-　The　rhythm　of　the　heart　endows　us　with　not　only　a　life　insurance　but　also　a　barometer　indicating　any　potential　abnormities.　Hence　the　accurate　measurement　of　heart　motion　has　profound　clinical　benefit　in　assisting　diagnostic　decision　making　and　yet　remains　a　challenging　issue　to　be　confronted.　Perceptibly,　heart　motion　can　be　quantified　manually　from　M-mode　diagrams　of　echocardiographs　which　are　created　by　way　of　sound　waves　while　a　patient　undergoing　scanning.　Alternatively,　the　motion　can　be　monitored　automatically　by　post-image　processing　techniques　analyzing　B-mode　video　sequences.　This　paper　explores　the　feasibility　of　the　application　of　Lucas-Kanada-Tomasi　algorithm　towards　the　reconstruction　of　m-mode　diagrams　from　2D　sequences　and　tissue　velocity　curves　from　3D　video　clips　for　the　left　ventricle.　Preliminary　results　reveals　promising　match　between　the　post-processing　findings　and　real-time　scanning　data　and　being　in　consistent　agreement　with　the　similar　studies.　©　2013　CSREA　Press.　All　rights　reserved.