Development of Real-Time Kinematic Magnetic Resonance Imaging (kMRI) Techniques for Studying the Kinematics of the Spine and Joints in Dogs-Preliminary Study on Cadavers.
Sara CanalRoberto TamburroIlaria FalernoFrancesca Del SignoreFrancesco SimeoniFrancesco De PasqualeAndrea De BonisAnnamaria MaraoneAndrea PaoliniAmanda BianchiMartina RostoMassimo VignoliPublished in: Animals : an open access journal from MDPI (2022)
Kinematic MRI (kMRI) is a novel human imaging technique that couples the excellent soft tissue contrast and multiplanar capabilities of traditional MRI with kinematic potential. The study's goals are: (1) testing the feasibility of spinal cord and joints real-time kMRI; and (2) evaluating the quality of these kinematic studies as a new diagnostic option in veterinary medicine. Standard and real-time kinematic MRI were performed on cervical spine, elbow, and stifle joints of seven cadavers. Studies were repeated after a surgical insult aimed to create a certain degree of joint instability. A total of 56 MRI were performed-7 cervical spinal tracts, 3 elbow joints, and 4 stifle joints were examined. The technique was feasible in all the three regions examined. The images were considered of excellent quality for the stifle joint, good to fair for the cervical spine, whereas two of three elbow studies were considered to have unacceptable image quality. Additionally, real-time kMRI provided good to excellent information about stifle instability. Therefore we consider kMRI a promising technique in veterinary medicine. Further studies and an in vivo setting are needed to increase the quality of the kMRI images, and to fully evaluate clinical usefulness.
Keyphrases
- magnetic resonance imaging
- contrast enhanced
- spinal cord
- diffusion weighted imaging
- computed tomography
- case control
- image quality
- magnetic resonance
- deep learning
- soft tissue
- quality improvement
- healthcare
- spinal cord injury
- high resolution
- optical coherence tomography
- neuropathic pain
- risk assessment
- public health
- climate change
- fluorescence imaging