The present invention relates to a method for obtaining a blood flow parameter. More particularly a method is presented wherein a first concentration curve is deconvolved with a second concentration curve and wherein a characteristic frequency is determined by an analysis in the frequency domain, the characteristic frequency being a frequency above which noise dominates the result of said deconvolution. A filter having the characteristic frequency is applied on the result of the deconvolution so as to disregard high frequency components, and the filtered result of the deconvolution is processed into a blood flow parameter. In an advantageous embodiment, the characteristic frequency may be dependent on a shape and/or width of an arterial input function and/or other parameters. The invention furthermore relates to a computer program product and a system for obtaining a blood flow parameter.
