Export 39 results:
"Gellan Gum Hydroxyapatite Composite Hydrogels for Bone Tissue Engineering",
J Biomed Mater Res A, vol. 106, issue 2, pp. 479–490, doi:10.1002/jbm.a.36248, 2018.
"Gellan Gum Hydrogels with Enzyme-Sensitive Biodegradation and Endothelial Cell Biorecognition Sites",
Advanced Healthcare Materials, doi:10.1002/adhm.201700686, 2018.
"Synthesis and Characterization of Electroactive Gellan Gum Spongy-Like Hydrogels for Skeletal Muscle Tissue Engineering Applications.",
Tissue Engineering : Part A, pp. 1-12, doi:0.1089/ten.tea.2016.0430, 2017.
"Eumelanin-releasing spongy-like hydrogels for skin re-epithelialization purposes.",
Biomedical Materials, vol. 12, issue 2, doi:10.1088/1748-605X/aa5f79, 2017.
"Stem Cell-Containing Hyaluronic Acid-Based Spongy Hydrogels for Integrated Diabetic Wound Healing",
Journal Of Investigative Dermatology, vol. 137, pp. 1541-1551, doi:10.1016/j.jid.2017.02.976, 2017.
"Neovascularization Induced by the Hyaluronic Acid-Based Spongy-Like Hydrogels Degradation Products",
ACS Applied Materials and Interfaces, doi:10.1021/acsami.6b11684, 2016.
"Epidermis recreation in spongy-like hydrogels: New opportunities to explore epidermis-like analogues",
Materials Today, vol. 18, issue 8, pp. 468–469, doi:10.1016/j.mattod.2015.08.018, 2015.
"Gellan Gum-Hyaluronic Acid Spongy-like hydrogels and cells from adipose tissue synergize promoting neoskin vascularization",
ACS Applied Materials & Interfaces, doi:10.1021/am504520j, 2014.
"Nanoparticulate bioactive-glass-reinforced gellan-gum hydrogels for bone-tissue engineering",
Materials Science and Engineering C, vol. 43, pp. 27-36, doi:10.1016/j.msec.2014.06.045, 2014.
"Engineering cell-adhesive gellan gum spongy-like hydrogels for Regenerative Medicine purposes",
Acta Biomaterialia, 11, vol. 10, pp. 4787-97, doi:10.1016/j.actbio.2014.07.009, 2014.
"Human Skin Cell Fractions Fail to Self-Organize Within a Gellan Gum/Hyaluronic Acid Matrix but Positively Influence Early Wound Healing",
Tissue Engineering, Part A, pp. 1369-1378, doi:doi:10.1089/ten.tea.2013.0460., 2014.
"Neurotensin downregulates the pro-inflammatory properties of skin dendritic cells and increases epidermal growth factor expression",
Biochimica et Biophysica Acta, vol. 1813, issue 10, pp. 1863-71, 2011.
"Engineered hydrogel-based matrices for skin wound healing",
Wound Healing Biomaterials, Eds. Ågren M. S., Elsevier, 1st, vol. 2, doi:10.1016/B978-1-78242-456-7.00011-8, 2016.
"Role of neuropeptides in skin inflammation and its involvement in diabetic wound healing",
Expert opinion on biological therapy, vol. 10, issue 10, pp. 1427-39, 2010.
"Gellan Gum Spongy-like Hydrogels Reinforced with Hydroxyapatite for Bone Tissue Engineering Applications",
2017 TERMIS - Americas, vol. 23, issue S1, doi:0.1089/ten.tea.2017.29003.abstracts, 2017.
"Natural melanin promotes the differentiation of an early epidermal cell fraction and the scavenging of ROS.",
Journal of Investigative Dermatology, vol. 136, issue 5, doi:10.1016/j.jid.2016.02.382, 2016.
"Hind limb ischemia in type 1 diabetic mice as useful tool to evaluate the neovascularization of tissue engineering constructs",
Laboratory Animals, vol. 49, issue S3, pp. 41-42, doi:10.1177/0023677215609551, 2015.
"Gellan Gum-Hyaluronate Spongy-like Hydrogels Promote Angiogenesis in Hindlimb Ischemia.",
2015 4th TERMIS World Congress , doi:10.1089/ten.tea.2015.5000.abstracts, 2015.
"Novel Gellan Gum – Hyaluronan hydrogel formulations for tissue engineering applications",
Journal of Artificial Organs, vol. 35, issue 9, pp. A49–A141, 2012.
"Multiparametric screening of marine-origin biomaterials for bone Tissue Engineering",
TermStem 2017, 2017.
"A diabetic hind-limb mouse model to predict the angiogenic potential of biomaterials",
Chem2Nature Conference, 2016.
"Gellan gum-based hydrogels as a suitable platform to recreate the hair follicle 3D compartments",
Chem2Nature Conference, 2016.
"Gellan gum-based hydrogels for the recreation of hair follicle microenvironments. ",
The Gene2skin conference, 2016.
"Gellan gum-based spongy-like hydrogels depict improved cellular performance.",
Society of Biomaterials Annual Meeting and Exposition, 2013.
"Engineering cell-adhesive gellan gum spongy-like hydrogels.",
TERMIS - Annual Conference and Exposition, 2013.
"Pre-vascularized gellan gum-hyaluronic acid spongy-like hydrogels improve skin wound healing.",
Society of Biomaterials Annual Meeting and Exposition, 2013.
"Novel Gellan Gum – Hyaluronan hydrogel formulations for tissue engineering applications.",
XXXVIII Congress of the European Society for Artificial Organs (ESAO 2011) and
IV Biennial Congress of the International Federation on Artificial Organs (IFAO 2011), 2011.
"Hyaluronidase‐mediated degradation products of hyaluronic acid‐based spongylike hydrogels promote neovascularization",
Chem2Nature Conference, 2016.
"Stem cell-laden hyaluronic acid spongy-like hydrogels balance inflammation and promote neoinnervation of diabetic wounds",
The Gene2Skin Conference, 2016.
"Hind limb ischemia in type 1 diabetic mice as useful tool to evaluate the neovascularization of tissue engineering constructs.",
Congresso Iberico de Ciência em Animais de Laboratório, 2015.
"Gellan gum spongy-like hydrogels containing melanin microparticles for optoelectronics",
5th International NanoMedicine Conference Sydney’s Coogee Beach, Sydney, Australia, 2014.
"Sponge-like hydrogel of gellan gum copolypyrrole for tissue engineering applications.",
5th International NanoMedicine Conference Sydney’s Coogee Beach, 2014.
"Functionalized Gellan Gum Hydrogels Potentiate Endothelial Cell Performance",
2014 MRS Spring Meeting and Exhibit, 2014.
"Functionalized Gellan Gum Hydrogels Potentiate Endothelial Cell Performance",
2014 SFB Annual Meeting & Exposition, 2014.
"Human embryonic stem cell-derivatives in a hydrogel-based skin model.",
3rd TERMIS World Congress, 2012.
