The research proposed here will contribute to a functional understanding of the morphology of the primate facial region. The primate face is dominated by the masticatory apparatus, and therefore, this research will analyze both the nature of masticatory forces and how these forces are dissipated throughout the primate face. This will be accomplished by an analysis of in vivo strain along the facial bones of Macaca fascicularis using strain gages. Rosette strain gages (three strain-gage elements with a known orientation to one another) will be bonded directly to facial bones with a cyanacrylate adhesive. The macaque will then bite a transducer (or chew various foods), and bone strain will be monitored on a chart recorder and recorder on an FM tape recorder. In some of the proposed experiments the electrical activity of the various jaw muscles (EMG) will be monitored on an oscilloscope, and also recorded on the FM tape recorder. In order to correlate precisely the animal's behavior (jaw position) with the bone strain (and EMG) data, the animal and the chart recorder (or oscilloscope) will be videotaped. A split-screen display of both animal and the chart recorder (or oscilloscope) will be produced and recorded. The magnitude and direction of the maximum and minimum principal strains will then be determined. After surface strains have been characterized along different regions of the face (e.g. the postorbital bar, anterior root of the zygoma, supraorbital and infraorbital region), patterns of internal stress will be inferred from patterns of surface strain. This will be done in order to understand the nature of external forces (muscle and reaction forces) acting on the face, and how macaque facial bones dissipate masticatory stress.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37DE004531-12
Application #
3482782
Study Section
Oral Biology and Medicine Subcommittee 1 (OBM)
Project Start
1976-05-01
Project End
1991-11-30
Budget Start
1989-12-01
Budget End
1990-11-30
Support Year
12
Fiscal Year
1990
Total Cost
Indirect Cost
Name
Duke University
Department
Type
Schools of Medicine
DUNS #
071723621
City
Durham
State
NC
Country
United States
Zip Code
27705
Vinyard, Christopher J; Williams, Susan H; Wall, Christine E et al. (2011) A preliminary analysis of correlations between chewing motor patterns and mandibular morphology across mammals. Integr Comp Biol 51:260-70
Williams, Susan H; Vinyard, Christopher J; Wall, Christine E et al. (2011) A preliminary analysis of correlated evolution in Mammalian chewing motor patterns. Integr Comp Biol 51:247-59
Ravosa, Matthew J; Ross, Callum F; Williams, Susan H et al. (2010) Allometry of masticatory loading parameters in mammals. Anat Rec (Hoboken) 293:557-71
Ross, Callum F; Dharia, Ruchi; Herring, Susan W et al. (2007) Modulation of mandibular loading and bite force in mammals during mastication. J Exp Biol 210:1046-63
Wall, Christine E; Vinyard, Christopher J; Johnson, Kirk R et al. (2006) Phase II jaw movements and masseter muscle activity during chewing in Papio anubis. Am J Phys Anthropol 129:215-24
Hylander, William L; Wall, Christine E; Vinyard, Christopher J et al. (2005) Temporalis function in anthropoids and strepsirrhines: an EMG study. Am J Phys Anthropol 128:35-56
Ravosa, M J; Johnson, K R; Hylander, W L (2000) Strain in the galago facial skull. J Morphol 245:51-66
Hylander, W L; Ravosa, M J; Ross, C F et al. (2000) Symphyseal fusion and jaw-adductor muscle force: an EMG study. Am J Phys Anthropol 112:469-92
Ross, C F; Hylander, W L (2000) Electromyography of the anterior temporalis and masseter muscles of owl monkeys (Aotus trivirgatus) and the function of the postorbital septum. Am J Phys Anthropol 112:455-68
Hylander, W L; Ravosa, M J; Ross, C F et al. (1998) Mandibular corpus strain in primates: further evidence for a functional link between symphyseal fusion and jaw-adductor muscle force. Am J Phys Anthropol 107:257-71

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