poniedziałek, 15 października 2018
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Naczynia krwionośne z drukarki 3d (6)

EN_01293928_0004 FER
Ferrari Press Agency Ref 8708 Printing1 06/12/2017 See Ferrari text Picture MUST credit : Symbiolab/Institute IRNAS One day medical teams could print blood vessels to replaced damaged ones.A team has used a bio-printer to create vessel systems in hydrogels, substances which mimic human flesh.The work consisted of bio-printing a 3D structure based on the blood vessel structure of an earl.The researchers from the Symbiolab at the Institute IRNAS in Slovenia say the ability to recreate blood vessel structures has been a steady challenge. Bio-printers have been used before to produce structures made from human cells to make artificially produced organs which enquire a complex vascular network for implantation.Throughout the medical field, research is being done to overcome this challenge.The Symbiolab team are working on their own solution to the problem.Making blood vessels is a major challenge in tissue engineering as it currently sets a very restrictive limit on the thickness of tissues that can be fabricated. They say new approaches will be needed to achieve major improvements and the co-development of material with technology like 3D printing playing a major role.A spokesman said: ??sWe???re currently devising new protocols to fabricate vessel systems from other hydrogels to make it more versatile and useful for tissue engineering research. ??sThe recent work done by the Symbiolab, consisted of 3D bioprinting of a vessel system in an ear-shaped biocompatible hydrogel material.Researcher Bo?Atjan Vihar said this has the potential to be used as a ??sbasis for blood vessel fabrication,??? Crucial to this research project is the Vitaprint bioprinting platform, a bioprinter developed by IRNAS.It is notable for its open source hardware, protocols, and demo files which can be downloaded .The bioprinter was designed to enable hardware modifications and customizations so that it can be adapted for v
EN_01293928_0005 FER
Ferrari Press Agency Ref 8708 Printing1 06/12/2017 See Ferrari text Picture MUST credit : Symbiolab/Institute IRNAS One day medical teams could print blood vessels to replaced damaged ones.A team has used a bio-printer to create vessel systems in hydrogels, substances which mimic human flesh.The work consisted of bio-printing a 3D structure based on the blood vessel structure of an earl.The researchers from the Symbiolab at the Institute IRNAS in Slovenia say the ability to recreate blood vessel structures has been a steady challenge. Bio-printers have been used before to produce structures made from human cells to make artificially produced organs which enquire a complex vascular network for implantation.Throughout the medical field, research is being done to overcome this challenge.The Symbiolab team are working on their own solution to the problem.Making blood vessels is a major challenge in tissue engineering as it currently sets a very restrictive limit on the thickness of tissues that can be fabricated. They say new approaches will be needed to achieve major improvements and the co-development of material with technology like 3D printing playing a major role.A spokesman said: ??sWe???re currently devising new protocols to fabricate vessel systems from other hydrogels to make it more versatile and useful for tissue engineering research. ??sThe recent work done by the Symbiolab, consisted of 3D bioprinting of a vessel system in an ear-shaped biocompatible hydrogel material.Researcher Bo?Atjan Vihar said this has the potential to be used as a ??sbasis for blood vessel fabrication,??? Crucial to this research project is the Vitaprint bioprinting platform, a bioprinter developed by IRNAS.It is notable for its open source hardware, protocols, and demo files which can be downloaded .The bioprinter was designed to enable hardware modifications and customizations so that it can be adapted for v
EN_01293928_0006 FER
Ferrari Press Agency Ref 8708 Printing1 06/12/2017 See Ferrari text Picture MUST credit : Symbiolab/Institute IRNAS One day medical teams could print blood vessels to replaced damaged ones.A team has used a bio-printer to create vessel systems in hydrogels, substances which mimic human flesh.The work consisted of bio-printing a 3D structure based on the blood vessel structure of an earl.The researchers from the Symbiolab at the Institute IRNAS in Slovenia say the ability to recreate blood vessel structures has been a steady challenge. Bio-printers have been used before to produce structures made from human cells to make artificially produced organs which enquire a complex vascular network for implantation.Throughout the medical field, research is being done to overcome this challenge.The Symbiolab team are working on their own solution to the problem.Making blood vessels is a major challenge in tissue engineering as it currently sets a very restrictive limit on the thickness of tissues that can be fabricated. They say new approaches will be needed to achieve major improvements and the co-development of material with technology like 3D printing playing a major role.A spokesman said: ??sWe???re currently devising new protocols to fabricate vessel systems from other hydrogels to make it more versatile and useful for tissue engineering research. ??sThe recent work done by the Symbiolab, consisted of 3D bioprinting of a vessel system in an ear-shaped biocompatible hydrogel material.Researcher Bo?Atjan Vihar said this has the potential to be used as a ??sbasis for blood vessel fabrication,??? Crucial to this research project is the Vitaprint bioprinting platform, a bioprinter developed by IRNAS.It is notable for its open source hardware, protocols, and demo files which can be downloaded .The bioprinter was designed to enable hardware modifications and customizations so that it can be adapted for v
EN_01293928_0002 FER
Ferrari Press Agency Ref 8708 Printing1 06/12/2017 See Ferrari text Picture MUST credit : Symbiolab/Institute IRNAS One day medical teams could print blood vessels to replaced damaged ones.A team has used a bio-printer to create vessel systems in hydrogels, substances which mimic human flesh.The work consisted of bio-printing a 3D structure based on the blood vessel structure of an earl.The researchers from the Symbiolab at the Institute IRNAS in Slovenia say the ability to recreate blood vessel structures has been a steady challenge. Bio-printers have been used before to produce structures made from human cells to make artificially produced organs which enquire a complex vascular network for implantation.Throughout the medical field, research is being done to overcome this challenge.The Symbiolab team are working on their own solution to the problem.Making blood vessels is a major challenge in tissue engineering as it currently sets a very restrictive limit on the thickness of tissues that can be fabricated. They say new approaches will be needed to achieve major improvements and the co-development of material with technology like 3D printing playing a major role.A spokesman said: ??sWe???re currently devising new protocols to fabricate vessel systems from other hydrogels to make it more versatile and useful for tissue engineering research. ??sThe recent work done by the Symbiolab, consisted of 3D bioprinting of a vessel system in an ear-shaped biocompatible hydrogel material.Researcher Bo?Atjan Vihar said this has the potential to be used as a ??sbasis for blood vessel fabrication,??? Crucial to this research project is the Vitaprint bioprinting platform, a bioprinter developed by IRNAS.It is notable for its open source hardware, protocols, and demo files which can be downloaded .The bioprinter was designed to enable hardware modifications and customizations so that it can be adapted for v
EN_01293928_0001 FER
Ferrari Press Agency Ref 8708 Printing1 06/12/2017 See Ferrari text Picture MUST credit : Symbiolab/Institute IRNAS One day medical teams could print blood vessels to replaced damaged ones.A team has used a bio-printer to create vessel systems in hydrogels, substances which mimic human flesh.The work consisted of bio-printing a 3D structure based on the blood vessel structure of an earl.The researchers from the Symbiolab at the Institute IRNAS in Slovenia say the ability to recreate blood vessel structures has been a steady challenge. Bio-printers have been used before to produce structures made from human cells to make artificially produced organs which enquire a complex vascular network for implantation.Throughout the medical field, research is being done to overcome this challenge.The Symbiolab team are working on their own solution to the problem.Making blood vessels is a major challenge in tissue engineering as it currently sets a very restrictive limit on the thickness of tissues that can be fabricated. They say new approaches will be needed to achieve major improvements and the co-development of material with technology like 3D printing playing a major role.A spokesman said: ??sWe???re currently devising new protocols to fabricate vessel systems from other hydrogels to make it more versatile and useful for tissue engineering research. ??sThe recent work done by the Symbiolab, consisted of 3D bioprinting of a vessel system in an ear-shaped biocompatible hydrogel material.Researcher Bo?Atjan Vihar said this has the potential to be used as a ??sbasis for blood vessel fabrication,??? Crucial to this research project is the Vitaprint bioprinting platform, a bioprinter developed by IRNAS.It is notable for its open source hardware, protocols, and demo files which can be downloaded .The bioprinter was designed to enable hardware modifications and customizations so that it can be adapted for v
EN_01293928_0003 FER
Ferrari Press Agency Ref 8708 Printing1 06/12/2017 See Ferrari text Picture MUST credit : Symbiolab/Institute IRNAS One day medical teams could print blood vessels to replaced damaged ones.A team has used a bio-printer to create vessel systems in hydrogels, substances which mimic human flesh.The work consisted of bio-printing a 3D structure based on the blood vessel structure of an earl.The researchers from the Symbiolab at the Institute IRNAS in Slovenia say the ability to recreate blood vessel structures has been a steady challenge. Bio-printers have been used before to produce structures made from human cells to make artificially produced organs which enquire a complex vascular network for implantation.Throughout the medical field, research is being done to overcome this challenge.The Symbiolab team are working on their own solution to the problem.Making blood vessels is a major challenge in tissue engineering as it currently sets a very restrictive limit on the thickness of tissues that can be fabricated. They say new approaches will be needed to achieve major improvements and the co-development of material with technology like 3D printing playing a major role.A spokesman said: ??sWe???re currently devising new protocols to fabricate vessel systems from other hydrogels to make it more versatile and useful for tissue engineering research. ??sThe recent work done by the Symbiolab, consisted of 3D bioprinting of a vessel system in an ear-shaped biocompatible hydrogel material.Researcher Bo?Atjan Vihar said this has the potential to be used as a ??sbasis for blood vessel fabrication,??? Crucial to this research project is the Vitaprint bioprinting platform, a bioprinter developed by IRNAS.It is notable for its open source hardware, protocols, and demo files which can be downloaded .The bioprinter was designed to enable hardware modifications and customizations so that it can be adapted for v