2023
On‐site construction of a point‐of‐care low‐field MRI system in Africa
Obungoloch J, Muhumuza I, Teeuwisse W, Harper J, Etoku I, Asiimwe R, Tusiime P, Gombya G, Mugume C, Namutebi M, Nassejje M, Nayebare M, Kavuma J, Bukyana B, Natukunda F, Ninsiima P, Muwanguzi A, Omadi P, van Gijzen M, Schiff S, Webb A, O'Reilly T. On‐site construction of a point‐of‐care low‐field MRI system in Africa. NMR In Biomedicine 2023, 36: e4917. PMID: 36914258, PMCID: PMC10330026, DOI: 10.1002/nbm.4917.Peer-Reviewed Original Research
2016
Design of a mobile, homogeneous, and efficient electromagnet with a large field of view for neonatal low-field MRI
Lother S, Schiff S, Neuberger T, Jakob P, Fidler F. Design of a mobile, homogeneous, and efficient electromagnet with a large field of view for neonatal low-field MRI. Magnetic Resonance Materials In Physics, Biology And Medicine 2016, 29: 691-698. PMID: 26861046, PMCID: PMC5695548, DOI: 10.1007/s10334-016-0525-8.Peer-Reviewed Original ResearchConceptsCryogen-free systemField mapping measurementsHigh B0 fieldsLow field devicesLow power consumptionSteel platesLight weightMagnetic resonance imaging systemSimple fabricationNumerical optimization algorithmHomogeneous magnetic fieldPower consumptionElectromagnetResonance imaging systemPower useB0 fieldLow-field scannersMagnetic fieldLow-field MRIField strengthHigh homogeneityMedical applicationsField limitationsLarge fieldMagnets