Cardiovascular cannula and obturator
First Claim
1. An improved venous drainage cannula assembly for insertion into the superior and inferior vena cavae through a single incision in the right atrium of the heart, comprising:
- a tubular cannula member having a hollow tubular body with an interior central lumen defined by an interior wall surface, and a bifurcated tube end forming resilient tubular branches extending from a crotch section of the tubular body, each branch including a branch lumen opening into the central lumen;
wherein the resilient branches are normally oriented in diverging relaxed positions with respect to the tubular body to form a "T" configuration with the hollow tubular body;
an elongated obturator rod axially receivable within the cannula member;
a hub along the length of the obturator rod positioned thereon to be slidably received within the central lumen;
wherein the hub includes an annular wiping edge for slidably engaging the interior wall surface of the central lumen to prevent blood reflux through the control lumen upon insertion of the cannula branches into the atrium;
a pair of obturator legs projecting from the hub opposite the oburator rod for axially engaging the branches within the branch lumen, to selectively constrict the cannula branches together to facilitate insertion thereof through a single incision and for axial withdrawal relative to the cannula member to facilitate separation of the branches into their normal relaxed diverging positions, with one of the branches being received within the superior vena cava and the remaining branch being received in the inferior vena cava; and
means on the obturator for minimizing frictional resistance to axial movement of the obturator rod and legs upon insertion of the obturator legs into the cannula branches and withdrawal of the obturator from the cannula.
1 Assignment
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Accused Products
Abstract
An improved venous cannula and obturator for interconnecting the superior and the inferior vena cava to the venous return line of a heart-lung machine. The cannula includes a pair of resilient, divergent hollow branches. The branches are of unequal length. The longer branch is to be received within the inferior vena cava and the shorter branch is to be received in the superior vena cava. The open branch ends are thus longitudinally staggered when the branches are clamped together by the obturator to facilitate insertion of the branch ends through a single incision within the atrium and ultimate disposition of the branches in the superior and inferior vena cavae. The obturator includes an elongated rod with a hub having a pair of axial legs to be received within the branches of the cannula. The obturator is provided to be slidably received with minimal frictional resistance within the interior lumen of the cannula and the cannula branches. The obturator includes features to minimize frictional resistance to axial movement of the obturator in the cannula, and that facilitate release of the cannula branches to separate within the atrium.
180 Citations
22 Claims
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1. An improved venous drainage cannula assembly for insertion into the superior and inferior vena cavae through a single incision in the right atrium of the heart, comprising:
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a tubular cannula member having a hollow tubular body with an interior central lumen defined by an interior wall surface, and a bifurcated tube end forming resilient tubular branches extending from a crotch section of the tubular body, each branch including a branch lumen opening into the central lumen; wherein the resilient branches are normally oriented in diverging relaxed positions with respect to the tubular body to form a "T" configuration with the hollow tubular body; an elongated obturator rod axially receivable within the cannula member; a hub along the length of the obturator rod positioned thereon to be slidably received within the central lumen; wherein the hub includes an annular wiping edge for slidably engaging the interior wall surface of the central lumen to prevent blood reflux through the control lumen upon insertion of the cannula branches into the atrium; a pair of obturator legs projecting from the hub opposite the oburator rod for axially engaging the branches within the branch lumen, to selectively constrict the cannula branches together to facilitate insertion thereof through a single incision and for axial withdrawal relative to the cannula member to facilitate separation of the branches into their normal relaxed diverging positions, with one of the branches being received within the superior vena cava and the remaining branch being received in the inferior vena cava; and means on the obturator for minimizing frictional resistance to axial movement of the obturator rod and legs upon insertion of the obturator legs into the cannula branches and withdrawal of the obturator from the cannula. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An improved venous drainage cannula assembly for insertion into the superior and inferior vena cavae through a single incision in the right atrium of the heart, comprising:
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a tubular cannula member having a hollow tubular body with an interior central lumen, and a bifurcated tube end forming resilient tubular branches extending from a crotch section of the tubular body, each branch including a branch lumen opening into the central lumen; wherein the resilient branches are normally oriented in diverging relaxed positions with respect to the tubular body to form a "T" configuration with the hollow tubular body; an elongated obturator rod axially receivable within the cannula member; a hub along the length of the obturator rod positioned thereon to be slidably received within the central lumen; a pair of obturator legs projecting from the hub opposite the obturator rod for axially engaging the branches within the branch lumen, to selectively constrict the cannula branches together to facilitate insertion thereof through a single incision and for axial withdrawal relative to the cannula member to facilitate separation of the branches into their normal relaxed diverging configuration, with one of the branches being received within the superior vena cava and the remaining branch being received in the inferior vena cava; and means on the obturator for minimizing frictional resistance to axial movement of the obturator rod and legs upon insertion of the obturator legs into the cannula branches and withdrawal of the obturator from the cannula; and wherein the means for minimizing frictional resistance is comprised of release means for enabling selective movement of one of the obturator legs relative to the other between a release position wherein the obturator legs are spaced apart by a first distance and a gripping position wherein at least portions of the obturator legs are spaced apart by a second distance less than the first distance. - View Dependent Claims (10, 11)
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12. An improved obturator for a bifurcated cannula having a hollow tubular body with a resilient bifurcated end formed by a pair of normally diverging resilient cannula branches, comprising:
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an elongated rod having a forward end adapted to be slidably received axially within the hollow tubular body of the bifurcated cannula; a hub along the rod; a pair of obturator legs extending axially from the hub opposite the elongated rod to remote obturator leg ends adapted to be slidably received within the cannula branches; and release means for selectively moving one of the obturator legs relative to the remaining obturator leg between a first position wherein the obturator leg ends are spaced closely together and are thereby adapted to clamp the cannula branches securely together for insertion through a single incision into the atrium, and a second position wherein the obturator leg ends are separated from one another to thereby enable separation of the cannula branches within the atrium and to facilitate retraction of the obturator from the cannula with minimal frictional resistance. - View Dependent Claims (13, 14, 15, 16)
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17. An improved obturator for a bifurcated cannula having a hollow tubular body defining a central lumen and with a resilient bifurcated end formed by a pair of normally diverging resilient cannula branches, each having a branch lumen opening into the central lumen;
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an elongated rod having a cross-sectional dimension less than the cross-sectional dimension of the central lumen such that the elongated rod may be freely slidably received axially within the central lumen; a hub along the length of the rod; a pair of obturator legs extending longitudinally from the hub, each having a cross-sectional dimension less than the cross-sectional dimensions of the branch lumen such that the legs are slidably received within the branch lumen and having facing surfaces thereon spaced transversely with respect to the length of the rod for slidably tangentially engaging walls of the branch lumens and camming the cannula branches together upon axial insertion of the obturator legs into the cannula branches and for permitting the cannula branches to resiliently separate upon withdrawal of the obturator legs axially with respect to the cannula branches; wherein the elongated rod and one of the obturator legs are integral; and wherein the hub includes a bore movably receiving the integral rod and the one obturator leg. - View Dependent Claims (18, 19, 20, 21, 22)
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Specification