RISS 학술연구정보서비스

검색
다국어 입력

http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.

변환된 중국어를 복사하여 사용하시면 됩니다.

예시)
  • 中文 을 입력하시려면 zhongwen을 입력하시고 space를누르시면됩니다.
  • 北京 을 입력하시려면 beijing을 입력하시고 space를 누르시면 됩니다.
닫기
    인기검색어 순위 펼치기

    RISS 인기검색어

      KCI등재 SCIE

      키토산 나노 섬유 지지체의 제작과 생체공학적 응용 = Fabrication of Chitosan Nanofiber Scaffold and Their Biomedical Applications

      한글로보기

      https://www.riss.kr/link?id=A103814522

      • 0

        상세조회
      • 0

        다운로드
      서지정보 열기
      • 내보내기
      • 내책장담기
      • 공유하기
      • 오류접수

      부가정보

      다국어 초록 (Multilingual Abstract)

      Functional biomaterial research has been directed toward the development of improved scaffolds for tissue engineering.
      Many biodegradable and biocompatible polymers both synthetic polymers and natural polymers have been used to make scaffolds. Among the naturally derived polymers, chitosan which is deacetylated derivative of chitin, is widely used for biomedical applications such as tissue engineering scaffolds, drug delivery, and wound dressing due to their unique biological properties such as biocompatibility, biodegradability, anti-bacterial, and non-toxicity. In the recent years, electrospinning has been used to be a novel technique to fabricate nano/micro fibers. These nano/micro fibers have been applied in biomedical fields as tissue engineering scaffold because of their high surface area and porosity. In this reason, there has been a growing interest in electrospinning using chitosan in order to improve similarities to natural tissue. This article reviews the recent and relevant reports of the chitosan nanofibers fabricated by electrospinning and their biomedical applications.
      번역하기

      Functional biomaterial research has been directed toward the development of improved scaffolds for tissue engineering. Many biodegradable and biocompatible polymers both synthetic polymers and natural polymers have been used to make scaffolds. Among t...

      Functional biomaterial research has been directed toward the development of improved scaffolds for tissue engineering.
      Many biodegradable and biocompatible polymers both synthetic polymers and natural polymers have been used to make scaffolds. Among the naturally derived polymers, chitosan which is deacetylated derivative of chitin, is widely used for biomedical applications such as tissue engineering scaffolds, drug delivery, and wound dressing due to their unique biological properties such as biocompatibility, biodegradability, anti-bacterial, and non-toxicity. In the recent years, electrospinning has been used to be a novel technique to fabricate nano/micro fibers. These nano/micro fibers have been applied in biomedical fields as tissue engineering scaffold because of their high surface area and porosity. In this reason, there has been a growing interest in electrospinning using chitosan in order to improve similarities to natural tissue. This article reviews the recent and relevant reports of the chitosan nanofibers fabricated by electrospinning and their biomedical applications.

      더보기

      참고문헌 (Reference)

      1 S. Madduri, "Trophically and topographically functionalized silk fibroin nerve conduits for guided peripheral nerve regeneration" 31 : 2323-2334, 2010

      2 Y. Zhang, "Three-dimensional macroporous calcium phosphate bioceramics with nested chitosan sponges for loadbearing bone implants" 61 : 1-8, 2002

      3 Z. Q. Feng, "The effect of nanofibrous galactosylated chitosan scaffolds on the formation of rat primary hepatocyte aggregates and the maintenance of liver function" 30 : 2753-2763, 2009

      4 Y. C. Wei, "The crosslinking of chitosan fibers" 30 : 2187-2193, 1992

      5 Y. Zhang, "Synthesis and characterization of macroporous chitosan/calcium phosphate composite scaffolds for tissue engineering" 55 : 304-312, 2001

      6 J. Berger, "Structure and interactions in chitosan hydrogels formed by complexation or aggregation for biomedical applications" 57 : 35-52, 2004

      7 P. Sangsanoh, "Stability Improvement of Electrospun Chitosan Nanofibrous Membranes in Neutral or Weak Basic Aqueous Solutions" 7 : 2710-2714, 2006

      8 R. Mincheva, "Preparation of Polyelectrolyte-Containing Nanofibers by Electrospinning in the Presence of a Non-Ionogenic Water-Soluble Polymer" 20 : 419-435, 2005

      9 X. J. Huang, "Preparation and characterization of stable chitosan nanofibrous membrane for lipase immobilization" 43 : 3710-3718, 2007

      10 H. Jiang, "Preparation and characterization of ibuprofen-loaded poly (lactide-co-glycolide)/poly (ethylene glycol)-g-chitosan electrospun membranes" 15 : 279-296, 2004

      1 S. Madduri, "Trophically and topographically functionalized silk fibroin nerve conduits for guided peripheral nerve regeneration" 31 : 2323-2334, 2010

      2 Y. Zhang, "Three-dimensional macroporous calcium phosphate bioceramics with nested chitosan sponges for loadbearing bone implants" 61 : 1-8, 2002

      3 Z. Q. Feng, "The effect of nanofibrous galactosylated chitosan scaffolds on the formation of rat primary hepatocyte aggregates and the maintenance of liver function" 30 : 2753-2763, 2009

      4 Y. C. Wei, "The crosslinking of chitosan fibers" 30 : 2187-2193, 1992

      5 Y. Zhang, "Synthesis and characterization of macroporous chitosan/calcium phosphate composite scaffolds for tissue engineering" 55 : 304-312, 2001

      6 J. Berger, "Structure and interactions in chitosan hydrogels formed by complexation or aggregation for biomedical applications" 57 : 35-52, 2004

      7 P. Sangsanoh, "Stability Improvement of Electrospun Chitosan Nanofibrous Membranes in Neutral or Weak Basic Aqueous Solutions" 7 : 2710-2714, 2006

      8 R. Mincheva, "Preparation of Polyelectrolyte-Containing Nanofibers by Electrospinning in the Presence of a Non-Ionogenic Water-Soluble Polymer" 20 : 419-435, 2005

      9 X. J. Huang, "Preparation and characterization of stable chitosan nanofibrous membrane for lipase immobilization" 43 : 3710-3718, 2007

      10 H. Jiang, "Preparation and characterization of ibuprofen-loaded poly (lactide-co-glycolide)/poly (ethylene glycol)-g-chitosan electrospun membranes" 15 : 279-296, 2004

      11 K. H. Jung, "Preparation and Antibacterial Activity of PET/Chitosan Nanofibrous Mats Using an Electrospinning Technique" 105 : 2816-2823, 2007

      12 K. H. Jung, "Preparation and Antibacterial Activity of PET/Chitosan Nanofibrous Mats Using an Electrospinning Technique" 105 : 2816-2823, 2007

      13 L. G. GRIFFITH, "POLYMERIC BIOMATERIALS" 48 : 263-277, 2000

      14 J. Jin, "Novel Chitosan-Based Films Cross-Linked by Genipin with Improved Physical Properties" 5 : 162-168, 2004

      15 I. O. Smith, "Nanostructured polymer scaffolds for tissue engineering and regenerative medicine" 1 : 226-236, 2009

      16 J. Du, "Nanofibrous membranes from aqueous electrospinning of carboxymethyl chitosan" 19 : 125707-, 2008

      17 J. Du, "Nanofibrous membranes from aqueous electrospinning of carboxymethyl chitosan" 19 : 125707-, 2008

      18 K. Desai, "Nanofibrous chitosan non-wovens for filtration applications" 50 : 3661-3669, 2009

      19 Z. Chen, "Intermolecular interactions in electrospun collagen-chitosan complex nanofibers" 72 : 410-418, 2008

      20 Z. Chen, "Intermolecular interactions in electrospun collagen-chitosan complex nanofibers" 72 : 410-418, 2008

      21 C. D. Sims, "Injectable Cartilage Using Polyethylene Oxide Polymer Substrates" 98 : 843-850, 1996

      22 W. Wang, "Influences of mechanical properties and permeability on chitosan nano/microfibermesh tubes as a scaffold for nerve regeneration" 84A : 557-566, 2008

      23 C. Kriegel, "Influence of Surfactant Type and Concentration on Electrospinning of Chitosan-Poly (Ethylene Oxide) Blend Nanofibers" 4 : 213-228, 2009

      24 E. Guibal, "Heterogeneous catalysis on chitosan-based materials : a review" 30 : 71-109, 2005

      25 J. L. Vondran, "Fabrication, optimization, and characterization of carboxymethylated chitosan nanofiber mats for cartilage regeneration applications" Drexel University 123-, 2007

      26 S. S. Ojha, "Fabrication and Characterization of Electrospun Chitosan Nanofibers Formed via Templating with Polyethylene Oxide" 9 : 2523-2529, 2008

      27 W. Wang, "Enhanced nerve regeneration through a bilayered chitosan tube: the effect of introduction of glycine spacer into the CYIGSR sequence" 85A : 919-928, 2008

      28 R. Casarano, "Enhanced fibroblast adhesion and proliferation on electrospun fibers obtained from poly (isosorbide succinate-b-L-lactide) block copolymers" 50 : 6218-6227, 2009

      29 X. Mo, "Electrospun nanofibers of collagen-chitosan and P(LLA-CL) for tissue engineering" 1 : 20-23, 2007

      30 M. Ignatova, "Electrospun nano-fibre mats with antibacterial properties from quaternised chitosan and poly (vinyl alcohol)" 341 : 2098-2107, 2006

      31 H. R. Jung, "Electrospun hydrophilic fumed silica/polyacrylonitrile nanofiber-based composite electrolyte membranes" 54 : 3630-3637, 2009

      32 N. Bhattarai, "Electrospun chitosan-based nanofibers and their cellular compatibility" 26 : 6176-6184, 2005

      33 F. CHEN, "Electrospun chitosan-P(LLA-CL) nanofibers for biomimetic extracellular matrix" 19 : 677-691, 2008

      34 Z. Chen, "Electrospinning of collagenchitosan complex" 61 : 3490-3494, 2007

      35 C. Kriegel, "Electrospinning of chitosan-poly (ethylene oxide) blend nanofibers in the presence of micellar surfactant solutions" 50 : 189-200, 2009

      36 B. Duan, "Electrospinning of chitosan solutions in acetic acid with poly(ethylene oxide)" 15 : 797-811, 2004

      37 S. D Vrieze, "Electrospinning of chitosan nanofibrous structures: feasibility study" 42 : 8029-8034, 2007

      38 X. Geng, "Electrospinning of chitosan dissolved in concentrated acetic acid solution" 26 : 5427-5432, 2005

      39 Y. Zhou, "Electrospinning of Chitosan/Poly(vinyl alcohol)/Acrylic Acid Aqueous Solutions" 102 : 5692-5697, 2006

      40 K. Ohkawa, "Electrospinning of Chitosan" 25 : 1600-1605, 2004

      41 F. Yoshiia, "Electron beam crosslinked PEO and PEO/PVA hydrogels for wound dressing" 55 : 133-138, 1999

      42 K. Yagi, "Effectiveness of fructose-modified chitosan as a scaffold for hepatocyte attachment" 20 : 1290-1294, 1997

      43 W. H. Park, "Effect of chitosan on morphology and conformation of electrospun silk fibroin nanofibers" 45 : 7151-7157, 2004

      44 B. S. Kim, "Development of biocompatible synthetic extracellular matrices for tissue engineering" 16 : 224-, 1998

      45 F. S. Ligler, "Development of Uniform Chitosan Thin-Film Layers on Silicon Chips" 17 (17): 5082-5084, 2001

      46 S. Torres-Giner, "Development of Active Antimicrobial Fiber Based Chitosan Polysaccharide Nanostructures using Electrospinning" 8 : 303-314, 2008

      47 J. D. Schiffman, "Cross-Linking Chitosan Nanofibers" 8 : 594-601, 2007

      48 R. R. Klossner, "Correlation of Chitosan's Rheological Properties and Its Ability to Electrospin" 9 : 2947-2953, 2008

      49 S. V. Fridrikh, "Controlling the fiber diameter during electrospinning" 90 : 144502-, 2003

      50 C. L. Schauer, "Color changes in chitosan and poly (allyl amine) films upon metal binding" 434 : 250-257, 2003

      51 K. Aiedeh, "Chitosan microcapsules as controlled release systems for insulin" 14 : 567-576, 1997

      52 L. Li, "Chitosan bicomponent nanofibers and nanoporous fibers" 341 : 374-381, 2006

      53 S. Hirano, "Chitosan as an ingredient for domesticanimal feeds" 38 : 1214-1217, 1990

      54 Y. Z. Zhang, "Chitosan Nanofibers from an Easily Electrospinnable UHMWPEO-Doped Chitosan Solution System" 9 : 136-141, 2008

      55 E. R. Welsh, "Chitosan Cross-Linking with a Water-Soluble, Blocked Diisocyanate. 1. Solid State" 3 : 1370-1374, 2002

      56 C. K. S. Pillai, "Chitin and chitosan polymers: Chemistry, solubility and fiber formation" 34 : 641-678, 2009

      57 B. M. Min, "Chitin and chitosan nanofibers: electrospinning of chitin and deacetylation of chitin nanofibers" 45 : 7137-7142, 2004

      58 G. Kunike, "Chitin and chitosan" 42 : 318-342, 1927

      59 S. W. Ko, "Chitin (or Chitosan) Blends and Their Applications" 8 : 538-545, 1997

      60 S. Torres-Giner, "Characterization of the morphology and thermal properties of Zein Prolamine nanostructures obtained by electrospinning" 22 : 601-614, 2008

      61 H. Matsumoto, "Characterization of chitosan nanofiber fabric by electrospray deposition: Electrokinetic and adsorption behavior" 310 : 678-681, 2007

      62 M. Hasegawa, "Characterization of cellulose-chitosan blend films" 45 : 1873-1879, 1992

      63 Y. Zhang, "Calcium phosphate/chitosan composite scaffolds for controlled in vitro antibiotic drug release" 62 : 378-386, 2002

      64 X. Li, "Biological Activity of Chitosan-Sugar Hybrids: Specific Interaction with Lectin" 11 : 176-179, 2000

      65 R. Mincheva, "Bicomponent aligned nanofibers of N-carboxyethylchitosan and poly (vinyl alcohol)" 43 : 2809-2818, 2007

      66 K. MNVR, "A review of chitin and chitosan applications" 46 : 1-27, 2000

      67 B. Duan, "A nanofibrous composite membrane of PLGA-chitosan/PVA prepared by electrospinning" 42 : 2013-2022, 2006

      더보기

      동일학술지(권/호) 다른 논문

      동일학술지 더보기

      더보기

      분석정보

      View

      상세정보조회

      0

      Usage

      원문다운로드

      0

      대출신청

      0

      복사신청

      0

      EDDS신청

      0

      동일 주제 내 활용도 TOP

      더보기

      주제

      연도별 연구동향

      연도별 활용동향

      연관논문

      연구자 네트워크맵

      공동연구자 (7)

      유사연구자 (20) 활용도상위20명

      인용정보 인용지수 설명보기

      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2017-01-01 평가 등재학술지 유지 (계속평가) KCI등재
      2013-01-01 평가 등재 1차 FAIL (등재유지) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2007-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2006-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2005-03-28 학회명변경 한글명 : 생체재료학회 -> 한국생체재료학회
      영문명 : 미등록 -> The Korean Society For Biomaterials
      KCI등재후보
      2005-03-28 학술지등록 한글명 : 생체재료학회지
      외국어명 : Biomaterials Research
      KCI등재후보
      2004-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
      더보기

      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.32 0.32 0.3
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.26 0.23 0.511 0.11
      더보기

      이 자료와 함께 이용한 RISS 자료

      나만을 위한 추천자료

      해외이동버튼