Sound Guided Tissue Regeneration

Using sound waves for repair, regeneration, and diagnostics
Sound patterns of Calcium phosphate particles in hydrogel

Dr Tiziano Serra

Focus Area Leader:
Sound Guided Tissue Regeneration

Profile page

Spatial patterns of cells, organoids, or inorganic particles can be forced on demand using acoustic surface standing waves, such as the Faraday waves. This technology allows tuning of parameters (sound frequency, amplitude, chamber shape) under contactless, fast and mild culture conditions, for morphologically relevant tissue generation. We call this method Sound Induced Morphogenesis (SIM). We use SIM for morphogenesis induction and further explorations in the regenerative medicine and cell therapy fields.

Our activities are articulated around the translation of innovative biofabrication technologies for the repair of musculoskeletal disorders and development of cutting-edge 3-D in vitro disease models for drug screening and personalized medicine. To do that, we use our sound wave-based approach and other external fields (e.g. light, magnetic, electric) for contactless cell assembly and stimulation.

Selected collaborative projects

  • PREMUROSA, H2020 MSCA – ITN 2019 "Precision medicine for musculoskeletal regeneration, prosthetics, and active ageing"
  • FLAMIN-GO, H2020-NMBP-TR-IND, "From pathobiology to synovia on chip: driving rheumatoid arthritis to the precision medicine goal"
  • E - RegenMed2.0, Eurostar, EU
  • STRATAGEM New diagnostic and therapeutic tools against multidrug resistant tumours. Cost Action1710

Selected scientific publications

A multifunctional nanocomposite hydrogel for endoscopic tracking and manipulation
A stimuli-responsive nanocomposite for 3D anisotropic cell-guidance and magnetic soft robotics

Other focus areas

Progenitor Cell Biology and Mechanoregulation

Disc and Cartilage Biology

Biomedical Materials

Bone Biology

Infection Biology

Meet the team

See more about the team on the Regenerative Orthopaedics research program