Sacroiliac joint dysfunction must be considered when investigating the etiology of low back pain. Particular sensitivity must be exhibited on this subject in patients with transitional vertebrae.
OBJECTIVE:
To analyze the demographic data, etiologies and risk factors of 106 children and adolescents with low back pain (LBP) who applied to our clinic.
METHODS:
The medical records of patients with low back pain under 18 presenting to our clinic in 2014–2018 were examined retrospectively. Patients’ demographic data, physical examination findings, laboratory and imaging results, and risk factors for low back pain were evaluated; diagnosis and treatment modalities were recorded.
RESULTS:
In this study, 106 children and adolescents 8–17 (mean 14.24±2.33) years, 55 girls (51.8%) and 51 boys (48.1%) were included. Sixty-two patients (58.4%) were diagnosed with non-specific low back pain, 24 (22.6%) with lumbar disc herniation, six (5.6%) with inflammatory low back pain, five (4.7%) with spondylolysis (with accompanying listhesis in two), five (4.7%) with scoliosis, and four (3.7%) with Scheuermann Disease. Three patients were operated and another patient underwent an algological intervention for persistent pain. Six patients diagnosed as spondyloarthropathy were referred to the pediatric rheumatology department. Pain in the remaining cases was brought under control using conservative methods in a combination of medical treatment, rest and physiotherapy.
CONCLUSION:
Low back pain is a frequent complaint in the child-adolescent age group. The causes of low back pain are as diverse as adults in this age group. The contrary common belief that severe problems, such as malignancy are common, mechanical reasons as the most common cause of low back pain.
Objective: Alveolar echinococcosis (AE) is a rare life-threatening parasitic infection. Computed tomography perfusion (CTP) imaging has the potential to provide both quantitative and qualitative information about the tissue perfusion characteristics. The purpose of this study was the examination of the characteristic features and feasibility of CTP in AE liver lesions.Material and Methods: CTP scanning was performed in 25 patients who had a total of 35 lesions identified as AE of the liver. Blood flow (BF), blood volume (BV), portal venous perfusion (PVP), arterial liver perfusion (ALP), and hepatic perfusion indexes (HPI) were computed for background liver parenchyma and each AE lesion.Results: Significant differences were detected between perfusion values of the AE lesions and background liver tissue. The BV, BF, ALP, and PVP values for all components of the AE liver lesions were significantly lower than the normal liver parenchyma (p<0.01).
Conclusions:We suggest that perfusion imaging can be used in AE of the liver. Thus, the quantitative knowledge of perfusion parameters are obtained via CT perfusion imaging.
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