Cranial Implant

Orthopedic Surgical Guide

Anatomical Surgical
Planning Model

Maxillofacial Surgical Guide

Orthopedic Implants

3D+

Academy

Advancing the Future of Education

Our Solutions

Revolutionizing healthcare with advanced 3D printing and AI—customized surgical solutions designed to inspire innovation and transform patient care!

Hands-On Learning:

Students and researchers move beyond theory through direct access to advanced 3D printing, materials, and real-world applications.

Research Enablement:

From prototyping to experimental manufacturing, 3D+ accelerates academic research with industry-grade tools and expertise.

Industry Bridging:

We connect academia to real industrial and healthcare challenges, turning projects into applied innovation—not shelf papers.

Our Services

3D Printed Customized Implants

Precision-engineered implants tailored to each patient’s unique anatomy, utilizing advanced 3D printing technology for optimal fit, reduced weight, and enhanced osseointegration. Perfect for transforming complex surgical challenges into seamless solutions.

Specialized 3D Printing Courses (In-person or Online)

Educational programs covering design, printing, and
practical applications.

Intensive Training Bootcamps

Short, hands-on programs designed to build
advanced skills within a condensed timeframe.

E-Learning/Training Platform

Digital educational content that enables flexible remote learning.

Joint Programs with Universities

Academic partnerships and knowledge exchange to support applied education and scientific research.

Research Participation & Patent Development

Contributing to the development of new solutions and transferring knowledge to the market

3D+ Selected Projects

Highlighted projects that define our expertise and approach.

Patient-Specific Anatomical Model

8-year-old patient diagnosed with mandibular ameloblastoma, conventional 2D imaging limited full appreciation of the lesion’s three-dimensional extent and its anatomical relationships. 3D+ segmented high-resolution CT data to produce a patient-specific anatomical 3D model, improving spatial understanding to support preoperative surgical planning and clearer surgeon–patient/family communication.

Book Now

Protective Mask Design

Saudi national team captain Yasser Al-Shahrani suffered a complex fracture of the jaw and facial bones during the FIFA World Cup match against Argentina, including mandibular and maxillofacial injury confirmed on imaging after an on-field collision. 3D+ used his CT data to develop a patient-specific anatomical model and custom 3D-printed protective facial mask, enhancing pre-operative visualization and enabling precise design of intra- and post-operative care aids to support functional recovery and return-to-play planning.

Book Now

3D-Printed Osteotomy Guides

(Fibula Free-Flap): Complex fibula free-flap mandibular reconstruction requires multiple precise osteotomies and accurate segment positioning to restore occlusion and facial symmetry, where small angular errors can accumulate into major malalignment. 3D+ designed and produced patient-specific 3D-printed cutting and positioning guides, translating the virtual surgical plan to the operating room to standardize bone cuts, improve reconstruction accuracy, and reduce intraoperative guesswork and time.

Book Now

Patient-Specific Jaw Angle Augmentation

Achieving symmetrical and anatomically appropriate mandibular angle enhancement is challenging with standard implants due to inter-patient variability in bone contour and thickness. 3D+ designed and produced a patient-specific 3D-printed jaw angle augmentation implant based on CT-derived anatomy, enabling precise fit to the mandibular cortex, improved aesthetic predictability, and streamlined intraoperative positioning.

Book Now

Cutting Guides& Fixation kit

Cutting Guides
& Fixation kit

(Fibula Free-Flap Reconstruction) Segmental mandibular reconstruction with a fibula free flap requires accurate osteotomy angles, segment length control, and stable intraoperative positioning to achieve planned contour and occlusion. 3D+ delivered a virtual surgical plan translated into patient-specific 3D-printed cutting guides for the fibula/mandible, along with a custom fixation/positioning jig to maintain alignment during assembly—improving reconstructive accuracy, reducing intraoperative trial-and-error, and supporting predictable final mandibular geometry.

Book Now

3D Surgical Planning Anatomical Model

Complex maxillofacial reconstruction often involves distorted anatomy where fracture lines, defects, and occlusal relationships are difficult to interpret from 2D imaging alone. 3D+ generated a patient-specific 3D surgical planning model from CT data, enabling surgeons to visualize skeletal defects, assess spatial relationships, rehearse surgical steps, and align the operative plan with reconstruction and fixation strategies before entering the operating room.

Book Now

Periodontal Surgical Guide

Precise control of incision depth, bone contouring, and soft-tissue management is critical in periodontal surgery, where limited visibility can compromise accuracy and outcomes. 3D+ designed and fabricated a patient-specific 3D-printed periodontal surgical guide based on digital dental anatomy, enabling controlled, repeatable surgical access and improved precision during periodontal intervention while reducing intraoperative variability.

Book Now

Genioplasty Surgical Guide

Precise control of osteotomy level, angulation, and segment repositioning is critical in genioplasty, where millimetric deviations can significantly affect facial balance and symmetry. 3D+ designed a patient-specific 3D-printed genioplasty surgical guide from CT-derived anatomy, enabling accurate transfer of the virtual plan to the operating field, improving osteotomy precision, predictability of chin advancement or reduction, and overall aesthetic and functional outcomes.

Book Now

Patient-Specific Radius Osteotomy Guide

(Ballistic Injury): In a comminuted gunshot-related radius fracture with segmental bone loss, debridement and planned osteotomy must achieve accurate bone resection while avoiding iatrogenic injury to adjacent vascular structures. 3D+ produced a CT-based anatomical model and a patient-specific 3D-printed cutting guide that defined osteotomy position and saw trajectory, translating the preoperative plan to the operative field to improve cut accuracy and support safer execution with vascular preservation in mind.

Book Now

Box Osteotomy Surgical Training Model

Box osteotomy for correction of hypertelorism requires precise control of osteotomy planes, segment mobilization, and repositioning while maintaining safe margins from critical orbital, nasal, and intracranial structures. 3D+ developed a CT-based, patient-specific craniofacial surgical training model to visualize complex anatomy, define osteotomy lines and vectors of movement, and support multidisciplinary planning—enabling accurate execution of the box osteotomy and safer translation of the surgical plan to the operating room.

Book Now

Box Osteotomy Surgical Training Model

Customized Radiation Oncology Facial Shield

Box Osteotomy Surgical Training Model

During head and neck radiotherapy, irregular facial anatomy and proximity of critical structures increase the risk of radiation scatter and unintended skin dose. 3D+ designed and fabricated a patient-specific 3D-printed facial shielding device with an integrated internal liner, conforming precisely to facial contours to reduce surface dose and scatter exposure, supporting safer radiation delivery while preserving skin integrity and patient comfort.

Book Now

3D+ Achievements & Numbers

An overview of our key milestones, achievements, and performance figures that reflect our growth and impact.

MEDICALCASES

0 +

PROJECTS DELIVERED

0 +

PROPRIETARY PRODUCT

0 +

TRAINEES

0 +

PROJECTS

0 +

Choose time for

Your Consultation

Know About Us

The idea of 3D+ emerged from a real-world challenge in planning complex surgical cases, with the aim of enabling surgeons to make more accurate and safer decisions prior to surgical intervention.

The journey began in 2013 in Ontario, Canada, through applied research in surgical digital twin technologies and 3D printing, where medical imaging data were transformed into tangible, patient-specific 3D models supported by customized surgical tools, contributing to a shift in conventional surgical planning practices.

In 2018, the experience was transferred to the Kingdom of Saudi Arabia to create local impact aligned with international standards. During this phase, the company successfully completed its first 100 digitally planned surgical cases, delivered by Saudi hands.

Today, 3D+ is a Saudi-based company specializing in innovative 3D printing and advanced manufacturing solutions, delivering an integrated ecosystem spanning design, modeling, and execution, with a strategic focus on the healthcare, education, industrial, and defense sectors.

Mission

3D+ strives to empower individuals and organizations to transform ideas into impactful 3D-printed solutions and products through an integrated framework combining manufacturable solutions, advanced education, and applied research driven by a firm belief that technology is a catalyst for creating innovative, viable solutions with real-world impact.

Vision

To be a leading company in 3D printing and advanced manufacturing solutions locally, across the GCC, and globally delivering sustainable impact in vital sectors through innovative solutions that drive tangible transformation in professional workflows and quality of life.