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Leader
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00000nz a2200037n 45 0 |
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001
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WKP|Q51092668
(VIAF cluster)
(Authority/Source Record)
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20241221010723.0 |
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241221nneanz||abbn n and d |
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035
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(WKP)Q51092668
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024
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0000-0002-1368-3571
‡2
orcid
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024
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24721231300
‡2
scopus
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035
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(OCoLC)Q51092668
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046
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19840000
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100
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0 |
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‡a
Carmelo De Maria
‡c
researcher
‡9
en
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375
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‡a
1
‡2
iso5218
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400
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0 |
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Carmelo De Maria
‡c
onderzoeker
‡9
nl
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400
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Carmelo De Maria
‡c
ricercatore
‡9
it
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670
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‡a
Author's 3D Printing Silk-Based Bioresorbable Piezoelectric Self-Adhesive Holey Structures for <i>In Vivo</i> Monitoring on Soft Tissues
|
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670
|
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‡a
Author's 3D screening device for the evaluation of cell response to different electrospun microtopographies.
|
|
670
|
|
|
‡a
Author's A new 3D concentration gradient maker and its application in building hydrogels with a 3D stiffness gradient
|
|
670
|
|
|
‡a
Author's A new approach to fabricate agarose microstructures
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|
670
|
|
|
‡a
Author's A new library of HEMET model: Insulin effects on hepatic metabolism.
|
|
670
|
|
|
‡a
Author's A new path to platelet production through matrix sensing.
|
|
670
|
|
|
‡a
Author's A novel vascular bioreactor for remodelling and testing mechanical properties of blood vessels
|
|
670
|
|
|
‡a
Author's ADMET: ADipocyte METabolism mathematical model
|
|
670
|
|
|
‡a
Author's An autologously generated platelet-rich plasma suturable membrane may enhance peripheral nerve regeneration after neurorraphy in an acute injury model of sciatic nerve neurotmesis.
|
|
670
|
|
|
‡a
Author's An interfacial self-assembling bioink for the manufacturing of capillary-like structures with tuneable and anisotropic permeability
|
|
670
|
|
|
‡a
Author's Biofabrication: A Guide to Technology and Terminology.
|
|
670
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‡a
Author's Biomechanical, Topological and Chemical Features That Influence the Implant Success of an Urogynecological Mesh: A Review
|
|
670
|
|
|
‡a
Author's Bone scaffolds with homogeneous and discrete gradient mechanical properties
|
|
670
|
|
|
‡a
Author's Carbon Nanotubes/Regenerated Silk Composite as a Three-Dimensional Printable Bio-Adhesive Ink with Self-Powering Properties
|
|
670
|
|
|
‡a
Author's Design and Validation of an Open-Hardware Print-Head for Bioprinting Application
|
|
670
|
|
|
‡a
Author's Design, fabrication and perivascular implantation of bioactive scaffolds engineered with human adventitial progenitor cells for stimulation of arteriogenesis in peripheral ischemia.
|
|
670
|
|
|
‡a
Author's EFFECTS OF A MODIFIED VITRECTOMY PROBE IN SMALL-GAUGE VITRECTOMY: An Experimental Study on the Flow and on the Traction Exerted on the Retina.
|
|
670
|
|
|
‡a
Author's Electrospun Structures Made of a Hydrolyzed Keratin-Based Biomaterial for Development of in vitro Tissue Models
|
|
670
|
|
|
‡a
Author's Endothelial cells support osteogenesis in an in vitro vascularized bone model developed by 3D bioprinting
|
|
670
|
|
|
‡a
Author's Gelatin-genipin-based biomaterials for skeletal muscle tissue engineering.
|
|
670
|
|
|
‡a
Author's Genipin diffusion and reaction into a gelatin matrix for tissue engineering applications
|
|
670
|
|
|
‡a
Author's HEMET: mathematical model of biochemical pathways for simulation and prediction of HEpatocyte METabolism.
|
|
670
|
|
|
‡a
Author's HEMETβ: improvement of hepatocyte metabolism mathematical model
|
|
670
|
|
|
‡a
Author's In silico models for dynamic connected cell cultures mimicking hepatocyte-endothelial cell-adipocyte interaction circle
|
|
670
|
|
|
‡a
Author's In vitrodevelopment of engineered muscle using a scaffold based on the pressure-activated microsyringe
|
|
670
|
|
|
‡a
Author's In vitrodevelopment of engineered muscle using a scaffold based on the pressure-activated microsyringe (PAM) technique
|
|
670
|
|
|
‡a
Author's In vivo assessment of printed microvasculature in a bilayer skin graft to treat full-thickness wounds
|
|
670
|
|
|
‡a
Author's Indirect Rapid Prototyping for Tissue Engineering
|
|
670
|
|
|
‡a
Author's Magnetic-Driven Pointing System: A Feasibility Study
|
|
670
|
|
|
‡a
Author's Material and structural tensile properties of the human medial patello-femoral ligament.
|
|
670
|
|
|
‡a
Author's Microfabrication of Capillary System Using a Perfusion Cell Chamber
|
|
670
|
|
|
‡a
Author's New eye phantom for ophthalmic surgery
|
|
670
|
|
|
‡a
Author's Open Biomedical Engineering education in Africa.
|
|
670
|
|
|
‡a
Author's Open-source CAD-CAM simulator of the extrusion-based bioprinting process
|
|
670
|
|
|
‡a
Author's Pressure-activated microsyringe
|
|
670
|
|
|
‡a
Author's Pressure-activated microsyringe (PAM) fabrication of bioactive glass-poly(lactic-co-glycolic acid) composite scaffolds for bone tissue regeneration
|
|
670
|
|
|
‡a
Author's Quasi-linear viscoelastic properties of the human medial patello-femoral ligament.
|
|
670
|
|
|
‡a
Author's Realisation and characterization of conductive hollow fibers for neuronal tissue engineering
|
|
670
|
|
|
‡a
Author's Reconstruction of medial patello-femoral ligament: Comparison of two surgical techniques.
|
|
670
|
|
|
‡a
Author's Smart Sensing Scaffolds
|
|
670
|
|
|
‡a
Author's Soft-molecular imprinted electrospun scaffolds to mimic specific biological tissues
|
|
670
|
|
|
‡a
Author's Squeeze Pressure Bioreactor: A Hydrodynamic Bioreactor for Noncontact Stimulation of Cartilage Constructs
|
|
670
|
|
|
‡a
Author's Status and solutions to medical device regulations for improving the healthcare landscape in Africa.
|
|
670
|
|
|
‡a
Author's Substrate stiffness influences high resolution printing of living cells with an ink-jet system
|
|
670
|
|
|
‡a
Author's The control of stem cell morphology and differentiation using three-dimensional printed scaffold architecture.
|
|
670
|
|
|
‡a
Author's The influence of mesh topology in the abdominal wall repair process.
|
|
670
|
|
|
‡a
Author's The PAM2 system: a multilevel approach for fabrication of complex three‐dimensional microstructures
|
|
670
|
|
|
‡a
Author's Triphasic scaffolds for the regeneration of the bone-ligament interface.
|
|
670
|
|
|
‡a
Author's Ultrasonic mixing chamber as an effective tool for the biofabrication of fully graded scaffolds for interface tissue engineering
|
|
670
|
|
|
‡a
wikidata authority control
‡u
https://viaf.org/viaf/307346828
|
|
670
|
|
|
‡a
wikidata authority control
‡u
https://viaf.org/processed/ICCU|858
|
|
909
|
|
|
‡a
(orcid) 0000000213683571
‡9
1
|
|
909
|
|
|
‡a
(scopus) 24721231300
‡9
1
|
|
919
|
|
|
‡a
magneticdrivenpointingsystemafeasibilitystudy
‡A
Magnetic-Driven Pointing System: A Feasibility Study
‡9
1
|
|
919
|
|
|
‡a
materialandstructuraltensilepropertiesofthehumanmedialpatellofemoralligament
‡A
Material and structural tensile properties of the human medial patello-femoral ligament.
‡9
1
|
|
919
|
|
|
‡a
microfabricationofcapillarysystemusingaperfusioncellchamber
‡A
Microfabrication of Capillary System Using a Perfusion Cell Chamber
‡9
1
|
|
919
|
|
|
‡a
neweyephantomforophthalmicsurgery
‡A
New eye phantom for ophthalmic surgery
‡9
1
|
|
919
|
|
|
‡a
openbiomedicalengineeringeducationinafrica
‡A
Open Biomedical Engineering education in Africa.
‡9
1
|
|
919
|
|
|
‡a
opensourcecadcamsimulatoroftheextrusionbasedbioprintingprocess
‡A
Open-source CAD-CAM simulator of the extrusion-based bioprinting process
‡9
1
|
|
919
|
|
|
‡a
pressureactivatedmicrosyringe
‡A
Pressure-activated microsyringe
‡9
1
|
|
919
|
|
|
‡a
pressureactivatedmicrosyringepamfabricationofbioactiveglasspolylacticcoglycolicacidcompositescaffoldsforbonetissueregeneration
‡A
Pressure-activated microsyringe (PAM) fabrication of bioactive glass-poly(lactic-co-glycolic acid) composite scaffolds for bone tissue regeneration
‡9
1
|
|
919
|
|
|
‡a
quasilinearviscoelasticpropertiesofthehumanmedialpatellofemoralligament
‡A
Quasi-linear viscoelastic properties of the human medial patello-femoral ligament.
‡9
1
|
|
919
|
|
|
‡a
realisationandcharacterizationofconductivehollowfibersforneuronaltissueengineering
‡A
Realisation and characterization of conductive hollow fibers for neuronal tissue engineering
‡9
1
|
|
919
|
|
|
‡a
reconstructionofmedialpatellofemoralligamentcomparisonof2surgicaltechniques
‡A
Reconstruction of medial patello-femoral ligament: Comparison of two surgical techniques.
‡9
1
|
|
919
|
|
|
‡a
smartsensingscaffolds
‡A
Smart Sensing Scaffolds
‡9
1
|
|
919
|
|
|
‡a
ultrasonicmixingchamberasaneffectivetoolforthebiofabricationoffullygradedscaffoldsforinterfacetissueengineering
‡A
Ultrasonic mixing chamber as an effective tool for the biofabrication of fully graded scaffolds for interface tissue engineering
‡9
1
|
|
919
|
|
|
‡a
triphasicscaffoldsfortheregenerationoftheboneligamentinterface
‡A
Triphasic scaffolds for the regeneration of the bone-ligament interface.
‡9
1
|
|
919
|
|
|
‡a
pam2systemamultilevelapproachforfabricationofcomplex3dimensionalmicrostructures
‡A
The PAM2 system: a multilevel approach for fabrication of complex three‐dimensional microstructures
‡9
1
|
|
919
|
|
|
‡a
influenceofmeshtopologyintheabdominalwallrepairprocess
‡A
The influence of mesh topology in the abdominal wall repair process.
‡9
1
|
|
919
|
|
|
‡a
controlofstemcellmorphologyanddifferentiationusing3dimensionalprintedscaffoldarchitecture
‡A
The control of stem cell morphology and differentiation using three-dimensional printed scaffold architecture.
‡9
1
|
|
919
|
|
|
‡a
substratestiffnessinfluenceshighresolutionprintingoflivingcellswithaninkjetsystem
‡A
Substrate stiffness influences high resolution printing of living cells with an ink-jet system
‡9
1
|
|
919
|
|
|
‡a
statusandsolutionstomedicaldeviceregulationsforimprovingthehealthcarelandscapeinafrica
‡A
Status and solutions to medical device regulations for improving the healthcare landscape in Africa.
‡9
1
|
|
919
|
|
|
‡a
3dprintingsilkbasedbioresorbablepiezoelectricselfadhesiveholeystructuresfor1invivo1monitoringonsofttissues
‡A
3D Printing Silk-Based Bioresorbable Piezoelectric Self-Adhesive Holey Structures for <i>In Vivo</i> Monitoring on Soft Tissues
‡9
1
|
|
919
|
|
|
‡a
squeezepressurebioreactorahydrodynamicbioreactorfornoncontactstimulationofcartilageconstructs
‡A
Squeeze Pressure Bioreactor: A Hydrodynamic Bioreactor for Noncontact Stimulation of Cartilage Constructs
‡9
1
|
|
919
|
|
|
‡a
3dscreeningdevicefortheevaluationofcellresponsetodifferentelectrospunmicrotopographies
‡A
3D screening device for the evaluation of cell response to different electrospun microtopographies.
‡9
1
|
|
919
|
|
|
‡a
softmolecularimprintedelectrospunscaffoldstomimicspecificbiologicaltissues
‡A
Soft-molecular imprinted electrospun scaffolds to mimic specific biological tissues
‡9
1
|
|
919
|
|
|
‡a
new3dconcentrationgradientmakeranditsapplicationinbuildinghydrogelswitha3dstiffnessgradient
‡A
A new 3D concentration gradient maker and its application in building hydrogels with a 3D stiffness gradient
‡9
1
|
|
919
|
|
|
‡a
newapproachtofabricateagarosemicrostructures
‡A
A new approach to fabricate agarose microstructures
‡9
1
|
|
919
|
|
|
‡a
newlibraryofhemetmodelinsulineffectsonhepaticmetabolism
‡A
A new library of HEMET model: Insulin effects on hepatic metabolism.
‡9
1
|
|
919
|
|
|
‡a
newpathtoplateletproductionthroughmatrixsensing
‡A
A new path to platelet production through matrix sensing.
‡9
1
|
|
919
|
|
|
‡a
novelvascularbioreactorforremodellingandtestingmechanicalpropertiesofbloodvessels
‡A
A novel vascular bioreactor for remodelling and testing mechanical properties of blood vessels
‡9
1
|
|
919
|
|
|
‡a
admetadipocytemetabolismmathematicalmodel
‡A
ADMET: ADipocyte METabolism mathematical model
‡9
1
|
|
919
|
|
|
‡a
autologouslygeneratedplateletrichplasmasuturablemembranemayenhanceperipheralnerveregenerationafterneurorraphyinanacuteinjurymodelofsciaticnerveneurotmesis
‡A
An autologously generated platelet-rich plasma suturable membrane may enhance peripheral nerve regeneration after neurorraphy in an acute injury model of sciatic nerve neurotmesis.
‡9
1
|
|
919
|
|
|
‡a
interfacialselfassemblingbioinkforthemanufacturingofcapillarylikestructureswithtuneableandanisotropicpermeability
‡A
An interfacial self-assembling bioink for the manufacturing of capillary-like structures with tuneable and anisotropic permeability
‡9
1
|
|
919
|
|
|
‡a
biofabricationaguidetotechnologyandterminology
‡A
Biofabrication: A Guide to Technology and Terminology.
‡9
1
|
|
919
|
|
|
‡a
biomechanicaltopologicalandchemicalfeaturesthatinfluencetheimplantsuccessofanurogynecologicalmeshareview
‡A
Biomechanical, Topological and Chemical Features That Influence the Implant Success of an Urogynecological Mesh: A Review
‡9
1
|
|
919
|
|
|
‡a
bonescaffoldswithhomogeneousanddiscretegradientmechanicalproperties
‡A
Bone scaffolds with homogeneous and discrete gradient mechanical properties
‡9
1
|
|
919
|
|
|
‡a
carbonnanotubesregeneratedsilkcompositeasa3dimensionalprintablebioadhesiveinkwithselfpoweringproperties
‡A
Carbon Nanotubes/Regenerated Silk Composite as a Three-Dimensional Printable Bio-Adhesive Ink with Self-Powering Properties
‡9
1
|
|
919
|
|
|
‡a
designandvalidationofanopenhardwareprintheadforbioprintingapplication
‡A
Design and Validation of an Open-Hardware Print-Head for Bioprinting Application
‡9
1
|
|
919
|
|
|
‡a
designfabricationandperivascularimplantationofbioactivescaffoldsengineeredwithhumanadventitialprogenitorcellsforstimulationofarteriogenesisinperipheralischemia
‡A
Design, fabrication and perivascular implantation of bioactive scaffolds engineered with human adventitial progenitor cells for stimulation of arteriogenesis in peripheral ischemia.
‡9
1
|
|
919
|
|
|
‡a
effectsofamodifiedvitrectomyprobeinsmallgaugevitrectomyanexperimentalstudyontheflowandonthetractionexertedontheretina
‡A
EFFECTS OF A MODIFIED VITRECTOMY PROBE IN SMALL-GAUGE VITRECTOMY: An Experimental Study on the Flow and on the Traction Exerted on the Retina.
‡9
1
|
|
919
|
|
|
‡a
electrospunstructuresmadeofahydrolyzedkeratinbasedbiomaterialfordevelopmentofinvitrotissuemodels
‡A
Electrospun Structures Made of a Hydrolyzed Keratin-Based Biomaterial for Development of in vitro Tissue Models
‡9
1
|
|
919
|
|
|
‡a
endothelialcellssupportosteogenesisinaninvitrovascularizedbonemodeldevelopedby3dbioprinting
‡A
Endothelial cells support osteogenesis in an in vitro vascularized bone model developed by 3D bioprinting
‡9
1
|
|
919
|
|
|
‡a
gelatingenipinbasedbiomaterialsforskeletalmuscletissueengineering
‡A
Gelatin-genipin-based biomaterials for skeletal muscle tissue engineering.
‡9
1
|
|
919
|
|
|
‡a
genipindiffusionandreactionintoagelatinmatrixfortissueengineeringapplications
‡A
Genipin diffusion and reaction into a gelatin matrix for tissue engineering applications
‡9
1
|
|
919
|
|
|
‡a
hemetmathematicalmodelofbiochemicalpathwaysforsimulationandpredictionofhepatocytemetabolism
‡A
HEMET: mathematical model of biochemical pathways for simulation and prediction of HEpatocyte METabolism.
‡9
1
|
|
919
|
|
|
‡a
hemetβimprovementofhepatocytemetabolismmathematicalmodel
‡A
HEMETβ: improvement of hepatocyte metabolism mathematical model
‡9
1
|
|
919
|
|
|
‡a
insilicomodelsfordynamicconnectedcellculturesmimickinghepatocyteendothelialcelladipocyteinteractioncircle
‡A
In silico models for dynamic connected cell cultures mimicking hepatocyte-endothelial cell-adipocyte interaction circle
‡9
1
|
|
919
|
|
|
‡a
invitrodevelopmentofengineeredmuscleusingascaffoldbasedonthepressureactivatedmicrosyringe
‡A
In vitrodevelopment of engineered muscle using a scaffold based on the pressure-activated microsyringe
‡9
1
|
|
919
|
|
|
‡a
invitrodevelopmentofengineeredmuscleusingascaffoldbasedonthepressureactivatedmicrosyringepamtechnique
‡A
In vitrodevelopment of engineered muscle using a scaffold based on the pressure-activated microsyringe (PAM) technique
‡9
1
|
|
919
|
|
|
‡a
invivoassessmentofprintedmicrovasculatureinabilayerskingrafttotreatfullthicknesswounds
‡A
In vivo assessment of printed microvasculature in a bilayer skin graft to treat full-thickness wounds
‡9
1
|
|
919
|
|
|
‡a
indirectrapidprototypingfortissueengineering
‡A
Indirect Rapid Prototyping for Tissue Engineering
‡9
1
|
|
946
|
|
|
‡a
b
‡9
1
|
|
996
|
|
|
‡2
PTBNP|1324853
|
|
996
|
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‡2
LC|n 83032134
|
|
996
|
|
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‡2
ICCU|CFIV280858
|
|
996
|
|
|
‡2
NUKAT|n 2004034464
|
|
996
|
|
|
‡2
NTA|073585491
|
|
996
|
|
|
‡2
SUDOC|028351401
|
|
996
|
|
|
‡2
NSK|000461446
|
|
996
|
|
|
‡2
CAOONL|ncf11187497
|
|
996
|
|
|
‡2
BNC|981058516734306706
|
|
996
|
|
|
‡2
NII|DA05237572
|
|
996
|
|
|
‡2
DNB|1057536903
|
|
996
|
|
|
‡2
LC|n 2023181953
|
|
996
|
|
|
‡2
J9U|987007267411905171
|
|
996
|
|
|
‡2
RERO|A000142777
|
|
996
|
|
|
‡2
J9U|987012501517205171
|
|
997
|
|
|
‡a
1984 0 lived 0000 0
‡9
1
|
|
998
|
|
|
‡a
De Maria
‡b
, Carmelo
‡2
ICCU|CFIV280858
‡3
viafid
|
|
998
|
|
|
‡a
De Maria, Carmelo
‡2
LC|n 2023181953
‡3
viafid
|
|
998
|
|
|
‡a
De Maria, Carmelo
‡2
J9U|987012501517205171
‡3
suggested
‡3
viafid
|
