Publication

Bio-electrospraying and Cell Electrospinning: Progress and Opportunities for Basic Biology and Clinical Sciences

Poncelet, D., de Vos, P., Suter, N. & Jayasinghe, S. N., 11-Jan-2012, In : Advanced healthcare materials. 1, 1, p. 27-34 8 p.

Research output: Contribution to journalArticleAcademicpeer-review

APA

Poncelet, D., de Vos, P., Suter, N., & Jayasinghe, S. N. (2012). Bio-electrospraying and Cell Electrospinning: Progress and Opportunities for Basic Biology and Clinical Sciences. Advanced healthcare materials, 1(1), 27-34. https://doi.org/10.1002/adhm.201100001

Author

Poncelet, Denis ; de Vos, Paul ; Suter, Nicolai ; Jayasinghe, Suwan N. / Bio-electrospraying and Cell Electrospinning : Progress and Opportunities for Basic Biology and Clinical Sciences. In: Advanced healthcare materials. 2012 ; Vol. 1, No. 1. pp. 27-34.

Harvard

Poncelet, D, de Vos, P, Suter, N & Jayasinghe, SN 2012, 'Bio-electrospraying and Cell Electrospinning: Progress and Opportunities for Basic Biology and Clinical Sciences', Advanced healthcare materials, vol. 1, no. 1, pp. 27-34. https://doi.org/10.1002/adhm.201100001

Standard

Bio-electrospraying and Cell Electrospinning : Progress and Opportunities for Basic Biology and Clinical Sciences. / Poncelet, Denis; de Vos, Paul; Suter, Nicolai; Jayasinghe, Suwan N.

In: Advanced healthcare materials, Vol. 1, No. 1, 11.01.2012, p. 27-34.

Research output: Contribution to journalArticleAcademicpeer-review

Vancouver

Poncelet D, de Vos P, Suter N, Jayasinghe SN. Bio-electrospraying and Cell Electrospinning: Progress and Opportunities for Basic Biology and Clinical Sciences. Advanced healthcare materials. 2012 Jan 11;1(1):27-34. https://doi.org/10.1002/adhm.201100001


BibTeX

@article{ce0e24ad7fbc4fc0a60a4b19f8bbee46,
title = "Bio-electrospraying and Cell Electrospinning: Progress and Opportunities for Basic Biology and Clinical Sciences",
abstract = "Engineering of functional tissues is a fascinating and fertile arena of research and development. This flourishing enterprise weaves together many areas of research to tackle the most complex question faced to date, namely how to design and reconstruct a synthetic three-dimensional fully functional tissue on demand. At present our healthcare is under threat by several social and economical issues together with those of a more scientific and clinical nature. One such issue arises from our increasing life expectancy, resulting in an ageing society. This steeply growing ageing society requires functional organotypic tissues on demand for repair, replacement, and rejuvenation (R-3). Several approaches are pioneered and developed to assist conventional tissue/organ transplantation. In this Progress Report, {"}non-contact jet-based{"} approaches for engineering functional tissues are introduced and bio-electrosprays and cell electrospinning, i.e., biotechniques that have demonstrated as being benign for directly handling living cells and whole organisms, are highlighted. These biotechniques possess the ability to directly handle heterogeneous cell populations as suspensions with a biopolymer and/or other micro/nanomaterials for directly forming three-dimensional functional living reconstructs. These discoveries and developments have provided a promising biotechnology platform with far-reaching ramifications for a wide range of applications in basic biological laboratories to their utility in the clinic.",
keywords = "ELECTROHYDRODYNAMIC JET, LIVING ORGANISMS, METHODOLOGY, SUSPENSIONS, SCAFFOLDS, CULTURE",
author = "Denis Poncelet and {de Vos}, Paul and Nicolai Suter and Jayasinghe, {Suwan N.}",
year = "2012",
month = "1",
day = "11",
doi = "10.1002/adhm.201100001",
language = "English",
volume = "1",
pages = "27--34",
journal = "Advanced healthcare materials",
issn = "2192-2640",
publisher = "Wiley-Blackwell",
number = "1",

}

RIS

TY - JOUR

T1 - Bio-electrospraying and Cell Electrospinning

T2 - Progress and Opportunities for Basic Biology and Clinical Sciences

AU - Poncelet, Denis

AU - de Vos, Paul

AU - Suter, Nicolai

AU - Jayasinghe, Suwan N.

PY - 2012/1/11

Y1 - 2012/1/11

N2 - Engineering of functional tissues is a fascinating and fertile arena of research and development. This flourishing enterprise weaves together many areas of research to tackle the most complex question faced to date, namely how to design and reconstruct a synthetic three-dimensional fully functional tissue on demand. At present our healthcare is under threat by several social and economical issues together with those of a more scientific and clinical nature. One such issue arises from our increasing life expectancy, resulting in an ageing society. This steeply growing ageing society requires functional organotypic tissues on demand for repair, replacement, and rejuvenation (R-3). Several approaches are pioneered and developed to assist conventional tissue/organ transplantation. In this Progress Report, "non-contact jet-based" approaches for engineering functional tissues are introduced and bio-electrosprays and cell electrospinning, i.e., biotechniques that have demonstrated as being benign for directly handling living cells and whole organisms, are highlighted. These biotechniques possess the ability to directly handle heterogeneous cell populations as suspensions with a biopolymer and/or other micro/nanomaterials for directly forming three-dimensional functional living reconstructs. These discoveries and developments have provided a promising biotechnology platform with far-reaching ramifications for a wide range of applications in basic biological laboratories to their utility in the clinic.

AB - Engineering of functional tissues is a fascinating and fertile arena of research and development. This flourishing enterprise weaves together many areas of research to tackle the most complex question faced to date, namely how to design and reconstruct a synthetic three-dimensional fully functional tissue on demand. At present our healthcare is under threat by several social and economical issues together with those of a more scientific and clinical nature. One such issue arises from our increasing life expectancy, resulting in an ageing society. This steeply growing ageing society requires functional organotypic tissues on demand for repair, replacement, and rejuvenation (R-3). Several approaches are pioneered and developed to assist conventional tissue/organ transplantation. In this Progress Report, "non-contact jet-based" approaches for engineering functional tissues are introduced and bio-electrosprays and cell electrospinning, i.e., biotechniques that have demonstrated as being benign for directly handling living cells and whole organisms, are highlighted. These biotechniques possess the ability to directly handle heterogeneous cell populations as suspensions with a biopolymer and/or other micro/nanomaterials for directly forming three-dimensional functional living reconstructs. These discoveries and developments have provided a promising biotechnology platform with far-reaching ramifications for a wide range of applications in basic biological laboratories to their utility in the clinic.

KW - ELECTROHYDRODYNAMIC JET

KW - LIVING ORGANISMS

KW - METHODOLOGY

KW - SUSPENSIONS

KW - SCAFFOLDS

KW - CULTURE

U2 - 10.1002/adhm.201100001

DO - 10.1002/adhm.201100001

M3 - Article

VL - 1

SP - 27

EP - 34

JO - Advanced healthcare materials

JF - Advanced healthcare materials

SN - 2192-2640

IS - 1

ER -

ID: 5794954