PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
23808658-5	2013	With the CYD-PEI/pDNA-VEGF165 polyplexes incorporated gelatin/beta-TCP scaffold based 3D transfection system, prolonged VEGF expression with a higher level was obtained at day 7 in ESCs than those in two-dimensional plates.	beta-tricalcium phosphate	62-70	vascular endothelial growth factor A	Homo sapiens	22-26	
25017094-7	2014	VEGF and BMP2 were significantly upregulated in the macrophages exposed to Mg-beta-TCP scaffolds, indicating pro-osteogenic properties of macrophages in beta-TCP modified Mg scaffolds.	beta-tricalcium phosphate	78-86	vascular endothelial growth factor A	Homo sapiens	0-4	
23894078-9	2014	Interestingly, the secretion of vascular endothelial growth factor and the viability of HUVECs were shown to be enhanced in the presence of extracts from the beta-CS/beta-TCP composite scaffolds.	beta-tricalcium phosphate	166-174	vascular endothelial growth factor A	Homo sapiens	32-66	
20725979-9	2010	When loaded with BMP2 and VEGF and implanted in the quadriceps muscle, PLA/beta-TCP scaffolds did not induce ectopic mineralization but induced a significant 1.8-fold increase in neo vessel formation.	beta-tricalcium phosphate	75-83	vascular endothelial growth factor A	Homo sapiens	26-30	
22154864-3	2012	In the current study beta-TCP granules were mineral coated with the aim of influencing the dissolution rate of beta-TCP, and also to use the coating as a carrier for controlled release of the growth factors recombinant human vascular endothelial growth factor (rhVEGF), modular VEGF peptide (mVEGF), and modular bone morphogenetic protein 2 peptide (mBMP2).	beta-tricalcium phosphate	21-29	vascular endothelial growth factor A	Homo sapiens	225-259	
28882369-2	2017	The aim of our study is to fabricate a vascular endothelial growth factor (VEGF)-loaded gelatin/alginate/beta-TCP composite scaffold by 3D printing method using a computer-assisted design (CAD) model.	beta-tricalcium phosphate	105-113	vascular endothelial growth factor A	Homo sapiens	39-73	
32064734-3	2020	The results showed that BCP and beta-TCP could support macrophages attachment, proliferation and spreading favorably, as well as promote gene expressions of inflammatory related cytokines (IL-1, IL-6, MCP-1 and TNF-alpha) and growth factors (TGF-beta, FGF, PDGF, VEGF, IGF and EGF).	beta-tricalcium phosphate	32-40	vascular endothelial growth factor A	Homo sapiens	263-267	
28882369-2	2017	The aim of our study is to fabricate a vascular endothelial growth factor (VEGF)-loaded gelatin/alginate/beta-TCP composite scaffold by 3D printing method using a computer-assisted design (CAD) model.	beta-tricalcium phosphate	105-113	vascular endothelial growth factor A	Homo sapiens	75-79	
28882369-3	2017	METHODS: The paste, composed of (VEGF-loaded PLGA)-containing gelatin/alginate/beta-TCP in water, was loaded into standard Nordson cartridges and promptly employed for printing the scaffolds.	beta-tricalcium phosphate	79-87	vascular endothelial growth factor A	Homo sapiens	33-37	
28882369-10	2017	SIGNIFICANCE: The 3D printed gelatin/alginate/beta-TCP scaffold with slow releasing of VEGF can be considered as a potential candidate for regeneration of craniofacial defects.	beta-tricalcium phosphate	46-54	vascular endothelial growth factor A	Homo sapiens	87-91