PET/MRI: For Researchers, Trainees and Partners

For researchers and trainees: Siemens BIOGRAPH One PET/MRI

What’s new

This research-dedicated BIOGRAPH One is Lawson’s next-generation integrated positron emission tomography / magnetic resonance imaging (PET/MRI) system. It is the first of its kind in Canada and one of the first installations worldwide. This cutting-edge platform delivers true simultaneous PET and MRI, enabling molecular, functional and high-resolution structural and physiological imaging in a single, coordinated acquisition.

Lawson has operated Canada’s longest running PET/MR program, having adopted PET/MR in 2012. With more than a decade of experience as early adopters and leaders in multimodal imaging, the new BIOGRAPH One expands our capability to support advanced, quantitative and translational research across disciplines.

BIOGRAPH One Highlights: Next Generation PET/MR Technology

35cm axial PET field of view enabling whole-organ or multi-region studies
Time-of-flight PET for enhanced sensitivity
Accelerated 3T MRI supporting high resolution and advanced imaging technique with reduced scan time
AI-enhanced image reconstruction for consistent, high-quality results
Next generation RF coil architecture for improved signal and comfort
Patient-adaptive “Biomatrix” technology reducing motion effects and improving quantification
Automated scan setup and reconstruction for consistent, efficient imaging workflows

Why simultaneous PET/MR is better

Simultaneous acquisition fundamentally changes what can be measured, improves data quality, and expands that kinds of scientific questions that can be asked.

Time-Matched Biology and Physiology

PET and MRI signals captures at the same moment enhance interpretation of dynamic processes
Eliminates timing differences inherent to sequential PET/CT + MRI workflows

Better Quantification, Fewer Confounds

Improved co-registration due to same-session imaging
MRI provides superior soft tissue contrast for accurate lesion or region definition
MR-based motion tracking and correction improves PET data robustness
Consistent geometry and fewer repositioning steps reduce variability in longitudinal and intervention studies

Richer Endpoints and Enhanced Participant Experience

Multiple MR contrasts (diffusion, perfusion, spectroscopy, fMRI) acquired in the same session as PET
Reduced radiation exposure compared to PET/CT
Single-visit protocols reduce participant burden and improve feasibility
Non-invasive imaging could replace the need for certain biopsies or invasive measurements

PET/MRI in Research

PET/MRI unlocks study design and endpoints that cannot be achieved with PET/CT or MRI alone.

Integrated multiparametric protocols combining PET with DWI, DCE, fMRI, MRS
Whole-body or muti-region acquisitions in a single exam
Dynamic and quantitative frameworks for mechanistic studies
Improved sensitivity and efficiency through advanced MR-assisted corrections

Some of its research Applications

Chronic Pain & Musculoskeletal Injury

Inflammation and metabolic signalling (PET) alongside tissue integrity and biomechanics (MRI)
Correlate molecular markers with functional adaptations or degeneration

Mental Health & Brain-Behaviour Pathways

Neurochemical targets with PET paired with connectivity, microstructure and functional measures (fMRI, diffusion, MRS)
Mechanistic insight into mood, cognition and neural circuitry

Inflammation & Systemic / Neuroinflammation Diseases

Characterize inflammatory biology with PET while quantifying tissue impact using MRI
Evaluate disease spread, burden and microstructural changes in a unified framework

Oncology

Sensitive tumour detection and staging
Tumour heterogeneity via PET uptake and DWI / DCE features
Early response biomarkers for treatment trials

Cardiology

Myocardial inflammation, perfusion and metabolic activity (PET) paired with cardiac function, flow and tissue characterization (MRI)
Evaluate ischemia, remodelling or microvascular dysfunction through integrated molecular and structural measures within a single coordinated exa

Why partner with us

PET/MR provides compelling, integrated endpoints that can enhance grant competitiveness.

Novel, Mechanism-Anchored Endpoints

Molecular signalling (PET) plus physiology and tissue characterization (MRI) in one protocol

Increased Rigour and Quantitative Stability

Reduced misregistration and MR-assisted motion correction mitigate key PET error sources
Consistent geometry supports reliable longitudinal data

Feasible, Participant-Friendly Study Designs

Single-visit, standardized acquisitions reduce attrition
Supports pre/post, dose-response, time-course and intervention studies

Competitive Differentiation

Access to cutting-edge, integrated imaging elevates methodological strength
Demonstrates advanced capability to reviewers and partners

Our team has collaborative expertise, from concept to publication:

Study Design & Feasibility

Endpoint selection, protocol design, workflow optimization; participant tolerability and timing planning

Tracer Strategy & Logistics

Access to cyclotron / radiochemistry expertise; guidance on tracer availability, regulatory pathways and translation planning

MRI Method Selection

Tailored sequences (diffusion, perfusion, spectroscopy, fMRI) matched to biological targets; optimization based on time, motion sensitivity and population

Quantification & Analysis Planning

Reconstruction, motion strategies, co-registration; ROI and voxelwise pipelines; data management and harmonization across timepoints

Our infrastructure is second to none, with integrated tools and advanced experimental design

32-Channel Brain RF Array

High-resolution brain-imaging supporting advanced fMRI, diffusion and spectroscopy

BrainPET Capability

High‑sensitivity PET imaging optimized for brain research, enabling detailed quantification of neuroreceptor targets, metabolism, inflammation, and neurodegenerative processes

ProPixx + SHIELDPixx

MRI-compatible visual/auditory brain imaging supporting advanced fMRI, diffusion and spectroscopy

TrackPixx Eye-Tracking

Real-time gaze monitoring for cognitive, behavioural and compliance-sensitive studies

fORP Response System

Precise participant input for behavioural and cognitive tasks

PowerLab Physiologic Recording

Synchronized ECG/respiration acquisition for motion correction and physiologic monitoring

Non-Proton / X-Nuclear MRI (NA-23, F-19)

Multinuclear MRI using sodium‑23 and fluorine‑19 coils enables metabolic, ion‑transport, and molecular imaging beyond conventional proton MRI

Hyperpolarized Xe-129 MRI

Cutting-edge gas-exchange and metabolic imaging for pulmonary and systemic disease research, supported by onsite hyperpolarizer

Cyclotron & Radiochemistry Capability

On‑site cyclotron and radiochemistry labs enable reliable production of established and novel PET tracers, supporting custom radiotracer development and complex molecular imaging studies.

Expert PET/MRI technologist team

Our technologists are dual-certified in PET and MRI with extensive experience in clinical research imaging, protocol development, participant safety, ethics and patient-centred care. Their combined clinical and research expertise ensures high-quality data and a comfortable experience for all participants.

Getting Started

The PET/MRI is available to all peer-reviewed grant-funded scientific investigators with appropriate REB approval. Access is subject to approval by the 3T PET/MRI Operating Advisory Group.

In addition, the PET-MR supports:

Industry sponsored clinical trials (subject to institutional and regulatory approvals)
Physician-led clinical research across specialties, including investigator-driven and sponsor-driven studies
External companies or individual investigators pursuing clinically oriented imaging studies in partnership with LawsonBooking Inquiries

Contact us

@email

Program Lead, Lawson Imaging Research Program

Michael Kovacs, PhD
@email

Director, Lawson PET/MRI Program
Keith St. Lawrence, PhD
@email

PET/MRI Research Lead Technologist
Heather Biernaski, MRT(N)(MR)
@email

MRI Medical Physicist, Safety Officer for Clinical Trials
Jean Théberge, PhD
@email