orthoses.
The goal is to maintain mechanical strength while increasing customization and reducing production time.
From Digital Design to Clinical Reality
One of the most formative challenges of Rama’s PhD has been navigating the gap between technological innovation and clinical applicability. She has learned that even highly promising designs must meet strict regulatory, safety, and usability requirements before they can be adopted in real healthcare settings.
This experience has made her more patient and detail‑oriented, encouraging her to think about feasibility and impact from the earliest stages of design.
Motivated by Patient‑Specific Care
With training in both clinical orthotics and biomedical engineering, Rama is passionate about moving beyond one‑size‑fits‑all solutions.
She is particularly interested in how 3D printing can enable truly personalized orthopaedic devices that improve comfort, function, and quality of life for patients.
Bridging Research, Industry, and Clinics
Rama sees collaboration as essential to achieving real‑world impact. She is eager to work with clinicians, rehabilitation specialists, materials scientists, and digital manufacturing experts.
She is also interested in connecting with health‑tech startups, innovation hubs, and industry partners to explore commercialization pathways for her research.
Looking Ahead
For her future career, Rama aims to strengthen both technical and entrepreneurial skills. She wants to deepen her expertise in advanced materials and biomedical device design, while also learning more about innovation management, technology transfer, and interdisciplinary leadership.
“My goal is to turn advanced manufacturing into accessible solutions that genuinely help patients.”