Mammalian cell encapsulation in monodisperse subsieve-sized (

S. Sakai, K. Kawabata, Tsutomu Ono, H. Ijima, K. Kawakami

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

A method for preparing monodisperse mammalian cell-enclosing subsieve-sized microcapsules from viscous polymer solution was developed. The droplet breakup technique with an immiscible liquid coflowing stream was applied for the preparation of subsieve-sized mammalian cell-enclosing capsules. The reaction was found to enhance cell viability due to reduced resistance to the transport of oxygen, nutrients and metabolites. Mechanical strength and biocompatibility were also found to be enhanced.

Original languageEnglish
Title of host publicationTransactions - 7th World Biomaterials Congress
Pages1510
Number of pages1
Publication statusPublished - 2004
Externally publishedYes
EventTransactions - 7th World Biomaterials Congress - Sydney, Australia
Duration: May 17 2004May 21 2004

Other

OtherTransactions - 7th World Biomaterials Congress
CountryAustralia
CitySydney
Period5/17/045/21/04

Fingerprint

Encapsulation
Cells
Drop breakup
Polymer solutions
Metabolites
Biocompatibility
Nutrients
Strength of materials
Oxygen
Liquids

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Sakai, S., Kawabata, K., Ono, T., Ijima, H., & Kawakami, K. (2004). Mammalian cell encapsulation in monodisperse subsieve-sized (. In Transactions - 7th World Biomaterials Congress (pp. 1510)

Mammalian cell encapsulation in monodisperse subsieve-sized (. / Sakai, S.; Kawabata, K.; Ono, Tsutomu; Ijima, H.; Kawakami, K.

Transactions - 7th World Biomaterials Congress. 2004. p. 1510.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Sakai, S, Kawabata, K, Ono, T, Ijima, H & Kawakami, K 2004, Mammalian cell encapsulation in monodisperse subsieve-sized (. in Transactions - 7th World Biomaterials Congress. pp. 1510, Transactions - 7th World Biomaterials Congress, Sydney, Australia, 5/17/04.
Sakai S, Kawabata K, Ono T, Ijima H, Kawakami K. Mammalian cell encapsulation in monodisperse subsieve-sized (. In Transactions - 7th World Biomaterials Congress. 2004. p. 1510
Sakai, S. ; Kawabata, K. ; Ono, Tsutomu ; Ijima, H. ; Kawakami, K. / Mammalian cell encapsulation in monodisperse subsieve-sized (. Transactions - 7th World Biomaterials Congress. 2004. pp. 1510
@inproceedings{086c311162b44088b3529084bc3219f1,
title = "Mammalian cell encapsulation in monodisperse subsieve-sized (",
abstract = "A method for preparing monodisperse mammalian cell-enclosing subsieve-sized microcapsules from viscous polymer solution was developed. The droplet breakup technique with an immiscible liquid coflowing stream was applied for the preparation of subsieve-sized mammalian cell-enclosing capsules. The reaction was found to enhance cell viability due to reduced resistance to the transport of oxygen, nutrients and metabolites. Mechanical strength and biocompatibility were also found to be enhanced.",
author = "S. Sakai and K. Kawabata and Tsutomu Ono and H. Ijima and K. Kawakami",
year = "2004",
language = "English",
isbn = "1877040193",
pages = "1510",
booktitle = "Transactions - 7th World Biomaterials Congress",

}

TY - GEN

T1 - Mammalian cell encapsulation in monodisperse subsieve-sized (

AU - Sakai, S.

AU - Kawabata, K.

AU - Ono, Tsutomu

AU - Ijima, H.

AU - Kawakami, K.

PY - 2004

Y1 - 2004

N2 - A method for preparing monodisperse mammalian cell-enclosing subsieve-sized microcapsules from viscous polymer solution was developed. The droplet breakup technique with an immiscible liquid coflowing stream was applied for the preparation of subsieve-sized mammalian cell-enclosing capsules. The reaction was found to enhance cell viability due to reduced resistance to the transport of oxygen, nutrients and metabolites. Mechanical strength and biocompatibility were also found to be enhanced.

AB - A method for preparing monodisperse mammalian cell-enclosing subsieve-sized microcapsules from viscous polymer solution was developed. The droplet breakup technique with an immiscible liquid coflowing stream was applied for the preparation of subsieve-sized mammalian cell-enclosing capsules. The reaction was found to enhance cell viability due to reduced resistance to the transport of oxygen, nutrients and metabolites. Mechanical strength and biocompatibility were also found to be enhanced.

UR - http://www.scopus.com/inward/record.url?scp=13844281126&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=13844281126&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:13844281126

SN - 1877040193

SN - 9781877040191

SP - 1510

BT - Transactions - 7th World Biomaterials Congress

ER -