(Micro)PET and (micro)SPECT
Nuclear imaging uses low doses of radioactive substances linked to compounds used by the body's cells or compounds that recognize specific epitopes at the target cells. Using special detection equipment, the radioactive substances can be traced in the body to report where and when they accumulate, providing the radiologist with functional information about organs and tissues .
In PET (Positron Emission Tomography), radiotracers contain isotopes which emit positrons upon nuclear decay (most commonly F-18), while SPECT (Single Photon Emission Computed Tomography) relies on gamma-rays emitting radiotracers.
In microPET/SPECT, the instrumentation is implemented with accessories or with a technical set-up optimized for small animal studies.
In PET (Positron Emission Tomography), radiotracers contain isotopes which emit positrons upon nuclear decay (most commonly F-18), while SPECT (Single Photon Emission Computed Tomography) relies on gamma-rays emitting radiotracers.
In microPET/SPECT, the instrumentation is implemented with accessories or with a technical set-up optimized for small animal studies.
List of the Euro-BioImaging Node Candidates that offer (micro)PET for interim operation :
- Belgium - Molecular Imaging Belgian Node
- Czech Republic - Advanced Light And Electron Microscopy Node Prague CZ
- Italy - Molecular Imaging Italian Node
- Netherlands - Facility of excellence in imaging - ALM and Molecular Imaging Node maastrict
- Netherlands - Preclinical Imaging Centre (PRIME) - Molecular Imaging Dutch Node
- Norway - NORMOLIM, Norwegian Molecular Imaging Infrastructure
List of the Euro-BioImaging Node Candidates that offer (micro)SPECT for interim operation :