AI Article Synopsis
- LIPUS (Low-Intensity Pulsed Ultrasound) is a promising technology for remotely manipulating neural and cellular activities but faces challenges in understanding how tissues respond to it.
- Researchers can use optical biosensors alongside LIPUS to study the signaling pathways involved, but the integration can cause mechanical issues due to sound wave interactions with microscopes.
- This article outlines a detailed method to effectively combine LIPUS with fluorescence microscopes while reducing mechanical interference and demonstrates its application through calcium imaging in glioblastoma cells.
Article Abstract
By focusing low-intensity ultrasound pulses that penetrate soft tissues, LIPUS represents a promising biomedical technology to remotely and safely manipulate neural firing, hormonal secretion and genetically-reprogrammed cells. However, the translation of this technology for medical applications is currently hampered by a lack of biophysical mechanisms by which targeted tissues sense and respond to LIPUS. A suitable approach to identify these mechanisms would be to use optical biosensors in combination with LIPUS to determine underlying signaling pathways. However, implementing LIPUS to a fluorescence microscope may introduce undesired mechanical artefacts due to the presence of physical interfaces that reflect, absorb and refract acoustic waves. This article presents a step-by-step procedure to incorporate LIPUS to commercially-available upright epi-fluorescence microscopes while minimizing the influence of physical interfaces along the acoustic path. A simple procedure is described to operate a single-element ultrasound transducer and to bring the focal zone of the transducer into the objective focal point. The use of LIPUS is illustrated with an example of LIPUS-induced calcium transients in cultured human glioblastoma cells measured using calcium imaging.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7098245 | PMC |
| http://dx.doi.org/10.3791/58781 | DOI Listing |
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