Clinical summary for MFD Q1 2024

AreaCountryStudy IDTitle
Publications
StrokeGreeceDetecting Stroke at the Emergency Department by a Point of Care Device: A Multicenter Feasibility Study
Medical Devices: Evidence and Research 2024:17
StrokeMulti- countryVGr01, SFAUS, MODSEvaluating the sensitivity and specificity of a microwave-based tool to supportand enhance stroke triage
Abstract - 14th World Stroke Congress, International Journal of Stroke Volume 17,Issue 3_suppl, October 2022, Topic: AS29 Technological Innovations and EmergingStroke Therapies. Hood et al
StrokeSweMF01, MF02Microwave-based stroke diagnosis making global pre-hospital thrombolytictreatment possible.
(MF01, MF02)IEEE Trans Biomed Eng . 2014 Nov;61(11):2806-17. doi:10.1109/TBME.2014.2330554. Epub 2014 Jun 12. Persson et al
TICHSweCSH01Clinical Evaluation of a Microwave-Based Device for Detection of Traumatic Intracranial Hemorrhage (CSH01)
TICHSweMBI01Microwave scan and brain biomarkers to rule out intracranial hemorrhage: study protocol of a planned prospective study (MBI01)
Eur J Trauma Emerg Surg. 2022 Apr;48(2):1335-1342. doi: 10.1007/s00068-021-01671-7. Epub 2021 May 4. Vedin et al.
Completed studies
StrokeGreeceDetecting Stroke at the Emergency Department by a Point of Care Device: A Multicenter Feasibility Study
StrokeSweMF01MF01 - Microwave-based differentiation of Intra Cerebral Hemorrhage vs ischemic Stroke in acute stroke patients - explorative proof of principle study.
StrokeSweMF02MF02 - Microwave-based differentiation of Intra Cerebral Hemorrhage vs Ischemic Stroke during thrombolytic treatment and early after stroke onset - explorative proof of principle study.
StrokeSweMF03MF03 - An open, multicenter study evaluating the sensitivity and specificity of a microwave-based technique to monitor and detect physiological changes inside the scull related to stroke, transient ischemic attack, and the effect of thrombolytic therapy.
StrokeSweMF04MF04 - A prospective, open, multi-centre study to evaluate the performance, safety and usability of the microwave technology developed by Medfield Diagnostics when collecting measurement data from patients with clinical signs of stroke.
Chronic Subdural
Hematoma
SweCSH01CSH01 - Detecting Chronic Subdural Hematoma with Microwave Technology - An open study evaluating the sensitivity and specificity of a microwave-based device, Medfield Strokefinder MD100, to detect chronic subdural hematoma (CSH), by comparing measurements on patients recruited for surgery of chronic subdural hematoma to an age- and gender-matched group of healthy volunteers.
Ongoing studies
StrokeGreecespecificity and sensitivity study of the MD100 Strokefinder device of Medfield diagnostics in the early detection of Cerebrovascular Accidents (strokes).
Stroke AusEPASTEnhanced Prehospital Acute Stroke Triage (EPAST)
MD100 Research Study Evaluating the feasibility of paramedics incorporating microwave brain imaging into prehospital acute stroke triage
StrokeAusSFAUSStrokefinder Pilot Study Australia , in hospital, A SINGLE CENTRE TRIAL EVALUATING MICROWAVE TECHNOLOGY IN ACUTE STROKE TO DIFFERENTIATE HAEMORRHAGE FROM INFARCTION: STROKE FINDER PILOT STUDY
StrokeSweVGR01An open multicentre trial on suspected stroke patients evaluating the possibility to use microwave technology to differentiate hemorrhage from infarction in the acute phase. NCT02490306
healthy volounteersSweMF05MF05 - Healthy Volunteer study currently on-hold, additional HV-data is needed for verificationof the new classificationalgorithm. Will re-start as sson as possible.
StrokeNOMODSOn hold: MODS Mobile microwave-based diagnosis and monitoring of stroke: on theroad towards improved stroke triage and care, including prehospital initiation ofthrombolytic treatment. NCT04257149
Head trauma SwedenMBI01Detecting Traumatic Intracranial Hemorrhage With Microwaves and Biomarkers (MBI01)
Head traumaUKMINTTrauma study in UK (reference color in the diagram) Evaluate head trauma bleeding detection capability with MD100 at King’s College Hospital in London.