Magnetic resonance imaging (MRI) is a new medical imaging technique, which has been used in clinic since 1982. It uses the static magnetic field and the RF magnetic field to make the human tissue imaging, in the imaging process, neither the electron away from the radiation, nor the contrast agent to obtain a high contrast of the clear image. It is able to reflect human organ disorders and early lesions from within the body. Animal NMR & MRI It is better than x-ray CT in many places. In addition to the anatomical characteristics of X-ray CT, the small animal MRI can be used to accurately measure the atomic relaxation time T1 and T2, and to reflect the information about the chemical structure in human tissues by NMR principle. This information is reconstructed from the computer by the image of the component (chemical structure image), Animal NMR & MRI which has the ability to characterize different tissues of the same density and the different chemical structures of the same tissue through the image display. This makes it easy to distinguish gray matter from the brain, and the early diagnosis effect of tissue necrosis, malignant disease and degenerative diseases is superior, Animal NMR & MRI and the contrast of soft tissue is more accurate. Magnetic resonance imaging (MRI) examination, due to the high resolution of soft tissue slides, blood vessels, nerves, muscles, tendons, ligaments, and hyaline cartilage, for synovial, vascular and muscle, fascia inflammation, synovial cyst and hyaline cartilage degeneration, Animal NMR & MRI exfoliation and bone erosion destruction and ischemic necrosis, cervical and medullary nucleus lesions, knee meniscus and cruciate ligament injury, rheumatoid nerve complications and osteomyelitis, such as clinical examination. The macroscopic state of synovial inflammation can be judged, such as the extent and range of fibrin exudation when the synovial volume changes, cell infiltration, angiogenesis and granuloma (Vascular nebula) formation, the early stage of the arthritis of synovial villi and synovial hypertrophy, and the pathological activity. can also distinguish myositis, fascia tension, Animal NMR & MRI fat infiltration and hypertrophy and inflammation of the growth and decline. Can clearly show cervical dislocation, spinal cord compression and spinal cord twisting.
Applied to tumor growth, tumor metastasis imaging, neurobiology, cerebrovascular disease, cardiovascular, reproductive and developmental, diabetes and obesity, anatomy and histology of small animal imaging in the field of molecular imaging such as embryology, MRI, and multiple-mode fusion imaging through DICOM and micropet, small animal spect, micro-ct, small animal ultrasound, small animal living fluorescence, Animal NMR & MRI bioluminescence and many other small animal imaging techniques.
The small animal nuclear magnetic resonance system platform fully meets the strictest safety requirements and ensures that no edge magnetic field, 0 external strength, no special perimeter protection/shielding room or other operating procedures are required.
Small animal nuclear magnetic resonance coil maximum diameter of 150mm, can be used in rats, mice, rabbits, puppies, kittens and other small animals nuclear magnetic resonance imaging research. Animal NMR & MRI The live small animal MRI is a a powerful, noninvasive imaging Analyzer that helps you understand the body structure of the subjects and the comparative information of the tissues. This equipment uses the permanent magnet, the maintenance cost is low, the performance is advantageous, is suitable in the Life science related domain research application.
1, Magnet type: Permanent magnets;
2, magnetic field strength: 0.3±0.05T, instrument main frequency: a. 8MHz;
3, Probe coil diameter: 150mm
High-performance ND-FE-B permanent magnets were used to achieve high-resolution small animal MRI.