Botulinum toxin induces muscle paralysis and inhibits bone regeneration in zebrafish.

Intramuscular administration of Botulinum toxin (BTx) has been associated with impaired osteogenesis in diverse conditions of bone formation (eg, development, growth, and healing), yet the mechanisms of neuromuscular-bone crosstalk underlying these deficits have yet to be identified. Motivated by the emerging utility of zebrafish (Danio rerio) as a rapid, genetically tractable, and optically transparent model for human pathologies (as well as the potential to interrogate neuromuscular-mediated bone disorders in a simple model that bridges in vitro and more complex in vivo model systems), in this study, we developed a model of BTx-induced muscle paralysis in adult zebrafish, and we examined its effects on intramembranous ossification during tail fin regeneration. BTx administration induced rapid muscle paralysis in adult zebrafish in a manner that was dose-dependent, transient, and focal, mirroring the paralytic phenotype observed in animal and human studies.

Musculoskeletal screening: developmental dysplasia of the hip.

Developmental dysplasia of the hip (DDH) is common because it is present in 1 of 100 newborns. Failure to diagnose DDH and treat in infancy can result in significant long-term disability. Early diagnosis can be accomplished through a quick but careful physical examination of all newborns.