Maria Letizia Vainieri

Affiliations
  • Department of Orthopedics, Erasmus MC University Medical Centre, the Netherlands; AO Research Institute, Davos Platz, Switzerland.

Publications (7)

Evaluation of biomimetic hyaluronic-based hydrogels with enhanced endogenous cell recruitment and cartilage matrix formation.

Acta biomaterialia
Avec: M L Vainieri , A Lolli , N Kops , D D'Atri , D Eglin , A Yayon , M Alini , S Grad , K Sivasubramaniyan , G J V M van Osch

Manipulating niche composition limits damage to haematopoietic stem cells during Plasmodium infection.

Nature cell biology
Avec: Myriam L R Haltalli , Samuel Watcham , Nicola K Wilson , Kira Eilers , Alexander Lipien , Heather Ang , Flora Birch , Sara Gonzalez Anton , Chiara Pirillo , Nicola Ruivo , Maria L Vainieri , Constandina Pospori , Robert E Sinden , Tiago C Luis , Jean Langhorne , Ken R Duffy , Berthold Göttgens , Andrew M Blagborough , Cristina Lo Celso

Osteochondral Explant Isolation and Culture Under a Compression and Shear Bioreactor.

Methods in molecular biology (Clifton, N.J.)
Avec: M Letizia Vainieri , Sibylle Grad

Mechanical Stress Inhibits Early Stages of Endogenous Cell Migration: A Pilot Study in an Ex Vivo Osteochondral Model.

Polymers
Avec: Maria L Vainieri , Mauro Alini , Avner Yayon , Gerjo J V M van Osch , Sibylle Grad

Drug delivery in intervertebral disc degeneration and osteoarthritis: Selecting the optimal platform for the delivery of disease-modifying agents.

Journal of controlled release : official journal of the Controlled Release Society
Avec: Fabio Colella , João Pedro Garcia , Marco Sorbona , Andrea Lolli , Bernardo Antunes , Domenico D'Atri , Florian P Y Barré , Jacopo Oieni , Luana Zerrillo , Serdar Capar , Sonja Häckel , Yunpeng Cai , Laura B Creemers

Enhanced chondrogenic phenotype of primary bovine articular chondrocytes in Fibrin-Hyaluronan hydrogel by multi-axial mechanical loading and FGF18.

Acta biomaterialia
Avec: Bernardo P Antunes , M Letizia Vainieri , Mauro Alini , Efrat Monsonego-Ornan , Sibylle Grad , Avner Yayon

Hydrogel-based delivery of antimiR-221 enhances cartilage regeneration by endogenous cells.

Journal of controlled release : official journal of the Controlled Release Society
Avec: Andrea Lolli , Kavitha Sivasubramaniyan , Maria L Vainieri , Jacopo Oieni , Nicole Kops , Avner Yayon , Gerjo J V M van Osch

Réseau de co-auteurs

Maria L Vainieri 3 collaborations
Sibylle Grad 3 collaborations
Avner Yayon 3 collaborations
M Letizia Vainieri 2 collaborations
Mauro Alini 2 collaborations
Gerjo J V M van Osch 2 collaborations
Andrea Lolli 2 collaborations
Jacopo Oieni 2 collaborations
M L Vainieri 1 collaboration
A Lolli 1 collaboration
N Kops 1 collaboration
D D'Atri 1 collaboration
D Eglin 1 collaboration
A Yayon 1 collaboration
M Alini 1 collaboration
S Grad 1 collaboration
K Sivasubramaniyan 1 collaboration
G J V M van Osch 1 collaboration
Myriam L R Haltalli 1 collaboration
Samuel Watcham 1 collaboration
Nicola K Wilson 1 collaboration
Kira Eilers 1 collaboration
Alexander Lipien 1 collaboration
Heather Ang 1 collaboration
Flora Birch 1 collaboration
Sara Gonzalez Anton 1 collaboration
Chiara Pirillo 1 collaboration
Nicola Ruivo 1 collaboration
Constandina Pospori 1 collaboration
Robert E Sinden 1 collaboration
Tiago C Luis 1 collaboration
Jean Langhorne 1 collaboration
Ken R Duffy 1 collaboration
Berthold Göttgens 1 collaboration
Andrew M Blagborough 1 collaboration
Cristina Lo Celso 1 collaboration
Fabio Colella 1 collaboration
João Pedro Garcia 1 collaboration
Marco Sorbona 1 collaboration
Bernardo Antunes 1 collaboration
Domenico D'Atri 1 collaboration
Florian P Y Barré 1 collaboration
Luana Zerrillo 1 collaboration
Serdar Capar 1 collaboration
Sonja Häckel 1 collaboration
Yunpeng Cai 1 collaboration
Laura B Creemers 1 collaboration
Bernardo P Antunes 1 collaboration
Efrat Monsonego-Ornan 1 collaboration
Kavitha Sivasubramaniyan 1 collaboration
Nicole Kops 1 collaboration