![]() ![]() These filters are mainly of the low-pass and resolution recovery (adaptive) types. The inherent noise of the PET images considerably increases if improvement techniques such as scatter or randoms correction are applied ( 3).Ĭonventionally, finite impulse response filters are used to improve the signal-to-noise ratio of nuclear medicine data ( 3). Signal-to-noise ratio, although considerably higher in PET than in SPECT, is yet much lower than in other tomography techniques such as CT and MRI. No matter which organ is imaged, noise is always present in the nuclear medicine images and always causes error in quantification. PET has a good sensitivity and specificity in diagnosis and differentiation of malignant from benign tumors ( 1, 2).Īlthough PET has made crucial progress, it nevertheless bears the main weakness of nuclear medicine: poor count density in images. ![]() The technique is used to map the biologic function and metabolic changes of the organs under investigation. PET is an efficient technique to determine 3-dimensional distributions of radiotracers in a patient's body. It seems we should attend to mutual agreement between noise reduction and visual quality of the image. Noise reduction using this transform and loss of high-frequency information are simultaneous with each other. Conclusion: Wavelet transformation is a useful method for denoising simulated PET images. Results: Our results indicate stationary wavelet transformation and global thresholding are more efficient at noise reduction than are other methods that we investigated. Denoised images were compared with the reference image using root mean square error. These programs were based on using 54 different wavelets and 4 methods. Next, we wrote and applied denoising programs. After image reconstruction, a 250-million-count image (noisy image or test image) and a reference image were normalized, and then root mean square error was used to compare the images. Then, we reconstructed these images using our own software developed in a commercially available program. For a reference image, we acquired an image with high counts (6 billion). The images were acquired using 250 million counts in 128 × 128 matrices. Methods: In this research, SimSET software was used for simulation of PET images of the nonuniform rational B-spline–based cardiac-torso phantom. Thus, wavelet transformation has been extensively used for noise reduction, edge detection, and compression. The wavelet transform presents a solution by providing information on frequency contents while retaining spatial information, alleviating the shortcoming of Fourier transformation. This method is based on frequency components, irrespective of the spatial location of the noise or signal. Noise removal in nuclear medicine is traditionally based on the Fourier decomposition of the images. However, a high noise level in the images limits the diagnostic utility of PET. Higher sensitivity, higher spatial resolution, and more accurate quantification are advantages of PET, in comparison to SPECT. An efficient method for tomographic imaging in nuclear medicine is PET.
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