Lymphotropic nanoparticle magnetic resonance imaging for diagnosing metastatic lymph nodes in dogs with malignant head and neck tumours.
Lynn R GriffinChad FrankSangeeta RaoBernard SéguinPublished in: Veterinary and comparative oncology (2023)
Lymphotropic nanoparticle magnetic resonance imaging (LNMRI) utilises ultrasmall paramagnetic iron nanoparticles (USPIOs) for imaging of metastatic lymph nodes in patients afflicted with cancer. LNMRI has been shown to be a highly effective and accurate way to diagnose metastasis in humans but has not been commonly reported on in veterinary medicine. USPIOs are phagocytised by macrophages and then localised to lymph nodes where they create a susceptibility artefact on gradient echo MRI sequences. In this study dogs (n = 24) with naturally occurring head and neck tumours were imaged with LNMRI then had mandibular and retropharyngeal lymph nodes extirpated for histological analysis. Subjective and objective analysis of the LNMRI images was performed and imaging results compared to histology as the gold standard. A total of 149 lymph nodes were included in this study. The overall sensitivity, specificity and accuracy was 64%, 94.4% and 89.3% respectively. However, if dogs with mast cell tumours were excluded from analysis the sensitivity, specificity and accuracy rose to 85.7%, 95.7% and 94.6%. LNMRI is potentially an accurate way to determine the presence of lymph node metastasis in dogs with some types of head and neck tumours. However, LNMRI has only moderate accuracy in dogs with oral or mucocutaneous mast cell tumours in this region.
Keyphrases
- lymph node
- magnetic resonance imaging
- lymph node metastasis
- high resolution
- squamous cell carcinoma
- sentinel lymph node
- neoadjuvant chemotherapy
- contrast enhanced
- papillary thyroid
- small cell lung cancer
- diffusion weighted imaging
- computed tomography
- magnetic resonance
- ejection fraction
- prognostic factors
- convolutional neural network
- radiation therapy
- young adults
- chronic kidney disease
- iron oxide
- high intensity
- fluorescence imaging
- squamous cell
- mass spectrometry