 Hello everyone. I would like to present a case series on spectrum of magnetic resonance imaging finding in spinal tuberculosis, that is, pod spine. I, myself, Dr. Kanish, Kashinath, Ravan Polkar, JR2, radio diagnosis at Dr. Vasanthra Power Medical College Hospital and Research Center, NASA. I have done this case series under the guidance of Dr. Nilesh Chaudhary, head of the department, department of radio diagnosis, Dr. Vasanthra Power Medical College Hospital and Research Center, NASA. Spinal tuberculosis or pod spine is the commonest extra pulmonary manifestation of tuberculosis. It's spread through hematitis in this root. Clinically, the symptoms are back pain, tenderness, paraplegia or parapheresis, kyphotic or scolotic deformity. Infection with HIV increases the risk of reactivation of dormant tuberculosis and the risk of acquiring primary infection. In those co-infected, a high frequency of extra pulmonary disease has been observed. The paradisiacal, central, anterior ligamentus and neural arcs are the common moritibular lesion, whereas, the corosic moritibary are commonly affected, followed by lumbar and cervical lumbar. Plain radiographs are usually initial investigation in spinal tibia, but the main disadvantage is that more than 50% of both has to be destroyed before a lesion can be seen on plain radiograph. MRI for magnetic regimen imaging is the best modality for pod spine as it magnetic regimen imaging frequently demonstrates discolours, cold abscess, vertebral waging, marrow demerits and spinal deformities. The study was conducted in the department of radio diagnosis, Dr. Vasanthra Power Medical College Hospital and Research Center. The study period was one year from June 2000, 21 to June 2022. In study, total 40 patients were included, all patients having clinical radiological feature of spinal tuberculosis and those referred from other clinical departments were included in this study. MRI examination was conducted using 1.5 days lab, Siemens MRI, the department of radio diagnosis, Dr. Vasanthra Power Medical College. The sequences were taken in axial, sagittal, coronal plane which include T1-mated, T2-mated, STER and T1-mated contrast segments. Images obtained were studied and characterized the various findings are as follows bone marrow edema, spondylmodycitis, in-plate erosion, paravertebral involvement, epidural component, reduction in intravarticular discolours, typhotic scoliotic deformity, reduction in intravarticular body height and subligament spread. I would like to show some images suggestive of various region involved in pod spine. This is the image of 36 year female presented with chronic back pain, mild fever and weight loss. On MRI, we can see there is altered signal intensity at contiguous end plate of L3 and L4 vertical bodies mostly at paradiscal margin with reduced intervain in L2, L3, paratybral disc height. In next image, we can see there is a 50 year male presented with neck pain or back pain. On MRI, we can see there is altered marrow signal T1 hypo intense, STER hypo intense with moderate contrast enhancement plotted in C5 and C6 vertebral bodies with adjacent paradiscal erosion and involvement of intervening C5 C60s, mild abnormal enhancement, noted in posterior intraspinus region at C5 6 level. Here are few other images of the participants included in the study involving different region in pod spine. On calculating the result, we found that out of 40 patients diagnosed with spinal tuberculosis, 27 patients were male while 30 were females, the age range of patient was from 11 to 70 years and the mean age was found to be 30. The most common clinical features were observed are back pain, low grade fever and loss of appetite. The least common features are kyphosis, paraparices and scoliosis. The most common site of involvement was found to be dorsal lumbar spine then followed by dorsal vertebrae and then lumbar vertebrae. The MRI findings were shown, severe vertebral body destruction was noted in as has 30 patients with wage collapse seen in 20 and compression fracture in 10 patients. The bone marrow edema and inflate irregularities were found in almost all patients while disc height reduction was found in 20 patients and degree of spinal canal compression seen in 10 patients. As we know, the treatment of spinal tuberculosis remains a challenge worldwide. Left untreated, this destructive disease has disastrous consequences with progressive deformity and eventual paralysis. Early diagnosis and prompt initiation of anti tuberculosis medication remains the key to successful treatment of spinal tuberculosis. Imagining plays an important role in diagnosis of spinal tuberculosis. Plain radiography demands the first line management, however, relays solely on plain film radiography to establish the diagnosis as its dangers. The major disadvantage of MRI, sorry, the major advantage of MRI are the earlier detection of spinal tuberculosis as suggested by an implicit intensity of bone marrow and allowing for over to orbital vertebral column to diagnose non-contiguous lesion. I would like to conclude by saying MRI imaging is sensitive for detecting vertical osteomyelitis and is therefore the imaging technique of choice in spinal infection. In spinal tuberculosis, the superior contrast resolution of MRI imaging is useful for showing continuous vertical enrolment, skip lesion and paraspinal collection. MRI imaging provides critical information about the spinal cord and extent of epidural patient presenting with neurologic deficits. Familiarity with spectrum of MRI finding in tuberculosis modalities, especially in high risk patient population, can prevent a delay in diagnosis and may limit the management can caused by this aggressive but curable infectious disease. The following references were taken for my study. Thank you.