Blood pump

The invention claimed is: 1 . A blood pump, comprising: a pump casing having: a blood flow inlet; a blood flow outlet; a passage connecting the blood flow inlet and the blood flow outlets; and an impeller arranged in said pump casing so as to be rotatable about an axis of rotation, the impeller being provided with at least one blade sized and shaped for conveying blood along the passage from the blood flow inlet to the blood flow outlet, the impeller rotatably connected to a supporting member, wherein the impeller defines a forward flow wash out channel comprising a first opening, a second opening and a clearance, the first opening being a wash out channel inlet and the clearance being a wash out channel outlet in fluid connection with the passage at a clearance transition point at a downstream side of the impeller, wherein the first opening of the forward flow wash out channel is disposed adjacent to the at least one blade of the impeller on a forward side of the at least one blade with respect to a direction of rotation such that during operation of the blood pump the first opening of the forward flow wash out channel is under a pressure that is higher than a pressure at the clearance transition point so as to cause a forward direction blood flow from the first opening through the forward flow wash out channel and the clearance to the clearance transition point, and wherein during operation of the blood pump, the pressure of an area of the impeller adjacent to the first opening of the forward flow wash out channel is higher than a median pressure with respect to a pressure distribution along a length of the passage where the impeller is situated. 2 . The blood pump of claim 1 , wherein the first opening of the forward flow wash out channel is disposed in a downstream half of the impeller. 3 . The blood pump of claim 1 , wherein during operation of the blood pump, the pressure of an area of the impeller where the first opening of the forward flow wash out channel is arranged is a maximum pressure with respect to the pressure distribution along the length of the passage where the impeller is situated. 4 . The blood pump of claim 1 , wherein the blood flow from the first opening through the forward flow wash out channel and the clearance to the clearance transition point is in a direction towards the blood flow outlet of the pump casing. 5 . The blood pump of claim 1 , wherein the impeller has a portion in a downstream direction extending radially outward, the first opening of the forward flow wash out channel being disposed in said portion. 6 . The blood pump of claim 1 , wherein the forward flow wash out channel is operatively associated with a secondary pump for pumping blood from the first opening through the forward flow wash out channel towards the clearance transition point, wherein the secondary pump is formed at least partially by said forward flow wash out channel extending through the impeller along a direction having at least one tangential directional component. 7 . The blood pump of claim 1 , wherein the forward flow wash out channel extends linearly through the impeller and is offset relative to the axis of rotation. 8 . The blood pump of claim 7 , wherein the forward flow wash out channel extends in a plane that is parallel to the axis of rotation. 9 . The blood pump of claim 1 , wherein the forward flow wash out channel is curved and extends from the first opening in a direction around the axis of rotation. 10 . The blood pump of claim 1 , wherein the impeller comprises a central opening extending along the axis of rotation, wherein the second opening is in fluid connection with the central opening. 11 . The blood pump of claim 1 , wherein the forward flow wash out channel at the second opening is directed towards the axis of rotation substantially in a radial direction, wherein a distance between the axis of rotation and the first opening is less than 50% of a distance between the axis of rotation and the clearance transition point. 12 . The blood pump of claim 11 , wherein the distance between the axis of rotation and the first opening is less than 40% of the distance between the axis of rotation and the clearance transition point. 13 . The blood pump of claim 12 , wherein the distance between the axis of rotation and the first opening is less than 30% of the distance between the axis of rotation and the clearance transition point. 14 . The blood pump of claim 1 , wherein a cross section of the first opening is circular or non-circular. 15 . The blood pump of claim 1 , wherein the first opening is formed by an end portion of the forward flow wash out channel that is at least partially exposed due to an incline of the forward flow wash out channel relative to a surface of the impeller. 16 . The blood pump of claim 1 , wherein the clearance is between the impeller and the pump casing. 17 . A blood pump, comprising: a pump casing having: a blood flow inlet; a blood flow outlet; a passage connecting the blood flow inlet and the blood flow outlet; and an impeller arranged in said pump casing so as to be rotatable about an axis of rotation, the impeller being provided with at least one blade sized and shaped for conveying blood along the passage from the blood flow inlet to the blood flow outlet, the impeller rotatably connected to a supporting member, wherein the impeller defines a forward flow wash out channel comprising a first opening, a second opening and a clearance, the first opening being a wash out channel inlet and the clearance being a wash out channel outlet in fluid connection with the passage at a clearance transition point at a downstream side of the impeller, wherein the first opening of the forward flow wash out channel is disposed adjacent to the at least one blade of the impeller on a forward side of the at least one blade with respect to a direction of rotation such that during operation of the blood pump the first opening of the forward flow wash out channel is under a pressure that is higher than a pressure at the clearance transition point so as to cause a forward direction blood flow from the first opening through the forward flow wash out channel and the clearance to the clearance transition point, and wherein the forward flow wash out channel extends from the first opening at an angle relative to a surface of the impeller in a circumferential direction opposite a direction of rotation, wherein the angle is less than 20°. 18 . The blood pump of claim 17 , wherein the angle is less than 15°. 19 . The blood pump of claim 18 , wherein the angle is less than 10°. 20 . A blood pump, comprising: a pump casing having: a blood flow inlet; a blood flow outlet; a passage connecting the blood flow inlet and the blood flow outlet; and an impeller arranged in said pump casing so as to be rotatable about an axis of rotation, the impeller being provided with at least one blade sized and shaped for conveying blood along the passage from the blood flow inlet to the blood flow outlet, the impeller rotatably connected to a supporting member, wherein the impeller defines a forward flow wash out channel comprising a first opening, a second opening and a clearance, the first opening being a wash out channel inlet and the clearance being a wash out channel outlet in fluid connection with the passage at a clearance transition point at a downstream side of the impeller, wherein the first opening of the forward flow wash out channel is disposed adjace