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  1. AU=Jang Jinah
  2. AU="Ullman, Natalie L"
  3. AU="Ding, Xiao-Qiang"
  4. AU="Goyal, Madhav"
  5. AU="Schwarz, E Bimla"
  6. AU="Yamamoto, Naoyuki"
  7. AU="Mansi, Ruaa Abdullah"
  8. AU="Feng, Ruifang"
  9. AU="Rzaigui, Mohamed"
  10. AU="Kuznetsova, Iren"
  11. AU="Töreki, Josefin"
  12. AU="Simon Hatcher" AU="Simon Hatcher"
  13. AU="Gui, Wenwu"
  14. AU="Komdeur, Annemarijn"
  15. AU="Stange, E. F."
  16. AU="McKenzie, Jodi A"
  17. AU="Chung, Mei"
  18. AU="Cezmi A Akdis"
  19. AU="Schlechter, Chelsey R"
  20. AU=Hedayati Manouchehr Ahmadi AU=Hedayati Manouchehr Ahmadi
  21. AU="Gould, Sven B"
  22. AU="Ko, Kyung Dae"
  23. AU="Elaheh Mahmoodi-Khaledi"
  24. AU=Jenkins Kathy J
  25. AU="Joseph Burgess"
  26. AU="Barbosa da Costa, Alana Vitor"
  27. AU="François Lebargy"
  28. AU=Serag Eman AU=Serag Eman
  29. AU="Yang, Guichun"
  30. AU="Amory, Jonathan R"
  31. AU="Reformat, Marek"

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  1. Buch: 3D bioprinting

    Jang, Jinah

    (Essays in biochemistry ; volume 65, issue 3 (August 2021))

    2021  

    Verfasserangabe guest editors: Jinah Jang
    Serientitel Essays in biochemistry ; volume 65, issue 3 (August 2021)
    Überordnung
    Sprache Englisch
    Umfang Seite 409-623, Illustrationen
    Verlag Portland Press
    Erscheinungsort London
    Erscheinungsland Vereinigtes Königreich
    Dokumenttyp Buch
    HBZ-ID HT021482726
    ISBN 978-1-85578-255-6 ; 1-85578-255-3
    Datenquelle Katalog ZB MED Medizin, Gesundheit

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    SignaturLeihstatusStandort
    Zs A 12 -65,3- nicht ausleihbar Zeitschriften-Lesesaal

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  2. Buch ; Online ; E-Book: Organ printing

    Jang, Jinah / Chae, Suhun / Yoon, Jungbin / Kim, Hyeonji / Park, Wonbin

    (IPEM-IOP series in physics and engineering in medicine and biology ; IOP ebooks. [2023 collection])

    2023  

    Abstract: Organ printing is broadening its spectrum and is expected to revolutionize the biomedicine and healthcare industry. This revised and updated second edition provides a comprehensive overview of the state-of-the-art 3D bioprinting technologies. The book ... ...

    Körperschaft Institute of Physics (Great Britain),
    Verfasserangabe Jinah Jang, Suhun Chae, Jungbin Yoon, Hyeonji Kim, Wonbin Park
    Serientitel IPEM-IOP series in physics and engineering in medicine and biology ; IOP ebooks. [2023 collection]
    Abstract Organ printing is broadening its spectrum and is expected to revolutionize the biomedicine and healthcare industry. This revised and updated second edition provides a comprehensive overview of the state-of-the-art 3D bioprinting technologies. The book introduces the prevailing 3D printing systems, cells and biomaterials for organ printing, and discusses outstanding research using 3D bioprinting, including trends, research strategy, experimental methods, and results, with additional discussion of future work in the field of tissue engineering and regenerative medicine. Geared towards researchers above graduate level, this reference text highlights the technical perspectives and showcases the academic interests of organ printing.Part of IPEM-IOP Series in Physics and Engineering in Medicine and Biology.
    Mesh-Begriff(e) Tissue Engineering/methods. ; Printing, Three-Dimensional.
    Schlagwörter Tissue engineering ; Three-dimensional printing ; Biotechnology ; MEDICAL / Allied Health Services / Medical Technology
    Thema/Rubrik (Code) 610.28
    Sprache Englisch
    Umfang 1 online resource (various pagings) :, illustrations (some color).
    Ausgabenhinweis Second edition.
    Verlag IOP Publishing
    Erscheinungsort Bristol England (Temple Circus, Temple Way, Bristol BS1 6HG, UK)
    Dokumenttyp Buch ; Online ; E-Book
    Anmerkung "Version: 20231101"--Title page verso.
    Bemerkung Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
    ISBN 0-7503-5122-5 ; 0-7503-5121-7 ; 0-7503-5123-3 ; 0-7503-5120-9 ; 978-0-7503-5122-5 ; 978-0-7503-5121-8 ; 978-0-7503-5123-2 ; 978-0-7503-5120-1
    DOI 10.1088/978-0-7503-5122-5
    Datenquelle ZB MED Katalog Medizin, Gesundheit, Ernährung, Umwelt, Agrar

    Volltext online

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  3. Artikel ; Online: Recent advances in biofabricated gut models to understand the gut-brain axis in neurological diseases.

    Han, Hohyeon / Jang, Jinah

    Frontiers in medical technology

    2022  Band 4, Seite(n) 931411

    Abstract: Increasing evidence has accumulated that gut microbiome dysbiosis could be linked to neurological diseases, including both neurodegenerative and psychiatric diseases. With the high prevalence of neurological diseases, there is an urgent need to elucidate ...

    Abstract Increasing evidence has accumulated that gut microbiome dysbiosis could be linked to neurological diseases, including both neurodegenerative and psychiatric diseases. With the high prevalence of neurological diseases, there is an urgent need to elucidate the underlying mechanisms between the microbiome, gut, and brain. However, the standardized aniikmal models for these studies have critical disadvantages for their translation into clinical application, such as limited physiological relevance due to interspecies differences and difficulty interpreting causality from complex systemic interactions. Therefore, alternative
    Sprache Englisch
    Erscheinungsdatum 2022-09-14
    Erscheinungsland Switzerland
    Dokumenttyp Journal Article ; Review
    ISSN 2673-3129
    ISSN (online) 2673-3129
    DOI 10.3389/fmedt.2022.931411
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  4. Artikel ; Online: Biohybrid printing approaches for cardiac pathophysiological studies.

    Hwang, Dong Gyu / Kang, Wonok / Park, Sung-Min / Jang, Jinah

    Biosensors & bioelectronics

    2024  Band 260, Seite(n) 116420

    Abstract: Bioengineered hearts, which include single cardiomyocytes, engineered heart tissue, and chamber-like models, generate various biosignals, such as contractility, electrophysiological, and volume-pressure dynamic signals. Monitoring changes in these ... ...

    Abstract Bioengineered hearts, which include single cardiomyocytes, engineered heart tissue, and chamber-like models, generate various biosignals, such as contractility, electrophysiological, and volume-pressure dynamic signals. Monitoring changes in these signals is crucial for understanding the mechanisms of disease progression and developing potential treatments. However, current methodologies face challenges in the continuous monitoring of bioengineered hearts over extended periods and typically require sacrificing the sample post-experiment, thereby limiting in-depth analysis. Thus, a biohybrid system consisting of living and nonliving components was developed. This system primarily features heart tissue alongside nonliving elements designed to support or comprehend its functionality. Biohybrid printing technology has simplified the creation of such systems and facilitated the development of various functional biohybrid systems capable of measuring or even regulating multiple functions, such as pacemakers, which demonstrates its versatility and potential applications. The future of biohybrid printing appears promising, with the ongoing exploration of its capabilities and potential directions for advancement.
    Sprache Englisch
    Erscheinungsdatum 2024-05-22
    Erscheinungsland England
    Dokumenttyp Journal Article
    ZDB-ID 1011023-9
    ISSN 1873-4235 ; 0956-5663
    ISSN (online) 1873-4235
    ISSN 0956-5663
    DOI 10.1016/j.bios.2024.116420
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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    Zs.A 2275: Hefte anzeigen Standort:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

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  5. Artikel ; Online: Nanomaterials-incorporated hydrogels for 3D bioprinting technology.

    Yoon, Jungbin / Han, Hohyeon / Jang, Jinah

    Nano convergence

    2023  Band 10, Heft 1, Seite(n) 52

    Abstract: In the field of tissue engineering and regenerative medicine, various hydrogels derived from the extracellular matrix have been utilized for creating engineered tissues and implantable scaffolds. While these hydrogels hold immense promise in the ... ...

    Abstract In the field of tissue engineering and regenerative medicine, various hydrogels derived from the extracellular matrix have been utilized for creating engineered tissues and implantable scaffolds. While these hydrogels hold immense promise in the healthcare landscape, conventional bioinks based on ECM hydrogels face several challenges, particularly in terms of lacking the necessary mechanical properties required for 3D bioprinting process. To address these limitations, researchers are actively exploring novel nanomaterial-reinforced ECM hydrogels for both mechanical and functional aspects. In this review, we focused on discussing recent advancements in the fabrication of engineered tissues and monitoring systems using nanobioinks and nanomaterials via 3D bioprinting technology. We highlighted the synergistic benefits of combining numerous nanomaterials into ECM hydrogels and imposing geometrical effects by 3D bioprinting technology. Furthermore, we also elaborated on critical issues remaining at the moment, such as the inhomogeneous dispersion of nanomaterials and consequent technical and practical issues, in the fabrication of complex 3D structures with nanobioinks and nanomaterials. Finally, we elaborated on plausible outlooks for facilitating the use of nanomaterials in biofabrication and advancing the function of engineered tissues.
    Sprache Englisch
    Erscheinungsdatum 2023-11-15
    Erscheinungsland England
    Dokumenttyp Journal Article ; Review
    ZDB-ID 2760386-6
    ISSN 2196-5404 ; 2196-5404
    ISSN (online) 2196-5404
    ISSN 2196-5404
    DOI 10.1186/s40580-023-00402-5
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  6. Artikel: Review on Multicomponent Hydrogel Bioinks Based on Natural Biomaterials for Bioprinting 3D Liver Tissues.

    Kim, Daekeun / Kim, Minseok / Lee, Jongwan / Jang, Jinah

    Frontiers in bioengineering and biotechnology

    2022  Band 10, Seite(n) 764682

    Abstract: Three-dimensional (3D)- ... ...

    Abstract Three-dimensional (3D)-printed
    Sprache Englisch
    Erscheinungsdatum 2022-02-14
    Erscheinungsland Switzerland
    Dokumenttyp Journal Article ; Review
    ZDB-ID 2719493-0
    ISSN 2296-4185
    ISSN 2296-4185
    DOI 10.3389/fbioe.2022.764682
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  7. Artikel ; Online: 3D Bioprinting and In Vitro Cardiovascular Tissue Modeling

    Jinah Jang

    Bioengineering, Vol 4, Iss 3, p

    2017  Band 71

    Abstract: Numerous microfabrication approaches have been developed to recapitulate morphologically and functionally organized tissue microarchitectures in vitro; however, the technical and operational limitations remain to be overcome. 3D printing technology ... ...

    Abstract Numerous microfabrication approaches have been developed to recapitulate morphologically and functionally organized tissue microarchitectures in vitro; however, the technical and operational limitations remain to be overcome. 3D printing technology facilitates the building of a construct containing biomaterials and cells in desired organizations and shapes that have physiologically relevant geometry, complexity, and micro-environmental cues. The selection of biomaterials for 3D printing is considered one of the most critical factors to achieve tissue function. It has been reported that some printable biomaterials, having extracellular matrix-like intrinsic microenvironment factors, were capable of regulating stem cell fate and phenotype. In particular, this technology can control the spatial positions of cells, and provide topological, chemical, and complex cues, allowing neovascularization and maturation in the engineered cardiovascular tissues. This review will delineate the state-of-the-art 3D bioprinting techniques in the field of cardiovascular tissue engineering and their applications in translational medicine. In addition, this review will describe 3D printing-based pre-vascularization technologies correlated with implementing blood perfusion throughout the engineered tissue equivalent. The described engineering method may offer a unique approach that results in the physiological mimicry of human cardiovascular tissues to aid in drug development and therapeutic approaches.
    Schlagwörter bioprinting ; 3D tissue modeling ; biomaterials ; stem cell ; cardiovascular tissue ; Technology ; T ; Biology (General) ; QH301-705.5
    Sprache Englisch
    Erscheinungsdatum 2017-08-01T00:00:00Z
    Verlag MDPI AG
    Dokumenttyp Artikel ; Online
    Datenquelle BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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  8. Artikel: Recent Trends in Biofabrication Technologies for Studying Skeletal Muscle Tissue-Related Diseases.

    Cho, Seungyeun / Jang, Jinah

    Frontiers in bioengineering and biotechnology

    2021  Band 9, Seite(n) 782333

    Abstract: In native skeletal muscle, densely packed myofibers exist in close contact with surrounding motor neurons and blood vessels, which are embedded in the fibrous connective tissue. In comparison to conventional two-dimensional (2D) cultures, the three- ... ...

    Abstract In native skeletal muscle, densely packed myofibers exist in close contact with surrounding motor neurons and blood vessels, which are embedded in the fibrous connective tissue. In comparison to conventional two-dimensional (2D) cultures, the three-dimensional (3D) engineered skeletal muscle models allow structural and mechanical resemblance with native skeletal muscle tissue by providing geometric confinement and physiological matrix stiffness to the cells. In addition, various external stimuli applied to these models enhance muscle maturation along with cell-cell and cell-extracellular matrix interaction. Therefore, 3D
    Sprache Englisch
    Erscheinungsdatum 2021-10-27
    Erscheinungsland Switzerland
    Dokumenttyp Journal Article ; Review
    ZDB-ID 2719493-0
    ISSN 2296-4185
    ISSN 2296-4185
    DOI 10.3389/fbioe.2021.782333
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  9. Artikel ; Online: Construction of 3D hierarchical tissue platforms for modeling diabetes.

    Kim, Myungji / Jang, Jinah

    APL bioengineering

    2021  Band 5, Heft 4, Seite(n) 41506

    Abstract: Diabetes mellitus (DM) is one of the most serious systemic diseases worldwide, and the majority of DM patients face severe complications. However, many of underlying disease mechanisms related to these complications are difficult to understand with the ... ...

    Abstract Diabetes mellitus (DM) is one of the most serious systemic diseases worldwide, and the majority of DM patients face severe complications. However, many of underlying disease mechanisms related to these complications are difficult to understand with the use of currently available animal models. With the urgent need to fundamentally understand DM pathology, a variety of 3D biomimetic platforms have been generated by the convergence of biofabrication and tissue engineering strategies for the potent drug screening platform of pre-clinical research. Here, we suggest key requirements for the fabrication of physiomimetic tissue models in terms of recapitulating the cellular organization, creating native 3D microenvironmental niches for targeted tissue using biomaterials, and applying biofabrication technologies to implement tissue-specific geometries. We also provide an overview of various
    Sprache Englisch
    Erscheinungsdatum 2021-10-20
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Review
    ISSN 2473-2877
    ISSN (online) 2473-2877
    DOI 10.1063/5.0055128
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  10. Artikel: 3D Bioprinting and In Vitro Cardiovascular Tissue Modeling.

    Jang, Jinah

    Bioengineering (Basel, Switzerland)

    2017  Band 4, Heft 3

    Abstract: Numerous microfabrication approaches have been developed to recapitulate morphologically and functionally organized tissue microarchitectures in vitro; however, the technical and operational limitations remain to be overcome. 3D printing technology ... ...

    Abstract Numerous microfabrication approaches have been developed to recapitulate morphologically and functionally organized tissue microarchitectures in vitro; however, the technical and operational limitations remain to be overcome. 3D printing technology facilitates the building of a construct containing biomaterials and cells in desired organizations and shapes that have physiologically relevant geometry, complexity, and micro-environmental cues. The selection of biomaterials for 3D printing is considered one of the most critical factors to achieve tissue function. It has been reported that some printable biomaterials, having extracellular matrix-like intrinsic microenvironment factors, were capable of regulating stem cell fate and phenotype. In particular, this technology can control the spatial positions of cells, and provide topological, chemical, and complex cues, allowing neovascularization and maturation in the engineered cardiovascular tissues. This review will delineate the state-of-the-art 3D bioprinting techniques in the field of cardiovascular tissue engineering and their applications in translational medicine. In addition, this review will describe 3D printing-based pre-vascularization technologies correlated with implementing blood perfusion throughout the engineered tissue equivalent. The described engineering method may offer a unique approach that results in the physiological mimicry of human cardiovascular tissues to aid in drug development and therapeutic approaches.
    Sprache Englisch
    Erscheinungsdatum 2017-08-18
    Erscheinungsland Switzerland
    Dokumenttyp Journal Article ; Review
    ZDB-ID 2746191-9
    ISSN 2306-5354
    ISSN 2306-5354
    DOI 10.3390/bioengineering4030071
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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