Red blood cell separation method
First Claim
1. A method for centrifugally separating whole blood into red blood cells and a plasma constituent comprising the steps ofrotating a separation zone about a rotational axis, the rotating separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side, the spaced apart walls defining a blood flow path that extends circumferentially about the rotation axis, the rotating separation zone including an entry region where whole blood enters the rotating separation zone to begin separation and a terminal wall that is circumferentially spaced from the entry region, where flow is halted,directing whole blood into the rotating separation zone through a first path adjacent the entry region, to begin separation of the whole blood into red blood cells toward the high-G side and plasma constituent toward the low-G side,directing red blood cells separated in the separation zone in a circumferential flow direction toward the terminal wall, anddirecting separated red blood cells from the rotating separation zone through a second path that communicates with the separation zone adjacent the terminal wall such that substantial plasma constituent can not flow circumferentially past or into the second path, the second path including a portion that is recessed into the high-G wall.
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Accused Products
Abstract
A method for centrifugally separating whole blood into red blood cells and a plasma constituent rotates about a rotational axis a separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side. Whole blood enters the rotating separation zone in an entry region to begin separation. Separation is halted by a terminal wall that is circumferentially spaced from the entry region. The whole blood separates into red blood cells toward the high-G side and plasma constituent toward the low-G side. The method directs red blood cells separated in the separation zone in a circumferential flow direction toward the terminal wall. The method directs separated red blood cells from the rotating separation zone through a second path that extends, at least in part, radially beyond the high-G wall.
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Citations
16 Claims
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1. A method for centrifugally separating whole blood into red blood cells and a plasma constituent comprising the steps of
rotating a separation zone about a rotational axis, the rotating separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side, the spaced apart walls defining a blood flow path that extends circumferentially about the rotation axis, the rotating separation zone including an entry region where whole blood enters the rotating separation zone to begin separation and a terminal wall that is circumferentially spaced from the entry region, where flow is halted, directing whole blood into the rotating separation zone through a first path adjacent the entry region, to begin separation of the whole blood into red blood cells toward the high-G side and plasma constituent toward the low-G side, directing red blood cells separated in the separation zone in a circumferential flow direction toward the terminal wall, and directing separated red blood cells from the rotating separation zone through a second path that communicates with the separation zone adjacent the terminal wall such that substantial plasma constituent can not flow circumferentially past or into the second path, the second path including a portion that is recessed into the high-G wall.
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5. A method for centrifugally separating whole blood into red blood cells and a plasma constituent comprising the steps of
rotating a separation zone about a rotational axis, the rotating separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side, a blood flow path that extends circumferentially about the rotation axis, the rotating separation zone including an entry region where whole blood enters the rotating separation zone to begin separation and a terminal wall that is circumferentially spaced from the entry region, where flow is halted, directing whole blood into the rotating separation zone through a first path adjacent the entry region, to begin separation of the whole blood into red blood cells toward the high-G side and plasma constituent toward the low-G side, directing red blood cells separated in the separation zone in a circumferential flow direction toward the terminal wall, and directing separated red blood cells from the rotating separation zone through a second path that extends, at least in part, radially beyond the high-G wall of an upstream separation zone, said part of the second path including a portion which defines a constricted channel that allows red blood cells to pass through the second path but substantially prevents the flow of plasma through the second path.
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8. A method for centrifugally separating whole blood into red blood cells and a plasma constituent comprising the steps of:
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rotating a separation zone about a rotational axis, the rotating separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side, the spaced apart walls defining a blood flow path that extends circumferentially about the rotation axis, the rotating separation zone including an entry region where whole blood enters the rotating separation zone to begin separation and a terminal wall that is circumferentially spaced from the entry region, where flow is halted, directing whole blood into the rotating separation zone through a first path adjacent the entry region, to begin separation of the whole blood into red blood cells toward the high-G side and plasma constituent toward the low-G side, directing red blood cells separated in the separation zone in a circumferential flow direction toward the terminal wall, and directing separated red blood cells from the rotating separation zone, in a circumferential flow direction, through a second path that extends, at least in part, radially beyond the high-G wall of an upstream separation zone such that the red blood cells pass through and beyond at least said part of second path and the second path substantially prevents the flow of plasma therethrough. - View Dependent Claims (9, 10)
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11. A method for centrifugally separating a biological fluid into at least one higher density component and at least one lower density component, which includes plasma, the method comprising the steps of:
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rotating a separation zone about a rotational axis, the rotating separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side, the spaced apart walls defining a blood flow path that extends circumferentially about the rotational axis, the rotating separation zone including an entry region where the biological fluid enters the rotating separation zone to begin separation and a terminal wall that is circumferentially spaced from the entry region, flowing the biological fluid into this rotating separation zone through a first path adjacent the entry region, to begin separation of the biological fluid into said at least one higher density component toward the high-G side and said at least one lower density component toward the low-G side, flowing said at least one higher density component separated in the separation zone in a circumferential flow direction toward the terminal wall, removing said at least one lower density component from the rotating separation zone through a second path that terminates at the low-G wall, and removing said at least one higher density component from the rotating separation zone through a third path located closer to the terminal wall than the second path, the third path including a portion that is recessed into the high-G wall. - View Dependent Claims (12, 13)
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14. A method for centrifugally separating a biological fluid into at least one higher density component and at least one lower density component, which includes plasma, the method comprising the steps of:
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rotating a separation zone about a rotational axis, the rotating separation zone having radially spaced apart walls with a high-G side and a low-G side located closer to the rotational axis than the high-G side, the spaced apart walls defining a blood flow path that extends circumferentially about the rotational axis, the rotating separation zone including an entry region where the biological fluid enters the rotating separation zone to begin separation and a terminal wall that is circumferentially spaced from the entry region, flowing the biological fluid into this rotating separation zone through a first path adjacent the entry region, to begin separation of the biological fluid into said at least one higher density component toward the high-G side and said at least one lower density component toward the low-G side, flowing said at least one higher density component separated in the separation zone in a circumferential flow direction toward the terminal wall, and removing said at least one higher density component from the rotating separation zone through a second path that communicates with the separation zone adjacent the terminal wall such that a substantial amount of said at least one lower density component cannot flow circumferentially past or into the second path, the second path including a portion that is recessed into the high-G wall. - View Dependent Claims (15, 16)
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Specification