Abstract
Aims
Woodpeckers possess mechanisms protecting the eye from shaking/impact. Mechanisms available to woodpeckers but not humans may help explain some eye injuries in Shaken Baby syndrome (SBS).
Methods
Gross dissection and histologic examination of eyes and orbits of seven woodpeckers.
Results
All birds showed restricted axial globe movement due to the tight fit within the orbit and fascial connections between the orbital rim and sclera. The sclera was reinforced with cartilage and bone, the optic nerve lacked redundancy, and the vitreous lacked attachments to the posterior pole retina.
Conclusions
Woodpecker eyes differ from human infants by an inability of the globe to move axially in the orbit, the sclera to deform, and the vitreous to shear the retina. These findings support current hypotheses that abusive acceleration–deceleration-induced ocular injury in human infants may be related to translation of vitreous within the globe and the globe within the orbit. The woodpecker presents a natural model resistant to mechanical forces that have some similarity to SBS.
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Acknowledgements
This study was completed with the valuable contributions of research assistants Enza Perruzza and Erica Bell, and ophthalmic imaging specialist Leslie MacKeen. We also gratefully acknowledge Dr Randell Alexander who was the first to our knowledge, to suggest that woodpeckers could serve as a model for protective mechanisms for shaking impact injury.
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Wygnanski-Jaffe, T., Murphy, C., Smith, C. et al. Protective ocular mechanisms in woodpeckers. Eye 21, 83–89 (2007). https://doi.org/10.1038/sj.eye.6702163
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DOI: https://doi.org/10.1038/sj.eye.6702163
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