Biotherapies developed and manufactured in France in compliance with good practices
Clinical studies based on real animal treatments
Easy to use products, delivered solely by veterinarians
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Biotherapies developed and manufactured in France in compliance with good practices
Clinical studies based on real animal treatments
Easy to use products, delivered solely by veterinarians
Précédent
Suivant

G – Intra- articular administration of xenogeneic neonatal Mesenchymal Stromal Cells early after meniscal injury down-regulates metal- loproteinase gene expression in synovium and prevents cartilage degradation in a rabbit model of osteoarthritis.

Saulnier N, Viguier E, Perrier-Groult E, Chenu C, Pillet E, Roger T, et al. Osteoarthr Cartil. 2015.

Objective: The anti-inflammatory and anti-catabolic effects of neonatal Mesenchymal Stromal Cell (MSC) were investigated in a xenogeneic model of mild osteoarthritis (OA). The paracrine properties of MSC on synoviocytes were further investigated in vitro.

Study design: OA was induced by medial meniscal release (MMR) in 30 rabbit knees. A single early (day 3) or delayed (day 15) intra-articular (IA) injection of MSC isolated from equine Umbilical Cord Wharton's jelly (UC-MSC) was performed. Rabbits were euthanized on days 15 or 56. OA grading was performed and gene expression of inflammatory cytokines and metalloproteinases was measured in synovial tissue. Paracrine effects of UC-MSC were investigated using UC-conditioned vs control medium on rabbit primary synoviocytes stimulated with interleukin 1 beta in vitro.

Results No adverse local or systemic responses were observed clinically after xenogeneic UC-MSC injection. At study end point, cartilage fibrillation was lower in early treatment than in delayed treatment group. Cellular infiltrate was observed in the synovium of both UC-MSC groups. OA synovium exhibited a reduced expression of metalloproteinases-1, -3, -13 in the early cell-treated group at d56. In vitro, UC-conditioned medium exerted anti-inflammatory and anti-catabolic effects on synoviocytes exposed to pro-inflammatory stimulus.

Conclusions: Early IA injection of equine UC-MSC was effective in preventing OA signs in rabbit knees following MMR. UC-MSC target the synovium and modulate the gene expression pattern of synoviocytes to promote an anti-catabolic environment. This confirms the synovium is a major target and mediator of MSC therapy, modulating the expression of matrix-degrading enzymes.

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Product Pipeline

Range Product Development & optimization Proof of Concept Pilot study Industrialisation /
Manufacturing
Pivotal study Approval Marketing Launch

CANIPREN

VBX-01
Canine osteoarthritis

VBX-01
Canine osteoarthritis

VBX-01
Canine osteoarthritis

CA0102
Atopic dermatitis

CA0103
Atopic dermatitis
Chronic
Inflammatory
Bowel
Disease

Range Product Development & optimization Proof of Concept Pilot study Industrialisation /
Manufacturing
Pivotal study Approval Marketing Launch

FELIPREN

FE0101
Gingivostomatitis

FE0102
Chronic kidney
failure

FE0103
Feline arthrosis

Range Product Development & optimization Proof of Concept Pilot study Industrialisation /
Manufacturing
Pivotal study Approval Marketing Launch

EQUIPREN
OMBISTEM

EQ0101
Equine arthrosis