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AMPUTATION --- ARTIFICIAL LIMB --- LEG
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ARTIFICIAL LIMB --- AMPUTATION --- PHYSICAL THERAPY --- REHABILITATION
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Amputees. --- Artificial Limbs. --- Rehabilitation. --- Habilitation --- Disease --- Disabled Persons --- Recovery of Function --- Return to Work --- Sports for Persons with Disabilities --- Arm Prosthesis --- Arm, Artificial --- Artificial Arm --- Artificial Leg --- Extremities, Artificial --- Leg Prosthesis --- Leg, Artificial --- Limb Prosthesis --- Limbs, Artificial --- Arm Prostheses --- Arms, Artificial --- Artificial Arms --- Artificial Extremities --- Artificial Extremity --- Artificial Legs --- Artificial Limb --- Extremity, Artificial --- Leg Prostheses --- Legs, Artificial --- Limb Prostheses --- Limb, Artificial --- Prostheses, Arm --- Prostheses, Leg --- Prostheses, Limb --- Prosthesis, Arm --- Prosthesis, Leg --- Prosthesis, Limb --- Amputee --- rehabilitation --- Amputees --- Artificial Limbs --- Rehabilitation --- Multiple Amputee --- Multiple Amputees --- Amputee, Multiple --- Amputees, Multiple
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Three-dimensional (3D) printing has evolved massively during the last years. The 3D printing technologies offer various advantages, including: i) tailor-made design, ii) rapid prototyping, and iii) manufacturing of complex structures. Importantly, 3D printing is currently finding its potential in tissue engineering, wound dressings, tissue models for drug testing, prosthesis, and biosensors, to name a few. One important factor is the optimized composition of inks that can facilitate the deposition of cells, fabrication of vascularized tissue and the structuring of complex constructs that are similar to functional organs. Biocomposite inks can include synthetic and natural polymers, such as poly (ε-caprolactone), polylactic acid, collagen, hyaluronic acid, alginate, nanocellulose, and may be complemented with cross-linkers to stabilize the constructs and with bioactive molecules to add functionality. Inks that contain living cells are referred to as bioinks and the process as 3D bioprinting. Some of the key aspects of the formulation of bioinks are, e.g., the tailoring of mechanical properties, biocompatibility and the rheological behavior of the ink which may affect the cell viability, proliferation, and cell differentiation.The current Special Issue emphasizes the bio-technological engineering of novel biocomposite inks for various 3D printing technologies, also considering important aspects in the production and use of bioinks.
Information technology industries --- bacteria biofabrication --- 3D printing --- tissue engineering --- probiotic food --- pine sawdust --- soda ethanol pulping --- nanocellulose --- cytotoxicity --- absorption --- wound dressings --- bioprinting --- cellulose --- hydrogel --- physical cross-linking --- 3D bioprinting --- biocomposite ink --- tubular tissue --- tubular organ --- bacterial nanocellulose --- cellulose nanofibrils --- cellulose nanocrystals --- bioink --- collagen --- ECM --- extracellular matrix --- bioinks --- biomanufacturing --- biocomposite --- forest-based MFC --- fibrils --- additive manufacturing --- artificial limb --- fused deposition modeling (FDM) --- biofabrication --- hydrogels --- growth factor cocktail --- bioactive scaffold --- printability --- carboxylated agarose --- free-standing --- human nasal chondrocytes --- clinical translational --- polyhydroxyalkanoates --- scaffolds --- biomedicine --- drug delivery --- vessel stenting --- cancer --- 3D cell culture --- CNF --- cancer stemness --- n/a
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Three-dimensional (3D) printing has evolved massively during the last years. The 3D printing technologies offer various advantages, including: i) tailor-made design, ii) rapid prototyping, and iii) manufacturing of complex structures. Importantly, 3D printing is currently finding its potential in tissue engineering, wound dressings, tissue models for drug testing, prosthesis, and biosensors, to name a few. One important factor is the optimized composition of inks that can facilitate the deposition of cells, fabrication of vascularized tissue and the structuring of complex constructs that are similar to functional organs. Biocomposite inks can include synthetic and natural polymers, such as poly (ε-caprolactone), polylactic acid, collagen, hyaluronic acid, alginate, nanocellulose, and may be complemented with cross-linkers to stabilize the constructs and with bioactive molecules to add functionality. Inks that contain living cells are referred to as bioinks and the process as 3D bioprinting. Some of the key aspects of the formulation of bioinks are, e.g., the tailoring of mechanical properties, biocompatibility and the rheological behavior of the ink which may affect the cell viability, proliferation, and cell differentiation.The current Special Issue emphasizes the bio-technological engineering of novel biocomposite inks for various 3D printing technologies, also considering important aspects in the production and use of bioinks.
Information technology industries --- bacteria biofabrication --- 3D printing --- tissue engineering --- probiotic food --- pine sawdust --- soda ethanol pulping --- nanocellulose --- cytotoxicity --- absorption --- wound dressings --- bioprinting --- cellulose --- hydrogel --- physical cross-linking --- 3D bioprinting --- biocomposite ink --- tubular tissue --- tubular organ --- bacterial nanocellulose --- cellulose nanofibrils --- cellulose nanocrystals --- bioink --- collagen --- ECM --- extracellular matrix --- bioinks --- biomanufacturing --- biocomposite --- forest-based MFC --- fibrils --- additive manufacturing --- artificial limb --- fused deposition modeling (FDM) --- biofabrication --- hydrogels --- growth factor cocktail --- bioactive scaffold --- printability --- carboxylated agarose --- free-standing --- human nasal chondrocytes --- clinical translational --- polyhydroxyalkanoates --- scaffolds --- biomedicine --- drug delivery --- vessel stenting --- cancer --- 3D cell culture --- CNF --- cancer stemness --- n/a
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Three-dimensional (3D) printing has evolved massively during the last years. The 3D printing technologies offer various advantages, including: i) tailor-made design, ii) rapid prototyping, and iii) manufacturing of complex structures. Importantly, 3D printing is currently finding its potential in tissue engineering, wound dressings, tissue models for drug testing, prosthesis, and biosensors, to name a few. One important factor is the optimized composition of inks that can facilitate the deposition of cells, fabrication of vascularized tissue and the structuring of complex constructs that are similar to functional organs. Biocomposite inks can include synthetic and natural polymers, such as poly (ε-caprolactone), polylactic acid, collagen, hyaluronic acid, alginate, nanocellulose, and may be complemented with cross-linkers to stabilize the constructs and with bioactive molecules to add functionality. Inks that contain living cells are referred to as bioinks and the process as 3D bioprinting. Some of the key aspects of the formulation of bioinks are, e.g., the tailoring of mechanical properties, biocompatibility and the rheological behavior of the ink which may affect the cell viability, proliferation, and cell differentiation.The current Special Issue emphasizes the bio-technological engineering of novel biocomposite inks for various 3D printing technologies, also considering important aspects in the production and use of bioinks.
bacteria biofabrication --- 3D printing --- tissue engineering --- probiotic food --- pine sawdust --- soda ethanol pulping --- nanocellulose --- cytotoxicity --- absorption --- wound dressings --- bioprinting --- cellulose --- hydrogel --- physical cross-linking --- 3D bioprinting --- biocomposite ink --- tubular tissue --- tubular organ --- bacterial nanocellulose --- cellulose nanofibrils --- cellulose nanocrystals --- bioink --- collagen --- ECM --- extracellular matrix --- bioinks --- biomanufacturing --- biocomposite --- forest-based MFC --- fibrils --- additive manufacturing --- artificial limb --- fused deposition modeling (FDM) --- biofabrication --- hydrogels --- growth factor cocktail --- bioactive scaffold --- printability --- carboxylated agarose --- free-standing --- human nasal chondrocytes --- clinical translational --- polyhydroxyalkanoates --- scaffolds --- biomedicine --- drug delivery --- vessel stenting --- cancer --- 3D cell culture --- CNF --- cancer stemness --- n/a
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armprothesen --- prothesen --- Insurance law --- verzekeringsrecht --- Social security law --- Orthopaedics. Traumatology. Plastic surgery --- Belgium --- Assurances --- Gehandicapten --- Handicapés --- Verzekeringen --- Arm Injuries --- Artificial Limbs. --- 351.84*1 <493> --- 615.8 --- 61 --- 364.4-056.24 --- gezondheidszorg --- geneesheren --- 11.02 --- Arm Prosthesis --- Arm, Artificial --- Artificial Arm --- Artificial Leg --- Extremities, Artificial --- Leg Prosthesis --- Leg, Artificial --- Limb Prosthesis --- Limbs, Artificial --- Arm Prostheses --- Arms, Artificial --- Artificial Arms --- Artificial Extremities --- Artificial Extremity --- Artificial Legs --- Artificial Limb --- Extremity, Artificial --- Leg Prostheses --- Legs, Artificial --- Limb Prostheses --- Limb, Artificial --- Prostheses, Arm --- Prostheses, Leg --- Prostheses, Limb --- Prosthesis, Arm --- Prosthesis, Leg --- Prosthesis, Limb --- rehabilitation. --- Ziekte- en invaliditeitsverzekering. Mindervaliden. Mutualiteit. Arbeidsongeschiktheid. R.I.Z.I.V.--(in de sociale wetgeving)--België --- Fysiotherapie. Fysische therapie. Radiotherapie. Andere niet-medicinale therapeutische behandelingen --- Geneeskunde. Hygiëne. Farmacie --- soins de sante --- medecins --- Verzekeringsgeneeskunde ; Ziekte : Ongevallen ; Invaliditeit --- ARM INJURIES --- ARTIFICIAL LIMBS --- rehabilitation --- 351.84*1 <493> Ziekte- en invaliditeitsverzekering. Mindervaliden. Mutualiteit. Arbeidsongeschiktheid. R.I.Z.I.V.--(in de sociale wetgeving)--België --- Arm injuries --- Artificial limbs --- Rehabilitation. --- Artificial Limbs
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prosthetics --- orthotics --- rehabilitation --- amputation --- disability --- mobility assistive technology --- Prosthesis --- Orthopedic apparatus --- Orthopedic apparatus. --- Prosthesis. --- Prostheses --- Prosthetics --- Moulage in medicine --- Surgery, Plastic --- Artificial organs --- Biomedical materials --- Implants, Artificial --- Apparatus, Orthopedic --- Orthoses --- Orthotic devices --- Surgical instruments and apparatus --- Prosthesis & Artificial Organs --- Artificial Limbs. --- Orthotic Devices. --- Rehabilitation. --- Canada. --- Parapodium --- Orthosis --- Device, Orthotic --- Devices, Orthotic --- Orthose --- Orthotic Device --- Parapodiums --- Arm Prosthesis --- Arm, Artificial --- Artificial Arm --- Artificial Leg --- Extremities, Artificial --- Leg Prosthesis --- Leg, Artificial --- Limb Prosthesis --- Limbs, Artificial --- Arm Prostheses --- Arms, Artificial --- Artificial Arms --- Artificial Extremities --- Artificial Extremity --- Artificial Legs --- Artificial Limb --- Extremity, Artificial --- Leg Prostheses --- Legs, Artificial --- Limb Prostheses --- Limb, Artificial --- Prostheses, Arm --- Prostheses, Leg --- Prostheses, Limb --- Prosthesis, Arm --- Prosthesis, Leg --- Prosthesis, Limb --- Habilitation --- Disease --- Disabled Persons --- Recovery of Function --- Return to Work --- Sports for Persons with Disabilities --- rehabilitation
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Disabled veterans --- Prosthesis --- Self-help devices for people with disabilities --- Artificial Limbs. --- Prostheses and Implants. --- Rehabilitation. --- Research. --- Self-Help Devices. --- Rehabilitation --- Veterans --- Research --- Artificial Limbs --- Prostheses and Implants --- Self-Help Devices --- Laboratory Research --- Research Activities --- Research and Development --- Research Priorities --- Activities, Research --- Activity, Research --- Development and Research --- Priorities, Research --- Priority, Research --- Research Activity --- Research Priority --- Research, Laboratory --- Habilitation --- Disease --- Assistive Devices --- Assistive Technology --- Assistive Device --- Assistive Technologies --- Device, Assistive --- Device, Self-Help --- Devices, Assistive --- Devices, Self-Help --- Self Help Devices --- Self-Help Device --- Technologies, Assistive --- Technology, Assistive --- Implants, Artificial --- Artificial Implant --- Artificial Implants --- Implant, Artificial --- Implants and Prostheses --- Prostheses --- Arm Prosthesis --- Arm, Artificial --- Artificial Arm --- Artificial Leg --- Extremities, Artificial --- Leg Prosthesis --- Leg, Artificial --- Limb Prosthesis --- Limbs, Artificial --- Arm Prostheses --- Arms, Artificial --- Artificial Arms --- Artificial Extremities --- Artificial Extremity --- Artificial Legs --- Artificial Limb --- Extremity, Artificial --- Leg Prostheses --- Legs, Artificial --- Limb Prostheses --- Limb, Artificial --- Prostheses, Arm --- Prostheses, Leg --- Prostheses, Limb --- Prosthesis, Arm --- Prosthesis, Leg --- Prosthesis, Limb --- Assistive technology --- Self-help devices for the disabled --- Prosthetics --- Disabled sailors --- Disabled soldiers --- Service-disabled veterans --- Veterans, Disabled --- rehabilitation --- Prosthesis. --- Self-help devices for people with disabilities. --- United States. --- ABŞ --- ABSh --- Ameerika Ühendriigid --- America --- Amerika Birlăshmish Shtatlary --- Amerika Birlăşmi Ştatları --- Amerika Birlăşmiş Ştatları --- Amerika ka Kelenyalen Jamanaw --- Amerika Qūrama Shtattary --- Amerika Qŭshma Shtatlari --- Amerika Qushma Shtattary --- Amerika --- Amerikai Egyesült Államok --- Amerikanʹ Veĭtʹsėndi︠a︡vks Shtattnė --- Amerikări Pĕrleshu̇llĕ Shtatsem --- Amerikas Forenede Stater --- Amerikayi Miatsʻyal Nahangner --- Ameriketako Estatu Batuak --- Amirika Carékat --- AQSh --- Ar. ha-B. --- Arhab --- Artsot ha-Berit --- Artzois Ha'bris --- Bí-kok --- Ē.P.A. --- EE.UU. --- Egyesült Államok --- ĒPA --- Estados Unidos --- Estados Unidos da América do Norte --- Estados Unidos de América --- Estaos Xuníos --- Estaos Xuníos d'América --- Estatos Unitos --- Estatos Unitos d'America --- Estats Units d'Amèrica --- Ètats-Unis d'Amèrica --- États-Unis d'Amérique --- Fareyniḳṭe Shṭaṭn --- Feriene Steaten --- Feriene Steaten fan Amearika --- Forente stater --- FS --- Hēnomenai Politeiai Amerikēs --- Hēnōmenes Politeies tēs Amerikēs --- Hiwsisayin Amerikayi Miatsʻeal Tērutʻiwnkʻ --- Istadus Unidus --- Jungtinės Amerikos valstybės --- Mei guo --- Mei-kuo --- Meiguo --- Mî-koet --- Miatsʻyal Nahangner --- Miguk --- Na Stàitean Aonaichte --- NSA --- S.U.A. --- SAD --- Saharat ʻAmērikā --- SASht --- Severo-Amerikanskie Shtaty --- Severo-Amerikanskie Soedinennye Shtaty --- Si︠e︡vero-Amerikanskīe Soedinennye Shtaty --- Sjedinjene Američke Države --- Soedinennye Shtaty Ameriki --- Soedinennye Shtaty Severnoĭ Ameriki --- Soedinennye Shtaty Si︠e︡vernoĭ Ameriki --- Spojené staty americké --- SShA --- Stadoù-Unanet Amerika --- Stáit Aontaithe Mheiriceá --- Stany Zjednoczone --- Stati Uniti --- Stati Uniti d'America --- Stâts Unîts --- Stâts Unîts di Americhe --- Steatyn Unnaneysit --- Steatyn Unnaneysit America --- SUA --- Sŭedineni amerikanski shtati --- Sŭedinenite shtati --- Tetã peteĩ reko Amérikagua --- U.S. --- U.S.A. --- United States of America --- Unol Daleithiau --- Unol Daleithiau America --- Unuiĝintaj Ŝtatoj de Ameriko --- US --- USA --- Usono --- Vaeinigte Staatn --- Vaeinigte Staatn vo Amerika --- Vereinigte Staaten --- Vereinigte Staaten von Amerika --- Verenigde State van Amerika --- Verenigde Staten --- VS --- VSA --- Wááshindoon Bikéyah Ałhidadiidzooígíí --- Wilāyāt al-Muttaḥidah --- Wilāyāt al-Muttaḥidah al-Amirīkīyah --- Wilāyāt al-Muttaḥidah al-Amrīkīyah --- Yhdysvallat --- Yunaeted Stet --- Yunaeted Stet blong Amerika --- ZDA --- Združene države Amerike --- Zʹi︠e︡dnani Derz︠h︡avy Ameryky --- Zjadnośone staty Ameriki --- Zluchanyi︠a︡ Shtaty Ameryki --- Zlucheni Derz︠h︡avy --- ZSA --- People with disabilities --- Moulage in medicine --- Surgery, Plastic --- Artificial organs --- Biomedical materials --- Disabled Persons --- Ethics, Research --- Recovery of Function --- Return to Work --- Sports for Persons with Disabilities --- Prosthesis Retention --- AB --- America (Republic) --- Amerika (Republic) --- Amerikanʹ Veĭtʹsėndi͡avks Shtattn --- Saharat ʻAmērik --- Si͡evero-Amerikanskīe Soedinennye Shtaty --- Soedinennye Shtaty Si͡evernoĭ Ameriki --- Spojené staty americk --- Stáit Aontaithe Mheirice --- Wááshindoon Bikéyah Ałhidadiidzooígí --- Zʹi͡ednani Derz͡havy Ameryky --- Zluchanyi͡a Shtaty Ameryki --- Zlucheni Derz͡havy --- Endoprostheses --- Endoprosthesis --- Prosthetic Implants --- Implant, Prosthetic --- Implants, Prosthetic --- Prosthetic Implant --- Spojené obce severoamerick --- Engineering - General --- Amerikanʹ Veĭtʹsėndi͡avks Shtattnė --- É.-U. --- ÉU --- Spojené obce severoamerické --- Revalidatie. --- Health Sciences --- Social Sciences --- Surgery --- General and Others
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