Methods for improved measurements of brain volume and changes in brain volume

1 - 20 . (canceled) 21 . A method of calculating a brain volume of a brain of a patient, the method comprising: calculating, with a first algorithm, a first brain volume value at a first time point based on at least two magnetic resonance images (MRIs) taken at a first time point; calculating, with a second algorithm that is different from the first algorithm, a second brain volume value at the first time point based on the at least two first time point MRIs; obtaining at least one of (a) a weighted first brain volume value, as the product of a first algorithm mathematical weight and the first brain volume value, and (b) a weighted second brain volume value, as the product of a second algorithm mathematical weight and the second brain volume value, the first algorithm mathematical weight being associated with the first algorithm, and the second algorithm mathematical weight being associated with the second algorithm; wherein each of the first algorithm mathematical weight and the second algorithm mathematical weight is calculated based on at least one of: an image quality score, a reliability index of the corresponding algorithm, historical data of the corresponding algorithm, a measurement error of the corresponding algorithm, a synchronicity of the corresponding algorithm, a performance of the corresponding algorithm, and a degree of similarity with one or more other brain volume values; and determining an overall first time point brain volume value at the first time point by averaging the first brain volume value and the weighted second brain volume value, the weighted first brain volume value and the second brain volume value, or the weighted first brain volume value and the weighted second brain volume value. 22 . The method of claim 21 , wherein the at least two first time point MRIs includes magnetization-prepared rapid acquisition gradient echo (MPRAGE)-based magnetic resonance images, and the first algorithm uses the MPRAGE-based magnetic resonance images from the at least two first time point MRIs to calculate the first brain volume value. 23 . The method of claim 22 , wherein the at least two first time point MRIs includes fluid-attenuated inversion recover (FLAIR)-based MRIs, and the second algorithm uses the FLAIR-based MRIs from the at least two first time point MRIs to calculate the second brain volume value. 24 . The method of claim 21 , further comprising obtaining the image quality score for at least one of the at least two first time point MRIs. 25 . The method of claim 24 , wherein each of the first algorithm mathematical weight and the second algorithm mathematical weight is based on the image quality score obtained for at least one of the at least two first time point MRIs. 26 . The method of claim 21 , further comprising calibrating the first brain volume value and the second brain volume value using a predetermined calibration equation for calculating a best-fit regression line. 27 . The method of claim 21 , further comprising plotting the first brain volume value and the second brain volume value on a graph. 28 . The method of claim 21 , wherein the first brain volume value and the second brain volume value are brain volume measurements. 29 . The method of claim 21 , wherein each of the first brain volume value and the second brain volume value is calculated as a volume of the whole brain of the patient. 30 . The method of claim 21 , further comprising determining the first algorithm mathematical weight and the second algorithm mathematical weight based on the image quality score of images associated with the first algorithm and the second algorithm, respectively. 31 . A method of calculating a brain volume change of a brain of a patient, the method comprising: calculating, with a first algorithm, a first brain volume value at a first time point based on at least two magnetic resonance images (MRIs) taken at a first time point; calculating, with a second algorithm that is different from the first algorithm, a second brain volume value at the first time point based on the at least two first time point MRIs; calculating, with the first algorithm, a third brain volume value at a second time point, different from the first time point, based on at least two MRIs taken at a second time point; calculating, with the second algorithm, a fourth brain volume value at the second time point based on the at least two second time point MRIs; obtaining at least one of (a) a weighted first brain volume value, as the product of a first algorithm mathematical weight and the first brain volume value, and (b) a weighted second brain volume value, as the product of a second algorithm mathematical weight and the second brain volume value, and obtaining at least one of (c) a weighted third brain volume value, as the product of the first algorithm mathematical weight and the third brain volume value, and (d) a weighted fourth brain volume value, as the product of the second algorithm mathematical weight and the fourth brain volume value, wherein the first algorithm mathematical weight is associated with the first algorithm, and the second algorithm mathematical weight is associated with the second algorithm, and wherein each of the first algorithm mathematical weight and the second algorithm mathematical weight is calculated based on at least one of: an image quality score, a reliability index of the corresponding algorithm, historical data of the corresponding algorithm, a measurement error of the corresponding algorithm, a synchronicity of the corresponding algorithm, a performance of the corresponding algorithm, and a degree of similarity with one or more other brain volume values; determining an overall first time point brain volume value at the first time point by averaging the first brain volume value and the weighted second brain volume value, the weighted first brain volume value and the second brain volume value, or the weighted first brain volume value and the weighted second brain volume value, and determining an overall second time point brain volume value at the second time point by averaging the third brain volume value and the weighted fourth brain volume value, the weighted third brain volume value and the fourth brain volume value, or the weighted third brain volume value and the weighted fourth brain volume value; and calculating a brain volume change based on a difference between the overall first time point brain volume value and the overall second time point brain volume value. 32 . The method of claim 31 , wherein each of the at least two first time point MRIs and the at least two second time point MRIs includes magnetization-prepared rapid acquisition gradient echo (MPRAGE)-based magnetic resonance images, and the first algorithm uses the MPRAGE-based magnetic resonance images from the at least two first time point MRIs and the MPRAGE-based magnetic resonance images from the at least two second time point MRIs to calculate the first brain volume value and the third brain volume value, respectively. 33 . The method of claim 32 , wherein each of the at least two first time point MRIs and the at least two second time point MRIs includes fluid-attenuated inversion recover (FLAIR)-based MRIs, and the second algorithm uses the FLAIR-based MRIs from the at least two first time point MRIs and the FLAIR-based MRIs from the at least two second time point MRIs to calculate the second brain volume value and the fourth brain volume value, respectively. 34 . The method of claim 31 , further comprising obtaining the image quality score for at least one of the at least two first time point MRIs and