The ciliary protein IFT88 controls post-natal cartilage thickness and influences development of osteoarthritis
Coveney C. et al, (2021), Arthritis and rheumatology
The ciliary protein IFT88 controls post-natal cartilage thickness and influences development of osteoarthritis.
Coveney CR. et al, (2021), Arthritis rheumatol
INTRA-ARTICULAR INJECTION OF PHOSPHOLIPID-BASED LUBRICANT REDUCES SHEAR-RESPONSIVE INFLAMMATORY GENES IN THE SUPERFICIAL LAYER OF CARTILAGE POST MURINE JOINT DESTABILISATION
Zhu L. et al, (2021), Osteoarthritis and cartilage, 29, S172 - S172
THE CILIARY PROTEIN INTRAFLAGELLAR TRANSPORT 88 IS REQUIRED FOR THE MATURATION, HOMEOSTASIS AND MECHANOADAPTATION OF ARTICULAR CARTILAGE
Coveney CR. et al, (2021), Osteoarthritis and cartilage, 29, S26 - S27
Does pain at an earlier stage of chondropathy protect female mice from structural progression after surgically induced osteoarthritis?
von Loga IS. et al, (2020), Arthritis rheumatol
IDENTIFICATION OF PUTATIVE SEX-DEPENDENT PAIN PATHWAYS THAT MAY EXPLAIN WHY FEMALE MICE DEVLOP PAIN BEHAVIOUR DESPITE LOWER CHONDROPATHY SCORES
Batchelor V. et al, (2020), Osteoarthritis and cartilage, 28, S128 - S128
THE CILIARY PROTEIN INTRAFLAGELLAR TRANSPORT 88 IS REQUIRED FOR THE MATURATION, HOMEOSTASIS AND MECHANOADAPTATION OF ARTICULAR CARTILAGE
Coveney CR. et al, (2020), Osteoarthritis and cartilage, 28, S75 - S75
HPA axis regulation and stress response is subject to intergenerational modification by paternal trauma and stress
Batchelor V. and Pang TY., (2019), General and comparative endocrinology, 280, 47 - 53