Nome |
# |
Additive manufacturing techniques for the production of tissue engineering constructs, file e0d6c92c-ff18-fcf8-e053-d805fe0aa794
|
534
|
Design, fabrication and characterization of composite piezoelectric ultrafine fibers for cochlear stimulation, file e0d6c932-32d4-fcf8-e053-d805fe0aa794
|
413
|
Additive manufacturing of star poly(ε-caprolactone) wet-spun scaffolds for bone tissue engineering applications, file e0d6c92d-00d0-fcf8-e053-d805fe0aa794
|
326
|
Ulvan as novel reducing and stabilizing agent from renewable algal biomass: Application to green synthesis of silver nanoparticles, file e0d6c930-f636-fcf8-e053-d805fe0aa794
|
318
|
Fibrous star poly(ε-caprolactone) melt-electrospun scaffolds for wound healing applications, file e0d6c92d-00da-fcf8-e053-d805fe0aa794
|
316
|
Design, preparation and characterization of ulvan based thermosensitive hydrogels, file e0d6c92c-d525-fcf8-e053-d805fe0aa794
|
264
|
Integrated three-dimensional fiber/hydrogel biphasic scaffolds for periodontal bone tissue engineering, file e0d6c92c-ddf4-fcf8-e053-d805fe0aa794
|
217
|
null, file e0d6c928-f561-fcf8-e053-d805fe0aa794
|
215
|
Additive manufacturing of poly[(R)-3-hydroxybutyrate-co-(R)-3-hydroxyhexanoate] scaffolds for engineered bone development, file e0d6c931-1cf7-fcf8-e053-d805fe0aa794
|
208
|
Design and fabrication of novel polymeric biodegradable stents for small caliber blood vessels by computer-aided wet-spinning, file e0d6c931-0d1d-fcf8-e053-d805fe0aa794
|
203
|
Enzymatically Crosslinked Ulvan Hydrogels as Injectable Systems for Cell Delivery, file e0d6c931-26f6-fcf8-e053-d805fe0aa794
|
188
|
Microstructured chitosan/poly(γ-glutamic acid) polyelectrolyte complex hydrogels by computer-aided wet-spinning for biomedical three-dimensional scaffolds, file e0d6c930-e08f-fcf8-e053-d805fe0aa794
|
159
|
null, file e0d6c929-3427-fcf8-e053-d805fe0aa794
|
146
|
A novel Electrospinning Procedure for the Production of Straight Aligned and Winded Fibers, file e0d6c929-eaca-fcf8-e053-d805fe0aa794
|
118
|
Chitosan films for regenerative medicine: fabrication methods and mechanical characterization of nanostructured chitosan films, file e0d6c92e-68db-fcf8-e053-d805fe0aa794
|
85
|
Poly ε-caprolactone scaffold in a rabbit critical size defects model: Histological observations, file e0d6c926-8a32-fcf8-e053-d805fe0aa794
|
70
|
A New Calcium Oral Controlled-Release System Based on Zeolite for Prevention of Osteoporosis, file e0d6c92d-bddc-fcf8-e053-d805fe0aa794
|
50
|
Levofloxacin-loaded star poly(ε-caprolactone) scaffolds by additive manufacturing, file e0d6c92c-b031-fcf8-e053-d805fe0aa794
|
39
|
Tailored star poly (ε-caprolactone) wet-spun scaffolds for in vivo regeneration of long bone critical size defects, file e0d6c930-e111-fcf8-e053-d805fe0aa794
|
31
|
Additive Manufacturing of Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate)/poly(ε-caprolactone) Blend Scaffolds for Tissue Engineering, file e0d6c92a-877a-fcf8-e053-d805fe0aa794
|
17
|
Jellyfish Polysaccharides for Wound Healing Applications, file 55678d1e-e539-48cf-bc14-efe52fa3c36d
|
15
|
Targeting pseudomonas aeruginosa in the sputum of primary ciliary dyskinesia patients with a combinatorial strategy having antibacterial and anti-virulence potential, file e0d6c92e-866c-fcf8-e053-d805fe0aa794
|
12
|
Fed-Batch Synthesis of Poly(3-Hydroxybutyrate) and Poly(3-Hydroxybutyrate-co-4-Hydroxybutyrate) from Sucrose and 4-Hydroxybutyrate Precursors by Burkholderia sacchari Strain DSM 17165, file e0d6c92a-8933-fcf8-e053-d805fe0aa794
|
10
|
Tympanic Membrane Collagen Expression by Dynamically Cultured Human Mesenchymal Stromal Cell/Star-Branched Poly(ε-Caprolactone) Nonwoven Constructs, file e0d6c92f-4511-fcf8-e053-d805fe0aa794
|
9
|
Tailored star poly (ε-caprolactone) wet-spun scaffolds for in vivo regeneration of long bone critical size defects, file e0d6c926-7c35-fcf8-e053-d805fe0aa794
|
8
|
Biomedical processing of polyhydroxyalkanoates, file e0d6c92e-3554-fcf8-e053-d805fe0aa794
|
7
|
Polymeric Hydrogels for In Vitro 3D Ovarian Cancer Modeling, file e0d6c931-c949-fcf8-e053-d805fe0aa794
|
6
|
Additive Manufacturing of Poly(Methyl Methacrylate) Biomedical Implants with Dual-Scale Porosity, file e0d6c92c-71e5-fcf8-e053-d805fe0aa794
|
5
|
Polymeric Systems for the Controlled Release of Flavonoids, file 54eb0920-1640-410f-9a24-499f9f083c27
|
4
|
Human adipose tissue-derived stem cells and a poly(ε-caprolactone) scaffold produced by computer-aided wet spinning for bone tissue engineering, file e0d6c92c-31df-fcf8-e053-d805fe0aa794
|
4
|
Polysaccharide-based polyelectrolyte complexes for biomedical applications, file e0d6c92c-9397-fcf8-e053-d805fe0aa794
|
4
|
An in vitro chondro-osteo-vascular triphasic model of the osteochondral complex, file e0d6c931-6240-fcf8-e053-d805fe0aa794
|
4
|
Development and Characterization of Highly Stable Silver NanoParticles as Novel Potential Antimicrobial Agents for Wound Healing Hydrogels, file e0d6c931-d561-fcf8-e053-d805fe0aa794
|
4
|
BIOGRADABLE POLYMERIC THREEDIMENSIONAL SUPPORTS FOR BONE REGENERATION: RESULTS OF A LONG-TERM STUDY IN VIVO, file e0d6c928-63a9-fcf8-e053-d805fe0aa794
|
3
|
null, file e0d6c92d-30bd-fcf8-e053-d805fe0aa794
|
3
|
Bio-Nanohybrid Gelatin/Quantum Dots for Cellular Imaging and Biosensing Applications, file 285e9222-5f08-460e-8d35-c15d45dc57cd
|
2
|
null, file 3633a581-290e-4b22-a8d9-11a6431aaf94
|
2
|
Total green exploitation of paper mill waste, file 66ca67eb-71b2-4728-9313-b5243807a1d6
|
2
|
null, file e0d6c92c-de40-fcf8-e053-d805fe0aa794
|
2
|
Renewable Polysaccharides Micro/Nanostructures for Food and Cosmetic Applications, file e0d6c92f-2c94-fcf8-e053-d805fe0aa794
|
2
|
Multiscale fabrication of biomimetic scaffolds for tympanic membrane tissue engineering, file e0d6c92f-69ca-fcf8-e053-d805fe0aa794
|
2
|
Design, fabrication and characterization of composite piezoelectric ultrafine fibers for cochlear stimulation, file e0d6c92f-6dbb-fcf8-e053-d805fe0aa794
|
2
|
Additive Manufacturing of Poly(3-hydroxybutyrate-co-3-hy-droxyvalerate)/Poly(D,L-lactide-co-glycolide) Biphasic Scaffolds for Bone Tissue Regeneration, file e0d6c932-1120-fcf8-e053-d805fe0aa794
|
2
|
New poly(lactic acid)/paper mill sludge bio-composite: preparation and characterization, file 34ebebd3-65d0-498f-bf48-756dfd9754d4
|
1
|
Anti-inflammatory reprogramming of microglia cells by metabolic modulators to counteract neurodegeneration; a new role for Ranolazine, file 51e54278-0f5f-4610-aa47-109da2bddd07
|
1
|
Additive Manufacturing of Anatomical Poly(d,l-lactide) Scaffolds, file 765b2568-c7b9-4ace-b679-0ec679c2386c
|
1
|
Melt‐Versus Solution‐Extrusion Additive Manufacturing of Poly(methyl methacrylate) Medical Implant Prototypes, file b189193e-f547-49b2-ab32-84846371c473
|
1
|
In Vitro Behavior of Human Adipose Tissue-Derived Stem Cells on Poly(ε -caprolactone) Film for Bone Tissue Engineering Applications, file e0d6c92c-1e53-fcf8-e053-d805fe0aa794
|
1
|
Biofabrication via integrated additive manufacturing and electrofluidodynamics, file e0d6c92c-3f00-fcf8-e053-d805fe0aa794
|
1
|
Perspectives on Biomedical Applications of Ulvan, file e0d6c92c-3f06-fcf8-e053-d805fe0aa794
|
1
|
Drug release kinetics of electrospun fibrous systems, file e0d6c92c-5a53-fcf8-e053-d805fe0aa794
|
1
|
Wet-spinning of biomedical polymers: From single-fibre production to additive manufacturing of three-dimensional scaffolds, file e0d6c92c-ffa4-fcf8-e053-d805fe0aa794
|
1
|
Design, Preparation, and Characterization of Thermoresponsive Hybrid Nanogels Using a Novel Ulvan-Acrylate Crosslinker as Potential Carriers for Protein Encapsulation, file e0d6c92d-062f-fcf8-e053-d805fe0aa794
|
1
|
Development of ulvan‐based emulsions containing flavour and fragrances for food and cosmetic applications, file e0d6c92d-7650-fcf8-e053-d805fe0aa794
|
1
|
Computer-Aided Wet-Spinning, file e0d6c92f-5a1e-fcf8-e053-d805fe0aa794
|
1
|
Totale |
4.043 |