Ultrasound image processing method and ultrasound imaging apparatus thereof

1 . An ultrasound imaging apparatus comprising: a data acquirer configured to transmit at least one ultrasound signal to a region of interest (ROI) of an object and to receive at least one ultrasound echo signal reflected from the ROI of the object; and a controller configured to calculate a shear modulus which corresponds to at least one point in the ROI and a strain which corresponds to the at least one point, based on the received at least one ultrasound echo signal, and to calculate a stress applied to the at least one point by using the calculated shear modulus and the calculated strain. 2 . The ultrasound imaging apparatus of claim 1 , wherein the controller is further configured to generate first information which represents a compression stress applied to the object, based on the calculated stress, and the ultrasound imaging apparatus further comprises a display device configured to display a user interface screen which includes the first information under a control of the controller. 3 . The ultrasound imaging apparatus of claim 1 , wherein the controller is further configured to recalculate the strain based on a value which is obtainable by dividing the calculated strain by the calculated stress, and to form a strain image of the ROI by using the recalculated strain. 4 . The ultrasound imaging apparatus of claim 3 , wherein the controller is further configured to divide the ROI into at least one region, to calculate an average stress which corresponds to each of the at least one region, and to recalculate the strain based on a value which is obtainable by dividing the calculated strain by the calculated average stress. 5 . The ultrasound imaging apparatus of claim 1 , wherein the controller is further configured to calculate the stress by determining a value which is proportional to a product of the calculated shear modulus and the calculated strain as the stress. 6 . The ultrasound imaging apparatus of claim 1 , wherein the control unit controller is further configured to acquire a shear modulus map of the ROI by using the calculated shear modulus which corresponds to the at least one point, to acquire a strain imaging map of the ROI by using the calculated strain which corresponds to the at least one point, and to calculate the stress which corresponds to the ROI based on the acquired shear modulus map and the acquired strain imaging map. 7 . The ultrasound imaging apparatus of claim 1 , wherein the at least one ultrasound signal comprises a first ultrasound signal used to generate a reference image, a second ultrasound signal that is a focused ultrasonic pulse used to apply an acoustic force to the ROI, and a third ultrasound signal used to calculate a displacement of the at least one point in the ROI, which is generated by the acoustic force and a pressure applied via an ultrasound probe, and the at least one ultrasound echo signal comprises a first ultrasound echo signal which corresponds to the first ultrasound signal and a third ultrasound echo signal which corresponds to the third ultrasound signal, which are reflected from the ROI of the object. 8 . The ultrasound imaging apparatus of claim 7 , wherein the controller comprises a shear modulus calculating module configured to calculate a time-dependent displacement of the at least one point, based on the third ultrasound echo signal, and to calculate the shear modulus which corresponds to the at least one point by using the calculated time-dependent displacement. 9 . The ultrasound imaging apparatus of claim 7 , wherein the controller comprises a strain calculating module configured to acquire reference image data which relates to the ROI by using the first ultrasound echo signal, to calculate a displacement of the at least one point in the ROI based on the acquired reference image data and the third ultrasound echo signal, and to calculate the strain which corresponds to the at least one point in the ROI by differentiating the calculated displacement. 10 . The ultrasound imaging apparatus of claim 1 , wherein the controller is further configured to generate a shear modulus image of the ROI by using the shear modulus which corresponds to the at least one point and to generate a strain image of the ROI by using the strain which corresponds to the at least one point, and the ultrasound imaging apparatus further comprises a display device configured to display the generated shear modulus image and the generated strain image simultaneously on a screen. 11 . An ultrasound image processing method comprising: transmitting at least one ultrasound signal to a region of interest (ROI) of an object and then receiving at least one ultrasound echo signal reflected from the ROI of the object; calculating a shear modulus which corresponds to at least one point in the ROI, based on the at least one received ultrasound echo signal; calculating a strain which corresponds to the at least one point, based on the at least one received ultrasound echo signal; and calculating a stress applied to the at least one point by using the calculated shear modulus and the calculated strain. 12 . The ultrasound image processing method of claim 11 , further comprising: generating first information which represents a compression stress applied to the object, based on the calculated stress; and displaying a user interface screen which includes the first information. 13 . The ultrasound image processing method of claim 11 , further comprising: recalculating the strain; based on a value which is obtainable by dividing the calculated strain by the calculated stress; and forming a strain image of the ROI by using the recalculated strain. 14 . The ultrasound image processing method of claim 13 , wherein the recalculating the strain comprises dividing the ROI into at least one region, calculating an average stress of each of the at least one region, and recalculating the strain based on a value which is obtainable by dividing the calculated strain by the calculated average stress. 15 . The ultrasound image processing method of claim 11 , wherein the calculating the stress applied to the at least one point by using the calculated shear modulus and the calculated strain comprises determining a value which is proportional to a product of the calculated shear modulus and the calculated strain as the stress. 16 . The ultrasound image processing method of claim 11 , wherein the calculating the stress applied to the at least one point by using the calculated shear modulus and the calculated strain comprises acquiring a shear modulus map of the ROI by using the calculated shear modulus which corresponds to the at least one point, acquiring a strain imaging map of the ROI by using the calculated strain which corresponds to the at least one point, and calculating the stress which corresponds to the ROI based on the acquired shear modulus map and the acquired strain imaging map. 17 . The ultrasound image processing method of claim 11 , wherein the at least one ultrasound signal comprises a first ultrasound signal used to generate a reference image, a second ultrasound signal that is a focused ultrasonic pulse used to apply an acoustic force to the ROI, and a third ultrasound signal used to calculate a displacement of the at least one point in the ROI, which is generated by the acoustic force and a pressure applied via an ultrasound probe, and the at least one ultrasound echo signal comprises a first ultrasound echo signal which corresponds to the first ultrasound signal and a third ultrasound echo signal which corresponds to the