Magnetic Resonance Imaging of the One-Humped Camel (Camlus Dromdarius) Digits
Journal of American Science • 2012
Publication Information
Authors
El-Shafey, A.A; Abd Al-Galil, A.S.A
Keywords
Magnetic resonance image; Camel; Digits
Journal
Journal of American Science
Publisher
Not Available
Volume
8
Issue
9
Pages
549-556
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
The present study aimed to describe the normal anatomical structures of the digits and footpad of the camel
using Magnetic Resonance Image (MRI) as well as to provide an atlas of synchronized normal Magnetic Resonance
Image (MRI) and cross sectional anatomy of the digits in the camel. Sagittal, Dorsopalmar and Transverse MRI images
of three isolated camel cadaver digits were obtained using "Hitachi T2-NT a magnet of 0.2 Tesla and T1 Weighted
sequence". The MRI images were compared to corresponding dissect specimens and frozen cross-sections of the
cadaver digits. Clinically relevant anatomic structures were identified and labeled at each level in the corresponding
images (MRI and anatomic slices). The MRI images provided anatomical detail of the digits and foot of the camel.
Transversal images provided excellent depiction of anatomical structures when compared to corresponding frozen
cross-sections. MRI images of the current study would serve as an initial reference for normal anatomy and clinical
imaging studies of the camel digits and foot that can be used by radiologist, clinicians, surgeons or for research propose
in camel lameness.
using Magnetic Resonance Image (MRI) as well as to provide an atlas of synchronized normal Magnetic Resonance
Image (MRI) and cross sectional anatomy of the digits in the camel. Sagittal, Dorsopalmar and Transverse MRI images
of three isolated camel cadaver digits were obtained using "Hitachi T2-NT a magnet of 0.2 Tesla and T1 Weighted
sequence". The MRI images were compared to corresponding dissect specimens and frozen cross-sections of the
cadaver digits. Clinically relevant anatomic structures were identified and labeled at each level in the corresponding
images (MRI and anatomic slices). The MRI images provided anatomical detail of the digits and foot of the camel.
Transversal images provided excellent depiction of anatomical structures when compared to corresponding frozen
cross-sections. MRI images of the current study would serve as an initial reference for normal anatomy and clinical
imaging studies of the camel digits and foot that can be used by radiologist, clinicians, surgeons or for research propose
in camel lameness.
Staff Members - Benha University