000			01903 a2200541 4500
005			20250518053325.0
264		0	_c20200501
008			202005s 0 0 eng d
022			_a1748-605X
024	7		_a10.1088/1748-605X/ab38c6 _2doi
040			_aNLM _beng _cNLM
100	1		_aValainis, Dvina
245	0	0	_aIntegrated additive design and manufacturing approach for the bioengineering of bone scaffolds for favorable mechanical and biological properties. _h[electronic resource]
260			_bBiomedical materials (Bristol, England) _c09 2019
300			_a065002 p. _bdigital
500			_aPublication Type: Journal Article; Research Support, Non-U.S. Gov't
650	0	4	_aAdipocytes _xcytology
650	0	4	_aBioengineering _xinstrumentation
650	0	4	_aBone and Bones _xchemistry
650	0	4	_aCalcium Phosphates _xchemistry
650	0	4	_aCell Movement
650	0	4	_aCompressive Strength
650	0	4	_aComputer Simulation
650	0	4	_aComputer-Aided Design
650	0	4	_aFinite Element Analysis
650	0	4	_aHumans
650	0	4	_aMaterials Testing
650	0	4	_aMesenchymal Stem Cells _xcytology
650	0	4	_aPolyesters _xchemistry
650	0	4	_aPolymers _xchemistry
650	0	4	_aPorosity
650	0	4	_aPrinting, Three-Dimensional
650	0	4	_aRegeneration
650	0	4	_aStress, Mechanical
650	0	4	_aSurface Properties
650	0	4	_aTissue Engineering _xmethods
650	0	4	_aTissue Scaffolds _xchemistry
650	0	4	_aX-Ray Microtomography
700	1		_aDondl, Patrick
700	1		_aFoehr, Peter
700	1		_aBurgkart, Rainer
700	1		_aKalkhof, Stefan
700	1		_aDuda, Georg N
700	1		_avan Griensven, Martijn
700	1		_aPoh, Patrina S P
773	0		_tBiomedical materials (Bristol, England) _gvol. 14 _gno. 6 _gp. 065002
856	4	0	_uhttps://doi.org/10.1088/1748-605X/ab38c6 _zAvailable from publisher's website
999			_c29980468 _d29980468