Patient diagnosis, treatment & follow-up

  • Discriminating prognostic classification based on clinical and biological analysis
  • Novel magnetic resonance imaging sequences to predict the topography of tumor recurrence
  • Revisiting the structural and functional anatomy of the Sylvian fissure (lateral sulcus) which includes the white matter pathways for surgery of the insula in case of glioblastoma

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

Clinical imaging capabilities

Together, the CHU and the GIGA have a vast expertise in clinical imaging techniques, individually or combined in a multimodal functional imaging approach.

 

gemini tf16Positron Emission Tomography (PET) has the sensitivity to visualize at picomolar level molecular processes in 3D and in a volume and target-depth independent manner. As a stand-alone device or combined with a CT scanner (PET-CT), it allows a wide range of clinical and experimental applications:

  • Dynamic brain imaging (arterial blood sampling):
    • Concentration analysis of targeted analytes
    • Dynamic PET with tracer kinetic modeling techniques
  • Static brain imaging with 18F radiopharmaceuticals
  • Whole-body imaging for dosimetry:
    • Collection of quantitative and dynamic biodistribution data
    • Detailed drug occupancy studies
  • Whole-body imaging for metabolic evaluation, receptor or gene expression, with or without full diagnostic contrast-enhanced CT imaging

Equipment: PET scanner Siemens HR+, PET/CT Philips Gemini TF16 & Philips Gemini TF Big Bore (fully fitted for RT Planning)

In addition, we have:

  • Expertise in the development of new radioligand (for more info, click here)
  • Marketing Authorization Application to produce 18F-FDG (#BE241132)
  • Marketing Authorization Application to produce 68GA labelled compound
  • Certification to synthesize radiolabeled registered and experimental drugs
  • Authorization to conduct research programs with clinically validated 18F-FDG or original radiotracers
  • Expertise in experimental design, data collection, correction and modeling for kinetic analysis

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

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Magnetic resonance imaging (MRI) scanners use strong magnetic fields and radio-waves to visualize detailed-internal structures. Images are obtained in vivo with very high spatial and temporal resolution and good contrast for brain and soft tissues. MRI can be used in a wide variety of applications including anatomical, functional (fMRI) and molecular imaging for medical diagnosis, staging of disease and for follow-up without exposure to ionizing radiation.

Equipment: two 3T Siemens Allegra with parallel imaging capabilities (8-channel receive coil), one 1.5T Siemens Symphony and two 1.5 Siemens Aera Scanners.

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

This non-invasive technique relies on the in vivo mapping of the water diffusion process. It supports inferences about the tissue microstructure and brain connectivity.

DTI (diffusion tensor imaging) is one of the most popular MRI techniques investigated in current brain-imaging research. This method characterizes microstructural changes or differences with neuropathology and treatment. It is an extension of diffusion-weighted imaging (DWI), which is based on the principle that water molecule movement is restricted by barriers to diffusion in the brain depending on tissue organization.

 DKI (diffusion kurtosis imaging) is an extension of DTI, exhibiting improved sensitivity and specificity in detecting developmental and pathological changes in neural tissue. This technique is based on the non-Gaussian diffusion of water in biologic system. It provides independent and complementary information to that acquired with traditional diffusion techniques.

The diffusion imaging provides several advantages such as showing abnormalities invisible on standard morphological MRI and providing a better assessment of neurological impairment degree. Our diffusion imaging techniques are equipped with structure T1/T2 weighted MRI (sMRI), diffusion weighted imaging (DWI) and quantitative MRI (qMRI).

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

 

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SPECT is a nuclear medicine tomographic imaging technique, which uses radiopharmaceutical emitting gamma rays. Similar to PET, it can be combined with a computed tomography (CT), a cross-sectional technique that yields structural and anatomical high-resolution 3D images.

Equipment: 2 SPECT-CT Siemens Symbia T6, 1 SPECT Siemens E-Cam.

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

BrightSpeedElite-281x300A computerized tomography (CT) scan combines a series of X-ray images taken from different angles and uses computer processing to create cross-sectional images, or slices, of bones, blood vessels and soft tissues inside the body.

Equipment: 2 GE Brightspeed Elite scanners, 2 Siemens Somaton Emotion scanners, 1 Siemens Somaton Definition scanner.

EEG coregistration during (f)MRI with analysis tools to correct magnetic artefacts on the EEG data.

We are equipped with:

  • 64 channel Brain Products MRI-compatible EEG (Gilching, Germany)
  • Two easily transportable, high-density 256 channels EGI EEG systems (Eugene, OR, USA)
  • Electrode tracking system Zebris (Isny, Germany) allowing the digitalized localization of electrode positions on the test subject’s skull

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

Our Magstim1 TMS system (Whitland, UK), coupled with a Brainsight neuronavigator (Rogue Research, UK) allows transcranial magnetic stimulation of specific brain regions based on the MRI data of the patient.

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

Our Nexstim NBS/Eximia EEG/TMS system (Helsinki, Finland) allows simultaneous transcranial magnetic stimulation of precise brain areas and EEG determination.

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

Our soundproofed rooms are equipped with:

  • EEG system
  • Infrared camera
  • Control systems for hygrometry, temperature and ambient light level

This infrastructure allows chronobiological studies in complete isolation.

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].

Fixed and portable, MRI-compatible, visual tracking and pupillometry systems (Arrington Research, Scottsdale, AZ, USA; Applied Science Laboratories, Bedford, MA, USA), allowing the measurement of pupil size and gaze position during (f)MRI.

Looking for clinical advice or support, or preparing for a clinical study? We will help you set up a cost-effective and time-efficient study! Get in touch with our experts [info@b2h.be].