РАСПЛАСТЫВАНИЕ ТКАНЕВЫХ СФЕРОИДОВ, СФОРМИРОВАННЫХ ИЗ ПЕРВИЧНЫХ ФИБРОБЛАСТОВ ЧЕЛОВЕКА, НА ПОВЕРХНОСТИ МИКРОВОЛОКНИСТОГО ЭЛЕКТРОСПИННИНГОВОГО ПОЛИУРЕТАНОВОГО МАТРИКСА (СКАНИРУЮЩЕЕ ЭЛЕКТРОННО-МИКРОСКОПИЧЕСКОЕ ИССЛЕДОВАНИЕ)

Translated title of the contribution: SPREADING OF TISSUE SPHEROIDS FROM PRIMARY HUMAN FIBROBLASTS ON THE SURFACE OF MICROFIBROUS ELECTROSPUN POLYURETHANE MATRIX (A scanning electron microscopic study)

Ye V. Kudan, F. D.A.S. Pereira, V. A. Parfenov, V. A. Kasyanov, Ye A. Bulanova, Yu D. Khesuani, V. A. Mironov

Research output: Contribution to journalArticlepeer-review

2 Citations (Scopus)

Abstract

Tissue spheroids biofabricated from primary human fibroblasts using non-adhesive agarose forms, were placed by 3D bioprinter on the surface of microfibrous electrospun matrix. It was demonstrated that tissue spheroids attached to the surface of matrix during several hours and then gradually spread for several days which indicates high level of biocompatibiity of electrospun microfibrous polyurethane matrix. During this activity, human fibroblasts used processes of leading cell borders for initial step of attachment to matrix filaments. Tissue constructions formed during spreading of tissue spheroids on the surface of electrospun microfibrous polyurethane matrix seem to be a perspective technology platform for development of new methods of biofabrication and 3D bioprinting.

Translated title of the contributionSPREADING OF TISSUE SPHEROIDS FROM PRIMARY HUMAN FIBROBLASTS ON THE SURFACE OF MICROFIBROUS ELECTROSPUN POLYURETHANE MATRIX (A scanning electron microscopic study)
Original languageRussian
Pages (from-to)70-74
Number of pages5
JournalMorfologii︠a︡ (Saint Petersburg, Russia)
Volume148
Issue number6
Publication statusPublished - 2015

Field of Science*

  • 2.6 Medical engineering

Publication Type*

  • 1.1. Scientific article indexed in Web of Science and/or Scopus database

Fingerprint

Dive into the research topics of 'SPREADING OF TISSUE SPHEROIDS FROM PRIMARY HUMAN FIBROBLASTS ON THE SURFACE OF MICROFIBROUS ELECTROSPUN POLYURETHANE MATRIX (A scanning electron microscopic study)'. Together they form a unique fingerprint.

Cite this