PRGF in equine corneal cells: A standardised protocol is the key to achieve accurate results.

[1]  A. Tichy,et al.  Effects of three blood derived products on equine corneal cells, an in vitro study , 2018, Equine veterinary journal.

[2]  Kohya Uematsu,et al.  Growth factor and pro-inflammatory cytokine contents in platelet-rich plasma (PRP), plasma rich in growth factors (PRGF), advanced platelet-rich fibrin (A-PRF), and concentrated growth factors (CGF) , 2016, International journal of implant dentistry.

[3]  J. Durán,et al.  Plasma Rich in Growth Factors for the Treatment of Ocular Surface Diseases , 2016, Current eye research.

[4]  P. R. van Weeren,et al.  Equine autologous platelet concentrates: A comparative study between different available systems. , 2015, Equine veterinary journal.

[5]  G. Orive,et al.  The type of platelet-rich plasma may influence the safety of the approach , 2014, Knee Surgery, Sports Traumatology, Arthroscopy.

[6]  J. Durán,et al.  Corneal Wound Healing Promoted by 3 Blood Derivatives: An In Vitro and In Vivo Comparative Study , 2014, Cornea.

[7]  G. Orive,et al.  Safety and efficient ex vivo expansion of stem cells using platelet-rich plasma technology. , 2013, Therapeutic delivery.

[8]  J. Durán,et al.  In vitro effects of three blood derivatives on human corneal epithelial cells. , 2012, Investigative ophthalmology & visual science.

[9]  G. Orive,et al.  Plasma rich in growth factors (PRGF-Endoret) stimulates proliferation and migration of primary keratocytes and conjunctival fibroblasts and inhibits and reverts TGF-beta1-Induced myodifferentiation. , 2011, Investigative ophthalmology & visual science.

[10]  M. Boudreaux,et al.  Comparison of platelet number, mean platelet volume and platelet mass in five mammalian species , 1998, Comparative Haematology International.

[11]  J. White Chapter 7 – Platelet Structure , 2013 .