RADIAL ACCESS METHODS AND APPARATUS
Radial access methods and apparatus are described for facilitating the securement of the patient's limb for a radial procedure as well as to accommodate for the re-positioning of the patient's body. A radial table assembly may generally comprise a platform defining a surface which is sized to support the limb of the patient, an interface portion attached at a distal end of the platform, wherein the interface portion is radio-lucent and extends at a distance from the platform, and a cradle member rotatably connected to the platform at a location proximal to the interface portion. In other variations, the interface portion is reconfigurable relative to the platform such that an angled edge is reversible relative to the platform.
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This application is a continuation of U.S. patent application Ser. No. 14/166,556 filed Jan. 28, 2014 (now U.S. Pat. No. 9,211,099), which claims the benefit of priority to U.S. Provisional Patent Application Ser. Nos. 61/850,097 filed Feb. 7, 2013 and 61/962,262 filed Nov. 4, 2013, each of which is incorporated herein by reference in its entirety.
FIELD OF THE INVENTIONThe present invention relates to methods and apparatus for facilitating radial access procedures. More particularly, the present invention relates to methods and apparatus for facilitating radial access procedures when repositioning the patient is needed or desired.
BACKGROUND OF THE INVENTIONCardiac catheterization procedures generally utilize a catheter passed through a major artery, such as a femoral artery, to access a patient's heart Yet access to the intravascular and cardiac systems may also be achieved through a radial artery and is generally believed to be more convenient and may also reduce both the length of the procedure and the risk of complications during the procedure. However, cardiac catheterization procedures often require the use of numerous surgical instruments including guidewires, intravascular balloons, stems, etc.
Moreover, imaging systems such as fluoroscopes or other imaging machines are typically utilized during catheterization procedures. Due to the size and weight of these machines, imaging various tissue regions within the patient's body often necessitates re positioning of the body relative to the imaging system. This requires physically moving the patient's body. However, because of the number of instruments used during a radial access procedure, re-positioning the patient's body is difficult and cumbersome.
Previous devices have been developed to facilitate radial access. Such devices have included the use of boards or surfaces which extend from the platform upon which the patient is positioned. Such boards are typically clamped or otherwise secured to the platform for supporting, the patient's limb, such as their arm, to extend from the body to provide radial access. However, such boards are cumbersome to use in a surgical setting and tail to provide a stable platform upon which instruments can be placed.
Other devices have included the use of arm boards or platforms supported by pivoting or jointed arms which can be clamped upon the catheter laboratory table or a separate supporting structure. While such pivoted or jointed arms are able to support a patient's arm for a radial procedure, these devices still fail to provide any stable platform for instruments and further fail to address the need for moving or re-positioning the patient's body relative to an imaging system.
Accordingly, there exists a need for methods and devices which are able to support any number of instruments for radial access as well as facilitate re-positioning of the patient's body during a radial access procedure.
SUMMARY OF THE INVENTIONIn accessing a radial vessel, e.g., for an interventional procedure, the limb of the patient, such as an arm, is generally positioned to extend the wrist and expose a radial artery. To facilitate the securement of the patient's limb fur a radial procedure as well as to accommodate for the re-positioning of the patient's body, a radial table assembly as described may be utilized. The table assembly may generally comprise a platform defining a surface which is sized to support the limb of the patient, an interface portion attached at a distal end of the platform, wherein the interface portion is radio-lucent and extends at a distance from the platform, and a cradle member rotatably connected to the platform at a location proximal to the interface portion. In other variations, the interface portion is reconfigurable relative to the platform such that an angled edge is reversible relative to the platform.
The cradle assembly itself may be generally comprised of a cradle member which is configured to receive and support the limb of the patient, a connection interface configured to rotatably secure the assembly to a first platform, and a support arm rotatably extending from the connection interface and rotatably coupled to the cradle member, wherein a position and an orientation of the cradle member is dependent upon a position and an orientation of a second platform.
In use, one method for positioning the patient body with respect to the radial table assembly may generally comprise positioning the limb of the patient body upon the cradle member which is movably attached to a first platform sized to support the limb, moving a second platform upon which the patient body is placed, where the second platform is in proximity to the first platform, and moving the cradle member relative to the first platform in a manner corresponding to a movement of the second platform such that a position or orientation of the cradle member is dependent upon a position or orientation of the second platform when the limb is positioned upon the cradle member.
One example of a radial table assembly may generally comprising a back table supported by one or more legs, a radial table portion extending from the back table, and an interface portion further extending from the radial table portion, e.g., in a cantilevered manner. The interface portion may define an angled edge which allows for the table assembly to be positioned relatively at an angle and in close proximity to or adjacent to a catheter laboratory table and provide a platform upon which the patient's limb such as the arm) may be extended from the patient body positioned upon the table. The table assembly may provide surgeons and practitioners a comfortable way to facilitate procedures, e.g., angiography, percutaneous interventions, etc., through the radial artery.
The back table may comprise a surgical table or platform and the radial table portion may be attached to a distal edge of the back table along an optionally hinged or pivoting interface and having a width of e.g., 12-48 inches or more, and a length of e.g., up to 20 inches or longer. The interface portion may be secured at a distal end of the radial table portion also along an optionally hinged or pivoting interface and may have a similar width as the radial table portion. The interface portion may extend at a distance and terminate at its distal end at the angled edge which may have an angle ranging anywhere from, e.g., 10 degrees and up to 90 degrees (or more particularly 45-55 degrees), relative to the length of the table assembly. While each of the back table and radial table portion may be comprised of various materials which are radio-opaque, e.g., stainless steel, the interface portion may be comprised of a radio-lucent material which is optionally anti-bacterial or able to be disinfected, e.g., various polycarbonate materials such as Lexan® (SABIC Innovative Plastics), ultra-high-molecular-weight polyethylene (UHMW), etc. Having the interface portion comprised of a radio-lucent material may allow for an imaging device such as a fluoroscope (or any other suitable imaging device) to penetrate and image the proximal upper sections of the patient's limb, if needed.
A cradle assembly may be rotatably secured to the radial table assembly within any one of the connection interfaces which may be aligned along, e.g., the proximal edge of the radial table portion. The cradle assembly may be optionally positioned in any of the connection interfaces depending upon the positioning of the patient body along the catheter laboratory table. The cradle assembly itself may generally comprise a cradle member having a length of, e.g., up to 10 inches or more, and a width of, e.g., 6 inches or more, and which is configured to define a channel to comfortably receive the patient's wrist, forearm, and hand. An optional proximal cradle member may extend adjustably via an extension arm from the cradle member to support the patient's upper arm if needed or desired. The cradle member and optional proximal cradle member may each be fabricated from either a radio-opaque material (such as stainless steel) or from a radio-lucent material (such as polycarbonate) to further allow for imaging of the forearm and hand of the patient if also desired.
The cradle assembly may define two points of rotation or articulation to enable the rotation of the cradle member relative to a support arm which couples the cradle assembly to the connection interface and to also enable the rotation of the support arm relative to the connection interface and radial table. With the patient body positioned upon the catheter laboratory table, the limb and particularly the hand and wrist may be extended and secured upon a cradle member with the patient's fingers optionally secured to the distal end of the cradle member to extend the wrist. With the limb secured and optionally draped, the radial artery may be readily accessed by any number of percutaneous access or surgical procedures. The surgeon and/or practitioner may be positioned between the catheter laboratory or operating table and the radial table assembly while any number of instruments or interventional tools may be placed or extended upon the radial table portion and/or back table.
However, if the patient body requires repositioning relative to the imaging device positioned above and below the patient and laboratory table, the laboratory table may be translated either along its length or width while keeping the limb secured to the cradle member. Hence, as the patient body moves relative to the imaging device and relative to the radial table assembly, the patient's limb may also be repositioned in a manner corresponding to the repositioning of the patient body due to the rotation of cradle member (and the hand and wrist positioned upon the cradle member) relative to the support arm and also the rotation of the support arm relative to the radial table portion without interference with the surgeon or practitioner. These two points of rotation of the cradle member and the support arm relative to the radial table may allow for a full 360 degrees or movement. Alternatively, the rotation of one or both of the cradle member and support arm relative to the radial table portion may be limited to rotate within specified ranges, if so desired. In either case, because the orientation of the patient's limb may be automatically maintained relative to the patient's body despite any translation of the body relative to the imaging device and/or radial table assembly, any instruments or tools extending from the patient's limb and laid upon the back table may be left in place rather than moved to accommodate movement of the patient body.
Because the radial table assembly may be utilized with a number of different imaging devices, the assembly may be designed to accommodate an imaging system such as a fluoroscope. Such systems typically utilize a C-arm having a detector and x-ray transmitter positioned in apposition to one another at either end of the C-arm. While the imaging system is generally stationary relative to the laboratory table and radial table assembly, the C-arm may be rotatably adjustable for obtaining images of the underlying patient body at various angles. To accommodate such movement of the imaging system, the radial table assembly may be configured to have the radial table portion and interface portion extend at a distance, anywhere from a foot or up to several feet (or more particularly between 5-6 feet), from the back table in a cantilevered manner to provide for sufficient clearance distance beneath the table in the event that the transmitter (or any other instrument) is positioned beneath the assembly. This cantilevered feature may be incorporated into any of the various embodiments of the table assembly shown or described herein. Measurements and dimensions with respect to the radial table assembly are provided as illustrative examples and may be varied or customized to suit any number of patients as desired.
Because the interface portion defines an angled edge, the interface portion may be adjustably attached to the radial table portion. Yet another feature may include the radial table portion being retractably folded along its interface relative to the back table. Other variations of the radial table may include embodiments where the radial table may be secured or clamped directly to the catheter laboratory table via one or more securement mechanisms (e.g., clamps, etc.) aligned along the angled edge. While other variations include radial table assemblies which may be secured to a separate back table.
Additional features and/or accessories may be utilized in combination. For instance, a radiation shield may be attached along, the radial table edge. The radiation shield may be attached along any of the edges of the table assembly in proximity to the surgeon or practitioner to provide for additional shielding against, e.g., x-rays, which may be emitted by imaging devices typically used to image the patient's body. Other features may include one or more cushion supports which are configured and shaped for use along the cradle member may be provided with the radial table assembly or separately, Additionally, surgical drapes configured for use with the table assembly or any number of instruments or displays which are positionable upon the back table or radial table may also be provided, if so desired. All or any one of these accessories may be provided in a kit along with the radial table assembly or they may be provided separately.
In accessing a radial vessel, for an interventional procedure, the limb of the patient is typically extended away from the body and secured to provide a stable insertion pathway for any number of instruments such as catheters, guidewires, intravascular balloons, stent scat etc. The limb of the patient, such as an arm, is generally positioned to extend the wrist and expose a radial artery.
One example of a radial table assembly 10 is illustrated in the perspective view of
The back table 12 may comprise a surgical table or platform defining a surface S and the radial table portion 14 may be attached to a distal edge of the hack table 12 along, an optionally hinged or pivoting interface 20 and having a width of e.g., 12-48 inches or more, and a length of, e.g., up to 20 inches or longer. The interface portion 16 may be secured at a distal end of the radial table portion 14 also along an optionally hinged or pivoting interface 22 and may have a similar width as the radial table portion 14. The interface portion 16 may extend at a distance and terminate at its distal end at the angled edge 18 which may have an angle ranging anywhere from, e.g., 10 degrees and up to 90 degrees (or more particularly 45-55 degrees), relative to the length of the table assembly 10. While each of the back table 12 and radial table portion 14 may be comprised of various materials which are radio-opaque, e.g., stainless steel, the interface portion 16 may be comprised of a radio-lucent material which is optionally anti-bacterial or able to be disinfected, e.g., various polycarbonate materials such as Lexan® (SABIC Innovative Plastics), ultra-high-molecular-weight polyethylene (UHMW), etc. Having the interface portion 16 comprised of a radio-lucent material may allow for an imaging device such as a fluoroscope (or any other suitable imaging, device) to penetrate and image the proximal upper sections of the patient's limb LM, if needed.
A cradle assembly 24 may be rotatably secured to the radial table assembly 10 within any one of the connection interfaces 34, 36, 38 which may be aligned along, e.g., the proximal edge of the radial table portion 14 as shown. The cradle assembly 24 may be optionally positioned in any of the connection interfaces 34, 36, 38 depending upon the positioning of the patient body PT along the catheter laboratory table 40. The cradle assembly 24 itself may generally comprise a cradle member 26 having a length of, e.g., up to 10 inches or more, and a width of, e.g., 6 inches or more, and which is configured to define a channel to comfortably receive the patient's wrist, forearm, and hand HS. An optional proximal cradle member 28 may extend adjustably via an extension arm 30 from the cradle member 26 to support the patient's upper arm if needed or desired. The cradle member 26 and optional proximal cradle member 28 may each be fabricated from either a radio-opaque material (such as stainless steel) or from a radio-lucent material (such as polycarbonate) to further allow for imaging of the forearm and hand of the patient if also desired.
The cradle assembly 24 may define two points of rotation or articulation to enable the rotation of the cradle member 26 relative to a support arm 32 which couples the cradle assembly 24 to the connection interface 34 and to also enable the rotation of the support arm 32 relative to the connection interface 34 and radial table 14. With the patient body PT positioned upon the catheter laboratory table 40, the limb LM and particularly the hand and wrist may be extended and secured upon a cradle member 26 with the patient's fingers optionally secured to the distal end of the cradle member 26 to extend the wrist. With the limb LM secured and optionally draped, the radial artery may be readily accessed by any number of percutaneous access or surgical procedures. The surgeon and/or practitioner may be positioned between the catheter laboratory table 40 (or operating table) and the radial table assembly 10 while any number of instruments or interventional tools may be placed or extended upon the radial table portion 14 and/or back table 12.
However, if the patient PT body requires repositioning relative to the imaging device positioned above and below the patient PT and laboratory table 40, the laboratory table 40 may be translated either along its length or width while keeping the limb LM secured to the cradle member 26. Hence, as the patient body PT moves relative to the imaging device and relative to the radial table assembly 10, the patient's limb LM may also be repositioned in a manner corresponding to the repositioning of the patient body PT due to the rotation of cradle member 26 (and the hand and wrist positioned upon the cradle member 26) relative to the support arm 32 and also the rotation of the support arm 32 relative to the radial table portion 14 without interference with the surgeon or practitioner. These two points of rotation of the cradle member 26 and the support arm 32 relative to the radial table may allow for a full 360 degrees or movement. Alternatively, the rotation of one or both of the cradle member 26 and support arm 32 relative to the radial table portion 14 may be limited to rotate within specified ranges, if so desired. In either case, because the orientation of the patient's limb LM may be automatically maintained relative to the patient's body PT despite any translation of the body PT relative to the imaging device and/or radial table assembly 10, any instruments or tools extending from the patient's limb LM and laid upon the back table 12 may be left in place rather than moved to accommodate movement of the patient body PT.
The radial table assembly centerline 60 is shown and the cradle assembly centerline 62 is also shown for illustrative purposes.
Another example is shown in the perspective views of
Because the radial table assembly 10 may be utilized with a number of different imaging devices, the assembly 10 may be designed to accommodate an imaging system 70 such as a fluoroscope, as shown in the perspective view of
Another feature of the table assembly 10 is shown in the perspective view of
Yet another feature is shown in the perspective view of
It is intended that both the rotatable interface portion 16 shown in
Aside from the rotation of the interface portion 16.
Turning now to the cradle assembly.
In yet another variation of the support arm,
Likewise, an insertion rod 132 may extend perpendicularly from the support arm 52 in a direction opposite to insertion rod 130 and may be rotatably inserted within connection interface 34 or any one of the other connection interfaces defined within the radial table 14. An interface collar 134 may also be defined around the insertion rod 132 adjacent to the support arm for contacting against the receiving support 50. One or more contact projections 136 may also project from the interface collar 134 to facilitate rotation of the support arm 52 relative to the connection interface 34 particularly when the weight of the patient's limb LM is bearing down upon the support arm 52.
Turning now to the table assembly,
Aside from the table assembly, additional features and/or accessories may be utilized in combination, One example is shown in the perspective view of
Moreover, it is further intended that any of the individual features described herein may be utilized in any number of combinations with any other feature as practicable.
The applications of the devices and methods discussed above are not limited to the support of arms but may include any number of further applications. Moreover, such devices and methods may be applied to other portions of the body. Modification of the above-described assemblies and methods for carrying out the invention, combinations between different variations as practicable, and variations of aspects of the invention that are obvious to those of skill in the art are intended to be within the scope of the claims.
Claims
1. A table assembly, comprising:
- a platform defining a surface which is sized to support a limb of a patient;
- an interface portion extending from a distal end of the platform, wherein the interface portion is radio-lucent and extends at a distance from the platform; and
- a cradle member rotatably connected to the platform at a location proximal to the interface portion, wherein the cradle member remains rotatable relative to the platform while supporting the limb,
- wherein the interface portion has a first edge contacting the distal end of the platform and also a second angled edge opposite to the first edge where the second angled edge is relatively longer than the first edge, and
- wherein the interface portion is rotatably adjustable about a longitudinal axis extending through the interface portion and the platform such that the second angled edge is reconfigurable in an opposite direction when the interface portion is rotated.
Type: Application
Filed: Dec 4, 2015
Publication Date: Mar 24, 2016
Applicant: G2 Medical, LLC (Monroe, LA)
Inventor: Gregory SAMPOGNARO (Monroe, LA)
Application Number: 14/960,053