View clinical trials related to PET/CT.
Filter by:New cancer treatment with immune-checkpoint inhibitors (ICIs) has changed the way patients with melanoma and a variety of other cancers are being treated. Many pivotal trials that showed efficacy and safety of ICIs were performed in malignant melanoma. ICI can cause a different type of toxicity, called immune-related adverse events (irAEs). Though the exact pathophysiology is not completely understood, it is believed that irAEs are provoked by immune upregulation and inflammation. However, they can be serious, life-threatening, and warrant hospital admission as well. Dangerous irAEs include myocarditis, myositis, and pneumonitis, among others. Due to the novel mechanism of action, unpredictable nature, and wide usage of this type of treatment in the future, there is urgent need for better control of these potentially dangerous side effects. Early recognition and treatment of irAEs are of great importance in successful management. Positron emission tomography-computed tomography (PET/CT) with [18F]2fluoro-2-deoxy-D-glucose (18F-FDG) is a sensitive, non-invasive, and widely used method for diagnosis and evaluation of treatment efficacy of malignant melanoma. The combination of 18F-FDG-PET and CT allows for assessment of both functional and morphological status of the lesions, and so facilitates better clinical decisions and patient care during treatment. It is also a very sensitive method for recognising inflammation, that can be a signal of irAEs. Quantitative analysis is a rapidly evolving field of PET/CT image analysis. It includes both radiomics and artificial intelligence. Some studies have reported that quantitative analysis could predict efficacy of different cancer treatments. Quantitative image analysis in cancer response assessment is a rapidly expanding field, with the ultimate goal of clinical translation. However, in the specific instance of irAE diagnosis, it is not yet clear what role quantitative analysis of PET/CT scans can play. The hypothesis is that quantitative analysis of PET/CT images provides more information on possible irAE, thus helping to treat these side effects more quickly and successfully.
Therapeutic progress for subgroups of Non Small Cell Lung Cancer can largely be attributed to the accumulation of molecular knowledge and the development of new drugs that specifically target molecular abnormalities. An understanding of the immune landscape of tumors, including immune-evasion strategies, has also led to breakthrough therapeutic advances.These new options require prior treatment tumoral sampling to identify patients who have neoplasms with specific genomic aberrations or favorable immune environment. Medical imaging and radiomic approach may provides surrogate markers non invasively.The objective of the present retrospective study is to build and validate a predictive model of common molecular alterations and PD-L1 expression in NSCLC using pre treatment PET/CT derived radiomics.
In this study, clinically cured patients with severe COVID-19 were used to evaluate the therapeutic effect of COVID-19 and the recovery and health status of patients over time with highly sensitive PET/CT imaging technology. At the same time, PET/CT whole body scan, dynamic imaging and mathematical dynamic model were combined to evaluate the functions of the heart, lung, liver, kidney, brain and other important organs and the outcome of inflammatory lesions in clinically cured COVID-19 patients.
With the aging of the population and the acceleration of urbanization process, the number of cardiovascular diseases in China continues to increase, with one in five adults suffering from cardiovascular disease. The mortality rate of cardiovascular disease in China is also on the rise, and cardiovascular disease deaths are now the leading cause of death among urban and rural residents, mainly due to ischemic heart disease (IHD). Ischemic heart disease is the damage to the heart muscle caused by changes in the coronary cycle that cause an imbalance between coronary blood flow and the needs of the heart muscle.This project obtains MBF and CFR through 13N-NH3PET cardiac blood flow perfusion rest and load imaging, and explores the diagnostic value of PET imaging to CMVD. In summary, this project will obtain myocardial blood flow (MBF) and myocardial blood flow reserve (CFR) through 13N-NH3 PET cardiac blood flow perfusion rest and load imaging, explore the diagnostic value of PET imaging for CMVD, and promote the widespread application of absolute quantification of myocardial blood flow in China.