Dr. Yamadas forskning utforsker regenerering av orale og kraniofaciale vev ved å integrere avansert bioingeniørkunst, epigenetisk stamcelleregulering, kraniofaciale utviklingsprosesser og multi-omics-tilnærminger.

Dr. Yamada er også anerkjent som en vitenskapskommunikator gjennom sin ekspertise innen mikroskopisk kunst, med arbeidet sitt bredt dekket av massemedier, magasiner og aviser over hele verden, inkludert Nature Portfolio (november 2023, februar 2024 og februar 2025) og Naturhistorisk museum i Bergen.

Dr. Yamadas undervisning fokuserer på kraniofacial utvikling og regenerativ tannbehandling.

Etter å ha fullført et Postgraduate Certificate in Academic Practice (University of Liverpool, Storbritannia) og blitt tildelt FHEA av Advance HE (Storbritannia), integrerer han banebrytende forskning i forelesningene sine, med vekt på kritisk tenkning, studentengasjement og inkludering.

Dr. Yamada holder for tiden forelesninger i (UiB):

• ODO-FORSK/06 Forskningsmetoder
• ODBIO901 Oral biologi
• ELMED303 Fremtidens medisin

og fungerer også som gjesteforeleser i regenerativ tannbehandling ved flere institutter i Europa.

Vitenskapelig artikkel

• Jahani Kadousaraei, Masoumeh; Yamada, Shuntaro; Aydin, Mehmet Serhat et al. (2025). Bioprinting of mesenchymal stem cells in low concentration gelatin methacryloyl/alginate blends without ionic crosslinking of alginate. (ekstern lenke)
• Al-Sharabi, Niyaz; Mohamed-Ahmed, Samih; Shanbhag, Siddharth et al. (2024). Osteogenic human MSC-derived extracellular vesicles regulate MSC activity and osteogenic differentiation and promote bone regeneration in a rat calvarial defect model. (ekstern lenke)
• Johansen, Åshild; Lin, Jinjian; Yamada, Shuntaro et al. (2024). Photo-Clickable Triazine-Trione Thermosets as Promising 3D Scaffolds for Tissue Engineering Applications. (ekstern lenke)
• Yamada, Shuntaro; Al-Sharabi, Niyaz Abdulbaqi Abdulmajid; Torelli, Francesco et al. (2024). Harnessing the Antioxidative Potential of Dental Pulp Stem Cell-Conditioned Medium in Photopolymerized GelMA Hydrogels. (ekstern lenke)
• Budi, Hendrik Setia; Anitasari, Silvia; Shen, Yung-Kang et al. (2024). Cytoskeletal regulation on polycaprolactone/graphene porous scaffolds for bone tissue engineering. (ekstern lenke)
• Rindt, Wyonna; Krug, Melanie; Yamada, Shuntaro et al. (2024). A 3D bioreactor model to study osteocyte differentiation and mechanobiology under perfusion and compressive mechanical loading. (ekstern lenke)
• Yamada, Shuntaro; Yassin, Mohammed Ahmed ; Torelli, Francesco et al. (2023). Unique osteogenic profile of bone marrow stem cells stimulated in perfusion bioreactor is Rho-ROCK-mediated contractility dependent. (ekstern lenke)
• Kivijärvi, Tove; Goksøyr, Øyvind; Yassin, Mohammed Ahmed Alamin Yousif et al. (2022). Hybrid material based on hyaluronan hydrogels and poly(l-lactide-co-1,3-trimethylene carbonate) scaffolds toward a cell-instructive microenvironment with long-term in vivo degradability. (ekstern lenke)
• Hara, Kenji; Hellem, Endre; Yamada, Shuntaro et al. (2022). Efficacy of treating segmental bone defects through endochondral ossification: 3D printed designs and bone metabolic activities. (ekstern lenke)
• Yamada, Shuntaro; Yassin, Mohammed Ahmed Alamin Yousif; Schwarz, Thomas et al. (2022). Optimization and Validation of a Custom-Designed Perfusion Bioreactor for Bone Tissue Engineering: Flow Assessment and Optimal Culture Environmental Conditions. (ekstern lenke)
• Yamada, Shuntaro; Yassin, Mohammed Ahmed Alamin Yousif; Schwarz, Thomas et al. (2021). Induction of osteogenic differentiation of bone marrow stromal cells on 3D polyester-based scaffolds solely by subphysiological fluidic stimulation in a laminar flow bioreactor. (ekstern lenke)
• Yamada, Shuntaro; Yassin, Mohammed Ahmed; Weigel, Tobias et al. (2021). Surface activation with oxygen plasma promotes osteogenesis with enhanced extracellular matrix formation in three- dimensional microporous scaffolds. (ekstern lenke)
• Naito, Yoshito; Yamada, Shuntaro; Jinno, Yohei et al. (2019). Bone-Forming Effect of a Static Magnetic Field in Rabbit Femurs. (ekstern lenke)
• Yamada, Shuntaro; Lav, Rupali; Li, Jingjing et al. (2019). Molar Bud-to-Cap Transition Is Proliferation Independent. (ekstern lenke)

Doktorgradsavhandling

• Yamada, Shuntaro (2023). 3D dynamic culture of mesenchymal stem cells under fluid flow: Implications for bone regeneration. (ekstern lenke)

Vitenskapelig oversiktsartikkel/review

• Yamada, Shuntaro; Niklas Ockermann, Philipp; Schwarz, Thomas et al. (2023). Translation of biophysical environment in bone into dynamic cell culture under flow for bone tissue engineering. (ekstern lenke)
• Yamada, Shuntaro; Shanbhag, Siddharth; Mustafa, Kamal Babikeir Elnour (2021). Scaffolds in Periodontal Regenerative Treatment. (ekstern lenke)

Se en full oversikt over publikasjoner i Cristin