Accurate and efficient segmentation of malignant lymphomas on fluorodeoxyglucose positron emission tomography/computed tomography (FDG PET/CT) images would help to speed up and automate the segmentation process. This thesis explores deep learning method nnUNet in the context of lymphoma image segmentation. FDG PET/CT images of 202 patients were used in this thesis. The images were used to train 9 different models with different training sets and the duration’s of learning. We were able to satisfactorily segment areas of lymphomas with trained models, where larger areas of lymphoma involvement were better segmented by the models while smaller lesions were associated with worse segmentation results. The model that stood out was the one with the largest training set of 143 patients and the duration of training of 10 h, which was the second longest training time, being also comparable in terms of Dice metric values to other tumour segmentation models found in the literature. The findings of this research highlight potential of AI in clinical work and illustrate the promising features of deep learning methods such as nnUNet. As the field of medical image analysis continues to evolve, the integration of advanced AI techniques promises more personalised and efficient healthcare solutions.