ObjectiveTo summarize the research progress of relation between visceral fat and pancreatic cancer. MethodThe domestic and foreign literature on the accumulation of visceral fat, the potential mechanism of association between visceral fat and pancreatic cancer, the measurement of visceral fat, and the association of visceral fat with prognosis for pancreatic cancer in recent years was reviewed. ResultsThe accumulation of visceral fat was the result of multiple factors, including age, gender, sex hormones, endocannabinoid system, etc. A variety of adipokines secreted by visceral fat played a crucial role in the occurrence and development of pancreatic cancer, which played a pro-tumor and anti-tumor effects mainly through a variety of different signal pathways. ConclusionsIn clinical treatment, the quality of life and prognosis of patients with pancreatic cancer can be improved by reducing visceral fat mass by adjusting diet, physical training, and other methods, as well as intervening the action signal pathways of various adipokines without affecting the disease progression.
The gradient field, one of the core magnetic fields in magnetic resonance imaging (MRI) systems, is generated by gradient coils and plays a critical role in spatial encoding and the generation of echo signals. The uniformity or linearity of the gradient field directly impacts the quality and distortion level of MRI images. However, traditional point measurement methods lack accuracy in assessing the linearity of gradient fields, making it difficult to provide effective parameters for image distortion correction. This paper introduced a spherical measurement-based method that involved measuring the magnetic field distribution on a sphere, followed by detailed magnetic field calculations and linearity analysis. This study, applied to assess the nonlinearity of asymmetric head gradient coils, demonstrated more comprehensive and precise results compared to point measurement methods. This advancement not only strengthens the scientific basis for the design of gradient coils but also provides more reliable parameters and methods for the accurate correction of MRI image distortions.