Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications
Low-concentration hydrogels have favorable properties for many cell functions in tissue
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications.
S Naghieh, MD Sarker, E Abelseth… - Journal of the Mechanical …, 2019 - europepmc.org
Low-concentration hydrogels have favorable properties for many cell functions in tissue
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications
S Naghieh, MAI Sarker, E Abelseth, X Chen - osf.io
Low-concentration hydrogels have favorable properties for many cell functions in tissue
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications
S Naghieh, MD Sarker… - Journal of the …, 2019 - pubmed.ncbi.nlm.nih.gov
Low-concentration hydrogels have favorable properties for many cell functions in tissue
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
[引用][C] Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications
S Naghieh, MD Sarker, E Abelseth… - Journal of the Mechanical …, 2019 - cir.nii.ac.jp
Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue
engineering applications | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] …
engineering applications | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] …
Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications
S Naghieh, M Sarker, E Abelseth, X Chen - engrxiv.org
Low-concentration hydrogels have favorable properties for many cell functions in tissue
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
Indirect 3D bioprinting and characterization of alginate scaffolds for potential nerve tissue engineering applications
S Naghieh, M Sarker, E Abelseth, X Chen - engrxiv.org
Low-concentration hydrogels have favorable properties for many cell functions in tissue
engineering but are considerably limited from a scaffold fabrication point of view due to poor …
engineering but are considerably limited from a scaffold fabrication point of view due to poor …