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3D Medical Applications

Ilan Lenzner

Transforming patient care through precision 3D printing,
custom medical devices & innovative scanning technology

Explore My Work The Story Behind It
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0 Hospital Departments
0 Major Hospitals
0 Patented Invention
0 Custom Devices Created
The Beginning

Romi's Story

Why am I here?

During my studies I encountered Romi, a one-and-a-half-year-old girl who had undergone a corneal transplant. I was asked to create a customized eye protector for her. Witnessing the improvement in her condition and her family's relief made me realize — this was the path I wished to pursue.

3D scan of child's face in mesh editor
3D facial scan with protective device design overlay
CAD design of cranial protective device
FEM mesh model of the protective device
3D print slicer view with support structures
3D printer producing the custom device
Vacuum forming the protective shell
Finished transparent cranial shell
Romi wearing the custom 3D printed protective device
3D printed face mold for device fitting
Finished protective devices packaged for use
Romi wearing the protective device
Portfolio

My Work

Across multiple departments and hospitals, I design, scan, model, and 3D print custom medical solutions — from training models to patient-specific devices.

Beilinson Hospital

Urology

Designing 3D models for training, improving patient understanding and student education. Creation of animated films for demonstration and instruction. Printing models for training and explanatory purposes.

3D printed kidney cross-section model
Multi-color kidney model with tumor highlighted
Green 3D printed kidney with vascular structures
3D printed organ training model
Anatomical 3D visualization
3D rendering of pelvic anatomy
3D printed anatomical model
Detailed pelvic anatomy model
3D rendered kidney cross-sections
Beilinson Hospital

Radiotherapy

Designing and printing customized boluses to eliminate air gaps and enable precise radiation dosing. Customized fixation devices, personalized phantoms, and additional accessories.

Patient with custom 3D printed radiotherapy bolus
3D model showing bolus placement on face
3D model with blue nasal bolus on head
Custom bolus fitted on head cast
3D printed orange nasal bolus
White 3D printed facial bolus
3D printed bolus on printer bed
CT scan with bolus radiation planning
CT sagittal view with bolus placement
CT scan with radiation dose mapping
3D scan with radiotherapy mask overlay
3D scan with bolus design on face
3D printed nasal bolus piece
3D tumor model for radiation planning
CT scan with treatment volume overlay
Beilinson Hospital

Rehabilitation

Scanning, designing, fitting, and printing customized splints. Each device is tailored to the patient's exact anatomy for optimal recovery.

CAD design of custom ankle splint on 3D scan
3D designed foot orthotic device
Dynamic finger rehabilitation splints
Custom rehabilitation splint
Patient-specific orthotic device
Patient wearing rehabilitation device
Sharon Hospital

Orthopedics

Designing and printing pelvises and femurs for hip replacement surgeries. Enabling surgeons to practice and plan complex procedures with patient-specific anatomical models.

3D printed pelvis with hip implant inserted
3D printed pelvis and femur for surgical planning
Patient-specific hip replacement planning model
Pelvis model with implant - front view
Pelvis model in clinical environment
3D printed bone model with implant component
Sharon Hospital

ENT

Assisting in research and printing training tools for interns — including models for drilling and sawing practice on anatomically accurate reproductions.

3D visualization of temporal bone with cholesteatoma
Lateral view of cholesteatoma pathway
Temporal bone tumor 3D model
3D printed temporal bone training model
Anatomical sinus reproduction for practice
Printed ENT surgical training tool
3D printed inner ear model
3D nasal anatomy with highlighted pathology
Innovation

Autonomous Limb
Scanning Device

Invented and built by me as part of a concept for an AI-based splint manufacturing machine. This device autonomously scans a patient's limb to generate a precise 3D model, which can then be used to automatically design and manufacture a perfectly fitted splint.

CAD rendering of the autonomous scanning device
AI-Powered Automated scan-to-splint pipeline
3D Scanning Ring 360-degree limb capture
Custom Built Designed and assembled from scratch
Full frontal view of the scanner rig
Scanner ring close-up with sensors
Scanner with limb positioned for capture
CAD exploded view of scanner ring mechanism
Collaboration with Synergy

Custom Splints

Designing and producing custom protective splints for athletes, soldiers, and patients. From face masks for footballers to arm guards for combat soldiers — each piece is precision-fitted using 3D scanning and printing.

Digital mask overlay on patient 3D face scan
Custom protective nose splint
Patient checking mask fit
Soccer player wearing custom face mask in game
Soldier wearing custom protective arm guard
Metallic forearm splint
Custom 3D printed arm guard worn
Forearm splint fitted on patient
3D scanning arm for splint design
3D printed protective face mask
Face mask with straps
Custom full arm splint
Transparent forearm splint
Metallic forearm splint
3D render of face mask on model
Synergy & Stratasys

Designing Specialized Splints

Collaborating with industry leaders to push the boundaries of custom orthotic design.

Specialized 3D printed splints - cervical, hand, and leg orthotic devices
How It Works

The Process

01

Scan

3D scanning of the patient's anatomy using advanced scanning technology.

02

Design

CAD modeling of the custom device, optimized for fit and function.

03

Print

3D printing with medical-grade materials at sub-millimeter precision.

04

Deliver

Final fitting, adjustments, and delivery to the patient or medical team.