Detalhes do Documento

In the past years, the prevalence of neurodegenerative diseases has in-creased, highlighting the urgent need to better understand and combat these diseases. Innovative ultrasound treatments have shown promising results but require further investigation, particularly regarding the pene-tration of acoustic waves into the brain. This work focus on developing a hydrophone to study acoustic wave penetration in biological tissue, com-bining computational simulations and experimental testing. The hydro-phone design was optimized for accurate measurements of wave interac-tions with tissue, and experiments using gelatine and biological tissue samples validated its performance. The results show the hydrophone’s potential to measure acoustic wave interactions in heterogeneous tissues, providing a foundation for optimizing therapeutic ultrasound in neuro-degenerative diseases. Further refinements are needed to improve accu-racy in more complex conditions.