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https://www.bme.lth.se/en/internal-link-collection - 2026-07-15
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https://www.bme.lth.se/en/internal-link-collection - 2026-07-15
The first clinical application of ultrasound for diagnostic purposes was developed in Lund in 1953, when the physicist Hellmuth Hertz and the cardiologist Inge Edler were the first to analyze the motion of heart valves. Since then, the technology has undergone extensive development and is now the most widely used imaging modality in healthcare. Our group conducts research, develops, and evaluates
https://www.bme.lth.se/en/research/ultrasound/biomedical-ultrasound - 2026-07-15
We develop technology to manipulate and study cells and organisms. These miniaturized tools have a range of applications in cancer diagnostics, blood transfusions, fungal studies, and neurobiology. Many of our activities fall within the research field of acoustofluidics where ultrasound generates forces on cells or nanoparticles inside microchannel networks. These systems can sort out specific sub
https://www.bme.lth.se/en/research/nanobiotechnology-and-lab-chip - 2026-07-15
In the first panel on the left, the patient is scanned in an X-ray machine, generating a two-dimensional image, second panel. Our tool, DXA2FEM, then recreates a three-dimensional image in panel three, which enables accurate fracture assessment.Osteoporosis is defined as low bone mass, and results in a markedly increased risk of skeletal fractures. Development of new drugs to reduce bone loss or i
https://www.bme.lth.se/en/research/biomechanics/dxa2fem - 2026-07-15
Register here! Program Monday September 21st10:00 Registration10:30 Welcome Address10:45 Keynote Speaker Martina Kvist Reimer (industry/Region Skåne):Connecting the Dots: A Systems View on Sustainability in Life Science research11:30 Workshop/discussion12:00 Lunch13:30 Invited Talks (10 min + 5 min Q&A)14:45 Coffee Break15:15 Pitch presentations (3 Minutes)15:45 Poster Session19:00 Dinner (with
https://www.bme.lth.se/en/engineering-health-annual-meeting-2026 - 2026-07-15
Since the pioneering work of Hellmuth Hertz and Inge Edler, our research groups have carried out research in ultrasound, with applications in medicine and biology. Today we focus on Arterial wall motion, Biosonar, Diagnosis of Hirschsprung’s disease, Magnetomotive ultrasound imaging, Photoacoustic imaging, and Plaque characterization. Researcher Profiles The links will open in the Lund University
https://www.bme.lth.se/en/research/ultrasound - 2026-07-15
19 November 2026 08:00 to 15:30 | Conference Med seminariedagen Medicinteknik i Skåne vill vi ge deltagarna möjligheter att skapa kontaktytor och få kunskap om medicinteknisk forskning och utveckling i regionen. Konferensen riktar sig till aktörer inom akademi, sjukvård och företag. Konferensen syftar även till en ökad förståelse för dessa olika aktörers problemställningar samt utbyte av idéer. Ar
https://www.bme.lth.se/en/calendar/medicinteknik-i-skane-2026 - 2026-07-15
Our research is mainly focusing on the following areas: neuromuscular control, neuromuscular modelling, muscle-machine interface, human-machine interfaces, sensors and haptics. We employ machine/deep learning models to create state of the art human machine interfaces based on signals derived from muscles and the brain. We use signal processing techniques to unravel how motor neurons are recruited
https://www.bme.lth.se/en/research/neuroengineering - 2026-07-15
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https://www.bme.lth.se/en/staff - 2026-07-15
The Division of Biomedical Engineering was formed by merging several research groups, all doing engineering research in a multitude of areas related to the biomedical field. We have laboratory and office space in the E-building and in the Biomedical Center. Our Research Areas: BiomechanicsBiomedical Signal ProcessingClinical Protein Science and ImagingNanobiotechnology and Lab-on-a-chipUltrasoundN
https://www.bme.lth.se/en/about - 2026-07-15
The links on this page open in Lund University's Research Portal. Var god vänta...
https://www.bme.lth.se/en/publications - 2026-07-15
Management Head of DivisionChristian Antfolkchristian [dot] antfolk [at] bme [dot] lth [dot] se (christian[dot]antfolk[at]bme[dot]lth[dot]se)+46-46-222 93 70Head of DepartmentIngrid Svenssoningrid [dot] svensson [at] bme [dot] lth [dot] se (ingrid[dot]svensson[at]bme[dot]lth[dot]se)+46-46-222 75 25Director of StudiesLars Wallmanlars [dot] wallman [at] bme [dot] lth [dot] se (lars[dot]wallman[at]bm
https://www.bme.lth.se/en/contact - 2026-07-15
Medicon Bridge is a networking platform within LTH Engineering Health devoted to creating, simplifying, and facilitating collaboration between hospital care, academy, and corporations in order to provide patients with the benefits of novel medical technology. The activities include arranging meetings and participating in national networks. Medicon Bridge was a regional node in the strategic innova
https://www.bme.lth.se/en/medicon-bridge - 2026-07-15
The Division offers infrastructure and assistance within microfluidics, acoustofluidics, and microfabrication. We can design and develop microsystems for processing of body/bodily fluids, cell sorting, immobilization, and neural electrodes. Submissions Submit your project request here. Examples of available technology and past projects: Fabrication Micromilling down to 50 µm. Photolitography down
https://www.bme.lth.se/en/life-science-microfluidics - 2026-07-15
Thank you for submitting a request to the Life Science Microfluidics services. Someone will contact you about the project.
https://www.bme.lth.se/en/thank-you - 2026-07-15
LU Bildbank LU Box CANVAS EDU-sign EPIC FU-kurser IA-systemet Kalenderdelning Kuben LADOK LUCAT LUCRIS LUPIN/Proceedo Primula Support Center, LU TimeEdit Varbi Webmail Zoom Page manager: tord [dot] hjalt [at] bme [dot] lth [dot] se
https://www.bme.lth.se/en/link-collection - 2026-07-15
We offer a range of basic level courses within biomedical technology, e.g. about biomechanics, sensors, ultrasound, measurement techology, signal processing, neural interfaces. Most of these are conducted in Canvas. Some of the basic level courses are also given as PhD courses. We offer Master's theses work within two main areas: Biomedical Technology, NMEN 01, and Electrical Measurements, BME 05.
https://www.bme.lth.se/en/education - 2026-07-15
I have a research interest in lab-on-a-chip technology and acoustofluidics within life sciences. Specific attention is given to development of techniques for acoustic manipulation of cells, microparticles and nano bioparticles (extra cellular vesicles) in microfluidic systems to solve critical needs in life science research and medicine. We are developing microchip acoustophoresis for rare cell is
https://www.bme.lth.se/en/medical-acoustofluidics-groupold - 2026-07-15
We conduct fundamental research in microscale acoustofluidics and translate the resulting physical insights into biomedical applications and mechanobiology. Our research is primarily experimental, but whenever possible it is complemented by theoretical or numerical analyses. From a fundamental perspective, we investigate nonlinear acoustic phenomena in fluids, particularly acoustic streaming, whic
https://www.bme.lth.se/en/research/nanobiotechnology-and-lab-chip/wei-qiu-group - 2026-07-15
I have a research interest in lab-on-a-chip technology and acoustofluidics within life sciences. Specific attention is given to development of techniques for acoustic manipulation of cells, microparticles and nano bioparticles (extra cellular vesicles) in microfluidic systems to solve critical needs in life science research and medicine. We are developing microchip acoustophoresis for rare cell is
https://www.bme.lth.se/en/research/nanobiotechnology-and-lab-chip/medical-acoustofluidics-groupold2 - 2026-07-15