Andres Alba‐Perez scite author profile

While new biomaterials for regenerative therapies are being reported in the literature, clinical translation is slow. Some existing regenerative approaches rely on high doses of growth factors, such as bone morphogenetic protein‐2 (BMP‐2) in bone regeneration, which can cause serious side effects. An ultralow‐dose growth factor technology is described yielding high bioactivity based on a simple polymer, poly(ethyl acrylate) (PEA), and mechanisms to drive stem cell differentiation and bone regeneration in a critical‐sized murine defect model with translation to a clinical veterinary setting are reported. This material‐based technology triggers spontaneous fibronectin organization and stimulates growth factor signalling, enabling synergistic integrin and BMP‐2 receptor activation in mesenchymal stem cells. To translate this technology, plasma‐polymerized PEA is used on 2D and 3D substrates to enhance cell signalling in vitro, showing the complete healing of a critical‐sized bone injury in mice in vivo. Efficacy is demonstrated in a Münsterländer dog with a nonhealing humerus fracture, establishing the clinical translation of advanced ultralow‐dose growth factor treatment.

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Plasma polymerised nanoscale coatings of controlled thickness for efficient solid-phase presentation of growth factors

Alba‐Perez

Jayawarna

Childs

et al. 2020

Materials Science and Engineering: C

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Bioengineering an Osteoinductive Treatment for Bone Healing Disorders: A Small Animal Case Series

et al. 2023

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The aim of this article was to study clinical and radiographic outcomes following treatment of bone healing disorders with a novel osteoinductive system that utilizes poly (ethyl acrylate), fibronectin and an ultra-low concentration of recombinant human bone morphogenetic protein-2. A case series of nine dogs and two cats were treated, and clinical records and radiographs were reviewed. Radiographs were scored by two blinded observers using the modified Radiographic Union Score for Tibial Fractures. Long-term follow-up was obtained using the Canine Orthopaedic Index and Feline Musculoskeletal Pain Index. Follow-up data were available for 11 treatments (10 cases). Complications: three minor, three major, one catastrophic (non-union requiring amputation). Lameness median 320 (range: 42–1,082) days postoperatively: ‘sound’ (three cases), ‘subtle’ (two), ‘mild’ (three), ‘moderate’ (one), and ‘non-weightbearing’ (one). The attending clinician judged 9 of 11 treatments achieved radiographic union; modified Radiographic Union Score for Tibial Fractures observers 1 and 2 agreed with the clinician in 8/9 and 5/9 treatments respectively. Long-term Canine Orthopaedic Index scores for five dogs median 650 (range: 544–1,724) days postoperatively: 15/64 (median) for four dogs with acceptable outcomes, 30/64 in one dog with a poor outcome. Feline Musculoskeletal Pain Index scores for two cats 433 and 751 days postoperatively: 48/60 and 60/60. Eight of 10 cases were sound or showed subtle or mild lameness in the short- or long-term, and radiographic union occurred in the majority of treatments.

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High Efficiency BMP‐2 Coatings: Nanoscale Coatings for Ultralow Dose BMP‐2‐Driven Regeneration of Critical‐Sized Bone Defects (Adv. Sci. 2/2019)

et al. 2019

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In article number 1800361, Matthew J. Dalby, Manuel Salmeron‐Sanchez, and co‐workers coat structural material, e.g., particles or scaffolds, with a bioactive synthetic material that organizes fibronectin to present BMP‐2 with high efficiency. This is used as a novel regenerative approach to heal critical‐sized bone defects. Simultaneous integrin and growth factor receptor synergistic signaling drives stem cell differentiation leading to bone regeneration in the first veterinary patient.

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