Tony Paul Pease

Works (3)

Updated: July 5th, 2023 15:56

2008 article

Development of equine upper airway fluid mechanics model for Thoroughbred racehorses

RAKESH, V., DUCHARME, N. G., DATTA, A. K., CHEETHAM, J., & PEASE, A. P. (2008, May 1). Equine Veterinary Journal.

By: V. Rakesh*, N. Ducharme*, A. Datta*, J. Cheetham* & A. Pease n

author keywords: horse; flow modelling; upper airways; arytenoid abduction
MeSH headings : Airway Obstruction / diagnosis; Airway Obstruction / physiopathology; Airway Obstruction / veterinary; Airway Resistance / physiology; Animals; Cadaver; Computer Simulation; Horse Diseases / diagnosis; Horse Diseases / physiopathology; Horses; Male; Models, Biological; Physical Conditioning, Animal / physiology; Respiration; Respiratory Mechanics / physiology
topics (OpenAlex): Veterinary Equine Medical Research; Aerodynamics and Fluid Dynamics Research; Tribology and Lubrication Engineering
TL;DR: In the equine upper airway collapsible area, the floor of the rostral aspect of the nasopharynx is subjected to the most significant collapsing pressure with high average turbulent kinetic during inhalation, which may lead to palatal instability and explain the high prevalence of dorsal displacement of the soft palate (DDSP) in racehorses. (via Semantic Scholar)
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Source: Web Of Science
Added: August 6, 2018

2008 journal article

Simulation of turbulent airflow using a CT based upper airway model of a racehorse

Journal of Biomechanical Engineering, 130(3).

By: V. Rakesh, A. Datta, N. Ducharme & A. Pease

Source: NC State University Libraries
Added: August 6, 2018

2006 article

VALUE OF A SINGLE‐SHOT TURBO SPIN‐ECHO PULSE SEQUENCE FOR ASSESSING THE ARCHITECTURE OF THE SUBARACHNOID SPACE AND THE CONSTITUTIVE NATURE OF CEREBROSPINAL FLUID

PEASE, A. N. T. H. O. N. Y., SULLIVAN, S. T. A. C. E. Y., OLBY, N. A. T. A. S. H. A., GALANO, H. E. A. T. H. E. R., CERDA‐GONZALEZ, S. O. P. H. I. A., ROBERTSON, I. A. N. D., … THRALL, D. O. N. A. L. D. (2006, April 25). Veterinary Radiology & Ultrasound, Vol. 47, pp. 254–259.

By: A. Pease n, S. Sullivan n, N. Olby n, H. Galano n, S. Cerda‐Gonzalez n, I. Robertson n, P. Gavin*, D. Thrall n

author keywords: cervical; half-Fourier acquisition single-shot turbo spin echo; magnetic resonance imaging; myelogram; shot turbo spin echo
MeSH headings : Animals; Cat Diseases / cerebrospinal fluid; Cat Diseases / pathology; Cats; Diagnosis, Differential; Dog Diseases / cerebrospinal fluid; Dog Diseases / pathology; Dogs; Encephalitis / complications; Encephalitis / pathology; Encephalitis / veterinary; Female; Lameness, Animal / etiology; Lumbar Vertebrae / pathology; Lymphoma, Non-Hodgkin / complications; Lymphoma, Non-Hodgkin / pathology; Lymphoma, Non-Hodgkin / veterinary; Magnetic Resonance Imaging / methods; Magnetic Resonance Imaging / veterinary; Male; Spinal Cord Neoplasms / complications; Spinal Cord Neoplasms / pathology; Spinal Cord Neoplasms / veterinary; Subarachnoid Space / pathology
topics (OpenAlex): Advanced MRI Techniques and Applications; Advanced Neuroimaging Techniques and Applications; Atomic and Subatomic Physics Research
TL;DR: Although the resolution of the single-shot turbo spin-echo pulse sequence images is relatively poor compared with more conventional sequences, the qualitative information about the subarachnoid space and cerebrospinal fluid and the rapid acquisition time, make it a useful sequence to include in standard protocols of spinal magnetic resonance imaging. (via Semantic Scholar)
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Sources: Web Of Science, NC State University Libraries
Added: August 6, 2018

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