In vertebroplasty, the surgeon seeks to treat a compression fracture of a vertebral body by injecting bone cement such as PMMA into the fracture site. One clinical report describes mixing two PMMA precursor components (one powder and one liquid) in a dish to produce a viscous bone cement; filling 10 cc syringes with this cement, injecting it into smaller 1 cc syringes, and finally delivering the mixture into the desired area of the vertebral body through needles attached to the smaller syringes.
The conventional access needle used in a vertebroplasty procedure is a simple straight cannula extending along a single longitudinal axis, and has a handle formed near its proximal end. A single delivery port made from a luer connection is typically located at the proximal end of the cannula. The distal end of an injection syringe is typically attached to this delivery port via the luer connection. Typically, a stylet may also be placed within the cannula from the proximal end of the cannula in order to stabilize the cannula during insertion into the vertebral bone.
Because of the single axis nature of this conventional design, the injection syringe is typically connected to the proximal port of the cannula so that the injection syringe is also aligned along the same longitudinal axis. When this assembly is placed upon the prone patient's back, it typically sticks straight up in a vertical direction. Actuation of a vertically-disposed and vertically-displaced delivery syringe may be ergonomically challenging to the surgeon or clinician.
U.S. Pat. No. 6,916,292 (“Morawski”) discloses a bone biopsy needle having a single access port and a cannula that does not extend along a straight longitudinal axis, but rather curves near the proximal end. Because of its curved nature, this needle can not accommodate the insertion of a conventional straight stylet. The stylet is particularly important in percutaneous vertebroplasty procedures, as tracts of implant materials may be left in the body in unwanted locations if the access needle has not been cleared.
U.S. Pat. No. 6,302,852 (“Fleming III”) discloses a bone marrow biopsy needle including an outer cannula having a proximal end, a distal end, a hollow section therebetween and a handle portion associated with the proximal end, and an inner rod having a proximal end, a distal end and a handle cap. The handle portion further includes a grip enhancement member which is formed from a material distinct from at least a portion of the handle portion, such as rubber. The grip enhancement member may take the form of insert members which fit into cavities in the handle portion of the outer cannula. The grip enhancement member not only enhances the gripping surface of the bone marrow biopsy needle, but also provides cushioning for a user and adds weight to the handle portion to facilitate weight distribution throughout the outer cannula handle.
U.S. Pat. No. 6,875,183 (“Cervi”) discloses a biopsy needle for sampling bone marrow tissue, comprising a handle, and tissue sampling means comprising a sampling tube with a bore therein to receive a tissue sample, the outer surface of the sampling tube having an abrading formation extending in an axial direction along the tube, for abrading the sampled tissue, to permit the cannula tip to be laterally displaced whilst the tube is inserted into the bone marrow tissue. A biopsy needle for sampling bone marrow tissue, comprising a handle, tissue sampling means comprising a sampling tube with a bore therein to receive a tissue sample, and coupling means, separable from the needle, for coupling the needle to a rotary motor drive, whereby the needle is adaptable to both manual insertion and motor-assisted insertion.
U.S. Pat. No. 6,582,439 (“Sproul”) discloses an orthopedic surgical kit for inserting a biological material into the cancellous portion of bone by a minimally invasive technique has several components which are manually operated using a universal handle. The kit includes a docking needle used as a guide for placing a cannula in a bone. The cannula is filled with a biological material, for support or treatment of the bone, and the material is expressed from the cannula by a plunger.
One object of the present invention is to provide the surgeon a more ergonomic means of delivering a viscous material through a needle.
The invention provides a more ergonomic approach to delivery of viscous materials used in percutaneous vertebroplasty and kyphoplasty procedures. The needle of the present invention includes a second off-angle cannula whose proximal end is used as the delivery port for an injection syringe. The distal end of this second needle then merges with the first cannula at an angle within the handle of the needle to provide fluid connection with the first cannula. This new needle provides a more horizontal posture to the injection syringe upon its connection with the off angle cannula and therefore provides a better ergonomic and tactile feel for implant delivery.
Therefore, in accordance with the present invention, there is provided an injection needle for use in percutaneous vertebroplasty, comprising:
Now referring to
In some embodiments, the tube component of the present invention can be formed of a material that is distinct from the surrounding handle. In other embodiments, the tube is formed by simply making a throughbore in the surrounding handle.
When assembled, the needle comprises a bone access port at its distal end, and two ports on its proximal end. The proximal end of the needle includes a first pathway to the bone access port to accommodate a stylet and a second pathway to the bone access port for attachment of a cement injection system. The second pathway is more horizontally disposed than the first pathway, allowing for improved positioning and ergonomics during delivery of the viscous implant material. The first and second tubes meet at a junction and form an angle α.
Now referring to
In other embodiments, the second pathway is directed at a lateral angle (i.e., to the left or right of the handle). In other embodiments, the angle is rotatably adjustable.
This invention provides multiple pathways to the bone access port of an access needle for PV procedures, one of which is an access pathway for a straight stylet. It advantageously provides the surgeon with better positioning in relation to the proximal injection port during delivery of the implant material, while at the same time including the required stylet access for PV procedures.
The proper orientation of the proximal access port and delivery system may also eliminate the need for the extension tubing. Since the angled design of the present invention displaces the surgeon's hands laterally (in relation to the longitudinal axis of the second tube), it may also allow the surgeon's hands to be moved out of the fluoroscopy field during implant delivery without the use of an extension tube. Because extension tubes often impose additional pressure requirements upon the injection device, the elimination of the extension tube may reduce the pressure requirements to deliver the viscous implant material.
In some embodiments, a one-way valve or silicone plug is provided to prohibit backflow of implant material through the second proximal pathway. Typically, the one-way valve is located in the first tube at a location proximal of the junction. Alternatives to a one-way valve or silicone plug include a thumb-trigger that opens the second pathway when depressed, or a ball-plunger that retracts when the stylet is placed within the second pathway.
In order to prevent injection of material while the stylet is in place, the handle includes a feature to fully or partially cover the luer connection 33 (shown open in
In order to improve ergonomics, the luer connector to the delivery system may be placed at an angle to the handle or adapted to allow rotation to a preferred position. The use of allowable rotation provides a single beveled needle to be optimally oriented (typically anteriorly) while allowing the proximal inlet port to be oriented towards the surgeon. This not only provides improved ergonomics, it also may allow for elimination of extension tubing from the system.
Therefore, in accordance with the present invention, there is provided (claim 12) an injection needle for use in percutaneous vertebroplasty, comprising:
In order to increase surgeon visibility to the bone access site, the stylet may be removed from the handle. In so doing, most of the bulk of the handle is likewise removed.
Also, the handle may include two or more components that contain the stylet and the delivery access tube to the vertebral body. The handle may have a luer connection in the injection system that is partially or full contained within the removal stylet component.
Therefore, and now referring to
Preferably, the inner handle has a proximal surface 53, the proximal surface of the the outer handle forms a first plane, and the proximal surface of the inner handle lies substantially the first plane when the inner stylet is received within the throughbore of the outer tube
During the delivery of the cement and subsequent fluoroscopic assessment thereof, it appears that the large dimensions of the handle may sometimes obstruct the clinician's view of the injection site. This obstruction may be particularly problematic when the surgeon seeks to use the stylet as a tamp for tamping the bone cement that remains in the delivery tube. Therefore, in some embodiments of the present invention, the handle is manufactured as a modular component of the injection needle. The handle can be modularized by providing a first luer attachment at the distal end of the substantially longitudinal first tube, and a second luer attachment adapted to mate with the first luer attachment upon the delivery tube. Now referring to
During the manufacturing of long tubes or needles used in PV, there may be manufacturing remnant materials inherently remaining within the tube or on the stylet. This is typically seen as grey material within the cement during injection. While cleaning with brushes or high pressure fluids assists in removing some of the remnant material, there is typically some remnant material left behind. The present invention seeks to reduce the delivery to the patient of debris remaining from the manufacturing process. This is accomplished by providing a coating on the inside surface of the needle to encapsulate or cover the inside of the tube (or outside surface of the stylet). The inner surface of the needle may be coated with a variety of materials (i.e. PTFE (Teflon), or its surface may be conditioned by a variety of manufacturing methods (such as electropolishing or plating) that may cover up undesirable manufacturing debris present upon the inside of the needle, thereby precluding their delivery to the patient. In addition, such a coating may reduce the friction on the inner surface of the cannula, thereby easing the flow of the cement passing through the needle and requiring less pressure to deliver the implant material.
Therefore, in accordance with the present invention, there is provided (claim 13) injection needle for use in percutaneous vertebroplasty, comprising:
Now referring to
Therefore, in accordance with the present invention, there is provided (claim 20) a device for use in percutaneous vertebroplasty, comprising:
In some embodiments, the syringe can be replaced with a delivery device having a material reservoir and tubing adapted to deliver the cement from the reservoir to the proximal end opening of the second tube.
Preferred bone pastes include bone cements (such as acrylic-based bone cements, such as PMMA-based bone cements), pastes comprising bone particles (either mineralized or demineralized or both; and either autologous, allogenic or both), and ceramic-based bone cements (such as HA and TCP-based pastes).