scaffold fabrication in tissue engineering · rsc advances, 6. doi: 10.1039/c6ra02486f [6] garg t,...
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![Page 1: Scaffold Fabrication in Tissue Engineering · RSC Advances, 6. DOI: 10.1039/c6ra02486f [6] Garg T, Singh O, Arora S, Murthy R.S.R. (2012) Scaffold: A Novel Carrier for Cell and Drug](https://reader033.vdocuments.mx/reader033/viewer/2022060301/5f0862a97e708231d421bfb6/html5/thumbnails/1.jpg)
Scaffold Fabrication in Tissue Engineering
27. August 2008
Institut für MehrphasenprozesseProf. Dr.-Ing. B. Glasmacher, MSc.Callinstraße 3630167 Hannover
Ian Ghanavati
22 April 2019
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Tissue Engineering• A multidisciplinary field that seeks to repair, replace, maintain, or
improve tissue and organ function• Focuses on the interaction of cells and scaffolds
– Scaffolds mimic the extracellular matrix– Cells are seeded onto scaffolds to grow and proliferate
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Scaffold Fabrication• Mimic the extracellular matrix• Engineered to cause desirable cellular interactions, such as:
– Cell attachment, cell migration, cell proliferation, mechanical strength, nutrient/biochemical factor diffusion
• Made from a variety of materials, both natural and synthetic– Natural: Collagen, Synthetic: polycaprolactone (PCL), polyethylene glycol
(PEO)
• Created using a variety of techniques– Electrospinning– Freeze Drying
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Electrospinning
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• Process parameters: solution properties, electric potential, flow rate, distance, needle gauge, collector design, ambient parameters
• Types: Blend electrospinning, coaxial electrospinning
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Blend Electrospinning
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Coaxial Electrospinning
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Blend Fiber Mats25 kV
250 rpm
PCL/PEO 1:3
PCL/PEO 1:1
PCL/PEO 3:1
40 min
60 min
80 min
4 ml/hr
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Blend Results - ThicknessPCL/PEO 1:3 40 min
PCL/PEO 1:3 60 min
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Blend Results - Fiber DiameterPCL/PEO 1:3 40 min
PCL 60min
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Blend Results - RAMANPEO
PCL/PEO 1:3
PCL
PCL/PEO 3:1
PCL/PEO 1:1
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CoAxial Fiber Mats
25 kV
250 rpm
PCL/PEO 1:3
PCL/PEO 1:1
PCL/PEO 3:1
TFE
H2O (PEO)
60 min
2 ml/hr2 ml/hr
3 ml/hr1 ml/hr
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Coaxial Results
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Freeze Dry Scaffolds
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Freeze Dry Scaffolds
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Freeze Dry Results
10% PCL Scaffold 15% PCL Scaffold 20% PCL Scaffold
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Freeze Dry Results[5]
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Freeze Dry Scaffolds
+Advantages:+Relatively straightforward method+Proven with a variety of polymers6
+High pore interconnectivity6
-Disadvantages:-Long processing time6
-Small and irregular pore size6
-More difficult manipulation
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References[1] Noh S, Myung N, Park M, et al. (2017). 3D Bioprinting for Tissue Engineering. Clinical Regenerative Medicine in Urology, 105-123. https://doi.org/10.1007/978-981-10-2723-9_5[2] Li Y, Bou-Akl T. (2016). Electrospinning in Tissue Engineering. IntechOpen. DOI: 10.5772/65836[3] Zander N, Orlicki J, Rawlett A, Beebe T. (2010). Surface-modified nanofibrous biomaterial bridge for the enhancement and control of neurite outgrowth. Biointerphases, 5(4): 149-158. DOI: 10.1116/1.3526140[4] Elashmawi I, Gaabour L. (2015) Raman, morphology and electrical behavior of nanocomposites based on PEO/PVDF with Multi-walled Carbon Nanotubes. Results in Physics. DOI: 10.1016/j.rinp.2015.04.005[5] Korczyc A, Warowicka A, Jasiurkowska D, et al. (2016). Antimicrobial electrospun poly(3-caprolactone) scaffolds for gingival fibroblast growth. RSC Advances, 6. DOI: 10.1039/c6ra02486f[6] Garg T, Singh O, Arora S, Murthy R.S.R. (2012) Scaffold: A Novel Carrier for Cell and Drug Delivery. Critical Reviews in Therapeutic Drug Carrier Systems,29:1-63.
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Experience in Germany
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Differences• Public Transportation• Graffiti• Green Space
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Food
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Beer
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Ice Cream
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Architecture
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Architecture
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Art
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Thanks!
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AcknowledgementsThank you to M.Eng. Sara Leal Marin, Glynn Galloway, Prof. Dr. Glasmacher, the IMP, Kristina and Uta for the support this summer!
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