Spinal WorkflowSupercharging reach
with data intelligence

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We’re embracing a future where treatment decisions are guided by real-world insights, patient-specific data, and global best practices from clinical research. By integrating highly granular patient-generated data, robotics, and imaging into our trusted workflow paradigm, we’re personalizing spine treatment and optimizing outcomes for every patient.

A whole new level of native interoperability

Our innovative approach begins with the creation of a digital twin of the patient, powered by AI algorithms that seamlessly aggregate diagnostic imaging into a single, intelligent 3D model. This patient avatar allows us to plan optimal vertebra alignment and screw placement with precision. From here, we enhance every step of the surgical journey—empowering healthcare professionals with real-time data, personalized insights, and cutting-edge technology to improve outcomes and drive continuous innovation in spine care.

Engage. Collect. Secure.
Empowering patients from the start with seamless access to care through app-driven engagement.

Patient engagement

Simulate. Train. Accelerate.
Driving adoption of AI-powered education tools to enhance surgical skills and accelerate learning.

Medical education

Measure. Plan. Align.
Empowering surgeons with AI-driven tools to optimize surgical precision and patient outcomes.

Surgical planning

Augment. Update. Resect.
Personalizing spine surgery with precision intraoperative imaging to refine the surgical plan and optimize outcomes.

Robotic imaging

Plan. Align. Stabilize.
Enabling fast, accurate spine stabilization and alignment and precision realignment if needed.

Robotic alignment

Position. Monitor. Treat.
Collecting postoperative data for real-time analysis, improving care and supporting global patient insights.

Patient reported outcomes

Step 1Patient engagement

Capturing valuable and relevant information

We’re actively working on heightening engagement with a focus on the patient as a valuable resource so that relevant information is securely collected right from the start of the surgical journey.

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Advanced privacy governance

Our collaboration with scientific spine societies is fostering the development of global, high-quality registries, starting with GDPR and HIPAA-compliant patient consent and data privacy management.

Precision pain tracking

As part of the personalized patient journey, we integrate structured patient pain assessments into physician-patient discussions, contributing to granular, multi-source data aggregation.

Step 2Medical education

Accelerating resident training
with virtual technology

Digital twin technology powers our training and education app, allowing residents to practice surgeries on virtual cases and accelerate their learning.

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Future ready gaming engines

We’re empowering future spine surgeons to unlock their maximum potential. Our immersive learning platform allows users develop a profound understanding of spinal anatomy and various pathologies.

Step 3Surgical planning

Confirming in the physician’s office

Using AI and advanced algorithms, the patient’s spine is measured and labeled and a digital twin created for automatic surgical planning of the alignment of each vertebra and the positioning of every screw.

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AI-powered planning suite

Advanced software identifies all vertebrae automatically and delivers a plan detailing optimal screw placement. The system allows simulation of the surgical situation both pre- and post operatively.

Software-first imaging workflows

The surgeon selects the desired image scan area via a tablet triggering Loop-X Mobile Imaging Robot. The imaging robot automatically navigates to the correct position, acquires the images with full motion control and subsequently moves away autonomously to clear space for the surgical team.

Step 4Robotic imaging

Enhancing procedures with intraop imaging insights

The preoperative images acquired by Loop-X Mobile Imaging Robot are integrated seamlessly into the digital twin (patient avatar), and the surgical plan is updated in real time to reflect the patient’s exact position and condition.

Robotic execution and data capture

Upon plan confirmation, robotic execution ensures precise alignment and rapid placement of all screws according to the predefined strategy.

Throughout this workflow, a vast amount of procedural workflow is automatically captured from the plan, the robotic system and other sources and may be used in other areas like clinical registries.

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Step 5Robotic alignement

Leveraging robotic reliability, consistency and precision

When it’s time for spine stabilization, Cirq robotic arm ensures fast, precise alignment, and if needed, realignment to the exact screw axis.

Granular data capture

Throughout the surgery, Brainlab enables real-time, granular data capture with a single tap, empowering staff to record critical information with ease.

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Step 6Patient reported outcomes

Collecting valuable postsurgery data

Post-surgery, patients are encouraged to provide valuable recovery data—patient reported outcomes—via online questionnaires which are facilitated by a unique, internationally compatible technology.

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Fueling the future

Our data dashboards aggregate patient information for similar indications and treatments which can be leveraged to optimize current and future treatments.

Spinal WorkflowSupercharging reach
with data intelligence

A whole new level of native interoperability

Patient engagement

Medical education

Surgical planning

Robotic imaging

Robotic alignment

Patient reported outcomes

Step 1Patient engagement