Mechanical and biochemical properties are of high importance for understanding the status and function of cells, tissue and organs. kibero's imaging systems help you in investigating biological specimen even if you cannot look inside the samples. The unique combination of non-invasive ultrasound, photoacoustics and conventional optical microscopy provides fast and easy quantitative insights into deep tissue structures and 3D cellular models.
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The SASAM and easySAM lens systems as well as the non-focussing transducers allow you to generate and detect acoustic signals up to the GHz range.
As the result of longstanding research our transducer systems provide highest sensitivity paired with optimal bandwidth.
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High resolution acoustic imaging meeting full flexibility of conventional microscopy.
The new easySAM series is a milestone in acoustic microscopy and is used to assess local mechanical properties of biological and cellular samples with micrometer resolution. The technique does not induce damage and can be used to image the interior of opaque samples.
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kibero participated with its distributor Tokyo Instruments in BIOJAPAN, the largest asian bioscience event from October 12th to 14th 2022. This event was constituted by three exhibitions - 1. The world's oldest biotechnology exhibition "BioJapan" (1986-), 2. "Regenerative Medicine JAPAN" (2016-), aiming to accelerate and industrialize R&D in the field of regenerative medicine including iPS cells, and 3."health TECH JAPAN"(2020-), provides fusion of digital technology and life science.
kibero is proud to announce the successful delivery of an acoustic microscopy platform to McGill University, Canada. The system will be used by Prof. Christopher Moares for research on cellular microenvironments.
kibero is proud to announce the successful delivery of an acoustic and photoacoustic microscopy platform to Kaunas Technical University, Lithuania.
kibero is proud to announce the successful delivery of an acoustic microscopy platform to the Massachusetts Institute of Technology (MIT), Cambridge, USA. The system was installed at the MIT Clinical Research Center to support novel biomedical research interests at MIT. Presently, the system will be incorporated in the research work of Dr. Xiang Zhang and Rebecca Zubajlo, to investigate cell and tissue properties using acoustics.
Shah et al. from the National Physical Laboratory, Teddington, UK studied the Point Spread function of our acoustic and photoacoustic microscopes. Find the article under: A. Shah, A. M. Ivory, S. Rajagopal and B. Zeqiri, "Comparison of techniques to characterise the point spread function of an acoustic-resolution photoacoustic microscope, 2019 IEEE International Ultrasonics Symposium (IUS), Glasgow, United Kingdom, 2019, pp. 1033-1036, doi: 10.1109/ULTSYM.2019.8926150.
Blouin et al. from the Ludwig Boltzmann Institute of Osteology, Vienna, Austria, demonstrated in a recent study the power of high resolution acoustic microscopy to characterize cortical bone properties using kibero's imaging technology. Find the article under: Blouin, S., Fratzl-Zelman, N., Roschger, A. Cabra, W.A., Klaushofer, K., Marini, J.C., Fratzl, P., Roschger, P. (2019). Cortical bone properties in the Brtl/+ mouse model of Osteogenesis imperfecta as evidenced by acoustic transmission microscopy. Journal of the Mechanical Behavior of Biomedical Materials 90 (2019) 125–132.
