A 3D injectable and enzymatic responsive hydrogel-bioceramic system for bone tissue engineering

A 3D injectable and enzymatic responsive hydrogel-bioceramic system for bone tissue engineering

Autologous bone graft is the current gold standard to treat bone defects caused by trauma, tumour and pathological fracture. The superior healing properties of the autologous bone graft are due to the presence of periosteum that provides angiogenic and osteogenic properties for bone healing. However...

وصف كامل

محفوظ في:

التفاصيل البيبلوغرافية
المؤلف الرئيسي:	Chun, Yong Yao
مؤلفون آخرون:	Choong Swee Neo Cleo
التنسيق:	Theses and Dissertations
اللغة:	English
منشور في:	2017
الموضوعات:	DRNTU::Engineering::Bioengineering
الوصول للمادة أونلاين:	http://hdl.handle.net/10356/69688
الوسوم:	إضافة وسم لا توجد وسوم, كن أول من يضع وسما على هذه التسجيلة!
المؤسسة:	Nanyang Technological University
اللغة:	English

مواد مشابهة

Development of polymeric and bioceramic tissue engineering scaffolds via fused deposition modeling
بواسطة: Ang, Ker Chin
منشور في: (2008)

Hydrogel-microcarrier composite systems for cell delivery in tissue engineering
بواسطة: Lau, Ting Ting
منشور في: (2014)

Development of novel hydrogel composites for bioprinting and engineering of thick tissues
بواسطة: Suntornnond, Ratima
منشور في: (2018)

Influence of cyclic compressive forces in bone tissue engineering
بواسطة: Ravichandran, Akhilandeshwari
منشور في: (2017)

Fabrication and characterization of magnetic scaffolds in bone tissue engineering
بواسطة: Chia, Amanda
منشور في: (2018)

Bio-mimicry of trace element in bone tissue engineering
بواسطة: Chee, Cui Xia
منشور في: (2015)

Tissue engineered bone models of prostate cancer metastasis
بواسطة: Tay, Zong Qing
منشور في: (2019)

Development of tissue scaffold for bone tissue engineering using rapid prototyping technique
بواسطة: Too, Mui Heng.
منشور في: (2008)

Biaxial bioreactor based generation of tissue engineered bone grafts
بواسطة: Lee, Boon Tat
منشور في: (2015)

Novel bioceramic composites for bone engineering
بواسطة: Miao, Xigeng.
منشور في: (2008)

Preparation of an injectable modified chitosan-based hydrogel approaching for bone tissue engineering
بواسطة: Kanyarat Saekhor, وآخرون
منشور في: (2020)

Laser-based 3D printing using bessel beams for tissue engineering applications
بواسطة: Liew, Andy Wen Loong
منشور في: (2020)

Engineering a vascularized bone tissue construct via transgenic angiogenic induction
بواسطة: Chen, Siang Yee
منشور في: (2015)

Cyclic compression of mesenchymal stem cells loaded scaffolds for bone tissue engineering
بواسطة: Guo, Fangfang
منشور في: (2015)

Effects of dexamethasone on cell sheet-based tissue engineering of mesenchymal stem cells for the regeneration of bone and cartilage tissues
بواسطة: Tan, Jing Shi
منشور في: (2017)

3D bioprinting of hydrogels with embedded cells
بواسطة: Pui, Nigel Min Wei
منشور في: (2017)

Stimulus-responsive deformation mechanisms of GMHA-based hydrogel systems for 4D printing
بواسطة: Tay, Jie Hao
منشور في: (2018)

Macroporous hydrogel formed by high internal phase emulsion-templating and their applications in tissue engineering
بواسطة: Oh, Bernice Hui Lin
منشور في: (2014)

Mechanical characterisation of alginate-gelatin hydrogel for 3D bioprinting applications
بواسطة: Han, Jefferson ShengChou
منشور في: (2014)

AN INJECTABLE HYDROGEL SYSTEM WITH UNQIUE TUNABLE STIFFNESS FOR TISSUE ENGINEERING
بواسطة: WANG LISHAN
منشور في: (2012)

3D printed self-conformable hydrogel composites by controlling fiber alignment
بواسطة: Lim, Sin Yee
منشور في: (2018)

3D bioprinting of biomimetic skeletal muscle tissue model
بواسطة: Zhuang, Pei
منشور في: (2020)

Molecular beacons for the interrogation of engineered bone systems
بواسطة: Ng, Wei Kai
منشور في: (2017)

Optimization of gene expression analysis in engineered tissue : determination of proper reference gene for quantitative real-time PCR in 3-d scaffold systems.
بواسطة: Chooi, Wai Hon.
منشور في: (2010)

3D printing hydrogel scaffold and functional hydrogel for tissue engineering application
بواسطة: Hu, Kan
منشور في: (2017)

Hepatogenic differentiation of induced pluripotent stem cells and embryonic stem cells in 3D hydrogel system.
بواسطة: Liao, Yanwan.
منشور في: (2013)

Mechanical protection and spheroid formation of mammalian cells in 3D printable hydrogel inks
بواسطة: Nur Ferozia Mohamed Rafit
منشور في: (2018)

Instructive scaffolds for tissue engineering
بواسطة: Lin, Jin
منشور في: (2015)

Instructive scaffolds for tissue engineering
بواسطة: Cham, Hui Ting
منشور في: (2017)

Testing of tissue engineered ligament
بواسطة: Pang, Chee Wai
منشور في: (2008)

Hepatogenesis of murine induced pluripotent stem cells in 3D micro-cavitary hydrogel system for liver regeneration
بواسطة: Koh, Mei Shan
منشور في: (2014)

Engineering a novel 3D tissue equivalent of small diameter artery media using human primary smooth muscle cells.
بواسطة: Shahrzad Rayatpisheh.
منشور في: (2013)

Engineering and characterizing hydrogel fibres for biomedical applications
بواسطة: Toh, Augustine Wei Lun
منشور في: (2021)

Characterisation of decellularised oesophagus in tissue engineering
بواسطة: Chia, Evelyn Sheng Nan.
منشور في: (2009)

Stretching of polycaprolactone films for tissue engineering
بواسطة: Reddy, K Sangeev
منشور في: (2015)

Development of scaffolds for oesophageal tissue engineering
بواسطة: Leong, Meng Fatt
منشور في: (2011)

Development of tissue engineering grafts for osteochondral regeneration
بواسطة: Nie, Xiaolei
منشور في: (2019)

Sacrificial gelatin microspheres for tissue engineering applications
بواسطة: Leong, Wenyan
منشور في: (2016)

Measurement of strain in scaffold for oesophagel tissue engineering
بواسطة: Tandon Purnima Vinodkumar.
منشور في: (2011)

Topographic characterization of electrospun fibers for tissue engineering
بواسطة: Lew, Magdeleine Dua Ning.
منشور في: (2010)