Skin 3D Bioprinting. Applications in Cosmetology

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Journal of Cosmetics, Dermatological Sciences and Applications

ISSN Print: 2161-4105
ISSN Online: 2161-4512
www.scirp.org/journal/jcdsa
E-mail: jcdsa@scirp.org

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"Skin 3D Bioprinting. Applications in Cosmetology"
written by Cristina Velasquillo, Eduardo A. Galue, Lourdes Rodriquez, Clemente Ibarra, L. Guillermo Ibarra-Ibarra,
published by Journal of Cosmetics, Dermatological Sciences and Applications, Vol.3 No.1A, 2013

has been cited by the following article(s):

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[1]	3D-printed gelatin-alginate hydrogel dressings for burn wound healing: A comprehensive study
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[2]	Hydrogels for extrusion-based bioprinting: General considerations
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[3]	Bioengineered Efficacy Models of Skin Disease: Advances in the Last 10 Years
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[4]	Application and future prospects of additive manufacturing in dermatology
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[5]	Biomaterial Science: Anatomy and Physiology Aspects
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[6]	3D printing with biomaterials: A prospective view for biomedical applications
	Innovative Processes and …, 2022

[7]	3D Bioprinting in Skin Related Research: Recent Achievements and Application Perspectives
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[8]	Multi-tissue layering and path planning of in situ bioprinting for complex skin and soft tissue defects
	2021

[9]	A finite element analysis model to predict and optimize the mechanical behaviour of bioprinted scaffolds
	2021

[10]	3D Printing Technology for Biomedical Practice: A Review
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[11]	Biocosmetics: Technological advances and future outlook
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[12]	On-road vehicle detection in varying weather conditions using faster R-CNN with several region proposal networks
	Multimedia Tools and Applications, 2021

[13]	Development and Evaluation of 3D Bio-printed Gancer Tissue Gonstruct for Drug Testing
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[14]	Outlook for Wound Healing Technologies (a Review)
	2020

[15]	Advances in the Research of Bioinks Based on Natural Collagen, Polysaccharide and Their Derivatives for Skin 3D Bioprinting
	2020

[16]	Ранозаживляющие технологии: пути развития (обзор литературы)
	2020

[17]	Biomaterials Based on Marine Resources for 3D Bioprinting Applications
	2019

[18]	Discovering new 3D bioprinting applications: Analyzing the case of optical tissue phantoms
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[19]	Emergence of Three Dimensional Printed Cardiac Tissue: Opportunities and Challenges in Cardiovascular Diseases
	2019

[20]	Clinical Perspectives on 3D Bioprinting Paradigms for Regenerative Medicine
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[21]	Biocompatible Hybrid Molecular Brushes Composed of Chitosan, Polylactide, and Poly (N-vinyl pyrrolidone) as Scaffolds for Skin Wound Healing
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[22]	Bioprinting of human skin: Gaps, opportunities, and future directions
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[23]	Les émissions polluantes liées au fonctionnement des imprimantes 3D
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[24]	Bioprinting of human skin
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[25]	Hyperspectral Imaging with Burn Contour Extraction for Burn Wound Depth Assessment
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[26]	Simulating image-guided in situ bioprinting of a skin graft onto a phantom burn wound bed
	Additive Manufacturing, 2018

[27]	Multiscale bioprinting of vascularized models
	Biomaterials, 2018

[28]	Emissions related to the operation of 3D printers
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[29]	3D Printing of Biosamples: A Concise Review
	Journal of Molecular and Engineering Materials, 2017

[30]	Biomechanics of the Human Skin Barrier
	ProQuest Dissertations Publishing, 2017

[31]	Simulating image-guided in situ bioprinting of a skin graft onto a phantom burn
	2017

[32]	Organ Printing With Life Cells: A Review
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[33]	Skin regeneration in three dimensions, current status, challenges and opportunities
	Differentiation, 2017

[34]	Polymers for 3D Printing and Customized Additive Manufacturing
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[35]	三维打印皮肤组织研究进展
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[36]	The state-of-the-art of 3D bio-printing of skin tissues
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[37]	Konzeption und Prototypenbau eines Zweikomponenten-Druckkopfs mit wechselbaren Dual-Extrudern für das 3D-Bioprinting im Bereich des Tissue Engineering
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[38]	Current Trends on Medical and Pharmaceutical Applications of Inkjet Printing Technology
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[39]	Design of a Skin Grafting Methodology for Burn Wound Using an Additive Biomanufacturing System Guided by Hyperspectral Imaging
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[40]	Impressão 3D: persptivas de adoção na Indústria Portuguesa
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[41]	3D printing of tissue-simulating phantoms as a traceable standard for biomedical optical measurement
	Seventh International Symposium on Precision Mechanical Measurements, 2016

[42]	Freeform fabrication of tissue-simulating phantoms by combining three-dimensional printing and casting
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[43]	3D printing‐assisted fabrication of double‐layered optical tissue phantoms for laser tattoo treatments
	Lasers in surgery and medicine, 2016

[44]	Evaluation of fibrin-gelatin hydrogel as biopaper for application in skin bioprinting: An in-vitro study
	Bio-Medical Materials and Engineering, 2016

[45]	Konzeption und Prototypenbau eines Zweikomponenten-Druckkopfs mit wechselbaren Dual-Extrudern für das 3D-Bioprinting im Bereich des Tissue …
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[46]	Design of a Personalized Skin Grafting Methodology Using an Additive Biomanufacturing System Guided by 3D Photogrammetry
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[47]	Nanomedicine and Tissue Engineering
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[48]	Fabricating optical phantoms to simulate skin tissue properties and microvasculatures
	SPIE BiOS, 2015

[49]	3D printing method for freeform fabrication of optical phantoms simulating heterogeneous biological tissue
	SPIE BiOS. International Society for Optics and Photonics, 2014

[50]	The impact of melanocytic cell destruction in pediatric facial burns and plastic surgery therapeutic management
	Rom J Morphol Embryol, 2014

[51]	Effect of Bioglass on Growth and Biomineralization of SaOS-2 Cells in Hydrogel after 3D Cell Bioprinting
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[52]	Schrö der HC
	Neufurth M, Feng Q, et al, 2014

[53]	Characterization of “bulk lithography” process for fabrication of three-dimensional microstructures
	2013

[1]	Innovative Processes and Materials in Additive Manufacturing 2023 DOI:10.1016/B978-0-323-86011-6.00013-1

[2]	3D Bioprinting in Skin Related Research: Recent Achievements and Application Perspectives ACS Synthetic Biology, 2022 DOI:10.1021/acssynbio.1c00547

[3]	Bioengineered Efficacy Models of Skin Disease: Advances in the Last 10 Years Pharmaceutics, 2022 DOI:10.3390/pharmaceutics14020319

[4]	3D Bioprinting in Skin Related Research: Recent Achievements and Application Perspectives ACS Synthetic Biology, 2022 DOI:10.1021/acssynbio.1c00547

[5]	Biocosmetics: technological advances and future outlook Environmental Science and Pollution Research, 2021 DOI:10.1007/s11356-021-17567-3

[6]	Biocosmetics: technological advances and future outlook Environmental Science and Pollution Research, 2021 DOI:10.1007/s11356-021-17567-3

[7]	Multi-tissue layering and path planning of in situ bioprinting for complex skin and soft tissue defects Rapid Prototyping Journal, 2021 DOI:10.1108/RPJ-08-2020-0201

[8]	Advances in the Research of Bioinks Based on Natural Collagen, Polysaccharide and Their Derivatives for Skin 3D Bioprinting Polymers, 2020 DOI:10.3390/polym12061237

[9]	Outlook for Wound Healing Technologies (a Review) Creative surgery and oncology, 2020 DOI:10.24060/2076-3093-2020-10-2-130-136

[10]	Biomaterials Based on Marine Resources for 3D Bioprinting Applications Marine Drugs, 2019 DOI:10.3390/md17100555

[11]	Multiscale Bioprinting of Vascularized Models Biomaterials, 2018 DOI:10.1016/j.biomaterials.2018.08.006

[12]	Evaluation of fibrin-gelatin hydrogel as biopaper for application in skin bioprinting: An in-vitro study Bio-Medical Materials and Engineering, 2017 DOI:10.3233/BME-161617

[13]	Organ Printing With Life Cells: A Review Materials Today: Proceedings, 2017 DOI:10.1016/j.matpr.2017.01.122

[14]	Polymers for 3D Printing and Customized Additive Manufacturing Chemical Reviews, 2017 DOI:10.1021/acs.chemrev.7b00074

[15]	Polymers for 3D Printing and Customized Additive Manufacturing Chemical Reviews, 2017 DOI:10.1021/acs.chemrev.7b00074

[16]	Freeform fabrication of tissue-simulating phantoms by combining three-dimensional printing and casting Design and Quality for Biomedical Technologies IX, 2016 DOI:10.1117/12.2212305

[17]	3D printing of tissue-simulating phantoms as a traceable standard for biomedical optical measurement Seventh International Symposium on Precision Mechanical Measurements, 2016 DOI:10.1117/12.2218698

[18]	3D printing method for freeform fabrication of optical phantoms simulating heterogeneous biological tissue Design and Performance Validation of Phantoms Used in Conjunction with Optical Measurement of Tissue VI, 2014 DOI:10.1117/12.2041137

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	+1 323-425-8868
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	+86 18163351462(WhatsApp)
	1655362766

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