700 research outputs found

    sj-pdf-2-cpc-10.1177_10556656211057361 - Supplemental material for Nonsedated Magnetic Resonance Imaging for Visualization of the Velopharynx in the Pediatric Population

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    Supplemental material, sj-pdf-2-cpc-10.1177_10556656211057361 for Nonsedated Magnetic Resonance Imaging for Visualization of the Velopharynx in the Pediatric Population by Katelyn J. Kotlarek, Thomas J. Sitzman, Jessica L. Williams and Jamie L. Perry in The Cleft Palate-Craniofacial Journal</p

    sj-pdf-1-cpc-10.1177_10556656211057361 - Supplemental material for Nonsedated Magnetic Resonance Imaging for Visualization of the Velopharynx in the Pediatric Population

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    Supplemental material, sj-pdf-1-cpc-10.1177_10556656211057361 for Nonsedated Magnetic Resonance Imaging for Visualization of the Velopharynx in the Pediatric Population by Katelyn J. Kotlarek, Thomas J. Sitzman, Jessica L. Williams and Jamie L. Perry in The Cleft Palate-Craniofacial Journal</p

    Mississippi Salutes Jamie Whitten

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    Slide show on U.S. Represenatives Jamie L. Whitten\u27s life and service to Mississippi. Discusses soil conservation; flood control; harbors at Pascagoula and Greenville; Appalachian Regional Council; rural services; extension services; 4-H Club; Tennessee-Tombigbee Waterway

    sj-pdf-1-cdq-10.1177_15257401211067940 – Supplemental material for Exploratory Study of Hybrid Telepractice and In-Person Treatment of Compensatory Articulation Errors in Cleft Palate

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    Supplemental material, sj-pdf-1-cdq-10.1177_15257401211067940 for Exploratory Study of Hybrid Telepractice and In-Person Treatment of Compensatory Articulation Errors in Cleft Palate by Katelyn J. Kotlarek, Abigail E. Haenssler and Jamie L. Perry in Communication Disorders Quarterly</p

    Jamie Whitten at the opening of the Jamie L. Whitten Building Information Technology Laboratory.

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    client file of Jamie Whitten; Corresponding Negative, folder 49https://egrove.olemiss.edu/miles/1187/thumbnail.jp

    Fig. 12. Cnemaspis chanthaburiensis from Camp 1 in Additional Amphibians And Reptiles From The Phnom Samkos Wildlife Sanctuary In Northwestern Cardamom Mountains, Cambodia, With Comments On Their Taxonomy And The Discovery Of Three New Species

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    Fig. 12. Cnemaspis chanthaburiensis from Camp 1.Published as part of Grismer, L. Lee, Neang, Thy, Chav, Thou, Wood, Perry L., Jr & Oaks, Jamie R., 2008, Additional Amphibians And Reptiles From The Phnom Samkos Wildlife Sanctuary In Northwestern Cardamom Mountains, Cambodia, With Comments On Their Taxonomy And The Discovery Of Three New Species, pp. 161-175 in Raffles Bulletin of Zoology 56 (1) on page 168, DOI: 10.5281/zenodo.533869

    Exploring The Possible Correlation Between Levator Origin Distance and Craniofacial Syndrome Diagnosis.

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    Authors: Loghan Jones; Imani R. Gilbert, MS; Samantha J. Power, MS; Taylor D. Snodgrass, MS; Jamie L. Perry, PhD Title: Exploring the possible correlation between levator origin distance and craniofacial syndrome diagnosis. Introduction/Background: Velopharyngeal closure is a phenomenon that occurs during oral speech production and swallowing. This closure is primarily completed through retraction and elevation of a velopharyngeal muscle known as the levator veli palatini muscle. The levator veli palatini (LVP) muscle originates from the petrous portion of the temporal bones and then inserts into the velum (Perry, 2011). Literature has suggested that the distance between the two originating portions of the LVP may be highly correlated to craniofacial syndromes (i.e., 22q11.2. deletion syndrome); however, this study had a small sample size (i.e., n=15) and only included one craniofacial syndrome (Kollara et al., 2019). As the LVP origin-to-origin distance measurement has been shown to be significantly shorter in one craniofacial syndrome compared to healthy peers, the overarching purpose of the present study is to determine if LVP origin to origin distance varies significantly compared to individuals with and without a variety of craniofacial syndromes. Methodology: In accordance with the Institutional Review Boards at the University of East Carolina University, 165 children were enrolled in this study. The control group and the patient group were matched by age (+/- 1 year), sex, and race. MRI data was obtained for each subject. MRI data will be analyzed in Amira 3D Visualization Software in order to obtain measurements related to levator angle of origin and levator origin to origin distance. Results: Data analysis is still ongoing and is expected to be completed by March 2025. Closure: The analysis of the potential relationship between LVP origin distance and craniofacial syndrome diagnosis is an important aspect of cleft and craniofacial care as this correlation can possibly lead to accurate diagnosis of a variety of craniofacial syndromes. By investigating this topic, the quality and efficiency of overall cleft care can be improved. References: Perry, J. L. (2011). Anatomy and physiology of the velopharyngeal mechanism. Seminars in Speech and Language, 17;32;(2), 083-092. https://doi.org/10.1055/s-0031-1277712 Kollara, L., Baylis, A. L., Kirschner, R. E., Bates, D. G., Smith, M., Fang, X., & Perry, J. L. (2019). Velopharyngeal Structural and Muscle Variations in Children With 22q11.2 Deletion Syndrome: An Unsedated MRI Study. The Cleft palate-craniofacial journal : official publication of the American Cleft Palate-Craniofacial Association, 56(9), 1139–1148. https://doi.org/10.1177/105566561985166

    Fig. 10 in Additional Amphibians And Reptiles From The Phnom Samkos Wildlife Sanctuary In Northwestern Cardamom Mountains, Cambodia, With Comments On Their Taxonomy And The Discovery Of Three New Species

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    Fig. 10. Chiromantis nongkhoriensis from Pramaoy.Published as part of Grismer, L. Lee, Neang, Thy, Chav, Thou, Wood, Perry L., Jr & Oaks, Jamie R., 2008, Additional Amphibians And Reptiles From The Phnom Samkos Wildlife Sanctuary In Northwestern Cardamom Mountains, Cambodia, With Comments On Their Taxonomy And The Discovery Of Three New Species, pp. 161-175 in Raffles Bulletin of Zoology 56 (1) on page 167, DOI: 10.5281/zenodo.533869

    A new species of Cyrtodactylus Gray (Squamata; Gekkonidae) from the Thai Highlands with a discussion on the evolution of habitat preference

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    Grismer, L. Lee, Rujirawan, Attapol, Termprayoon, Korkhwan, Ampai, Natee, Yodthong, Siriporn, Wood, Perry L., Oaks, Jamie R., Aowphol, Anchalee (2020): A new species of Cyrtodactylus Gray (Squamata; Gekkonidae) from the Thai Highlands with a discussion on the evolution of habitat preference. Zootaxa 4852 (4): 401-427, DOI: 10.11646/zootaxa.4852.4.

    A new species of Bent-toed Gecko (Squamata, Gekkonidae, Cyrtodactylus) from the Shan Plateau in eastern Myanmar (Burma)

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    Grismer, L. Lee, Wood Jr, Perry L., Quah, Evan S. H., Thura, Myint Kyaw, Oaks, Jamie R., Lin, Aung (2019): A new species of Bent-toed Gecko (Squamata, Gekkonidae, Cyrtodactylus) from the Shan Plateau in eastern Myanmar (Burma). Zootaxa 4624 (3): 301-321, DOI: 10.11646/zootaxa.4624.3.
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