PENETRATOR ASSEMBLY FOR ACCESSING BONE MARROW

Description

TECHNICAL FIELD

[0001] The present invention is related in general to a medical device to access bone marrow and more specifically to an apparatus for penetrating a bone and inserting a penetrator or needle into associated bone marrow.

BACKGROUND OF THE INVENTION

[0002] Every year, millions of patients are treated for life-threatening emergencies in the United States. Such emergencies include shock, trauma, cardiac arrest, drug overdoses, diabetic ketoacidosis, arrhythmias, burns, and status epilepticus just to name a few. For example, according to the American Heart Association, more than 1,500,000 patients suffer from heart attacks (myocardial infarctions) every year, with over 500,000 of them dying from its devastating complications.

[0003] An essential element for treating all such emergencies is the rapid establishment of an intravenous (IV) line in order to administer drugs and fluids directly into the circulatory system. Whether in the ambulance by paramedics, or in the emergency room by emergency specialists, the goal is the same - to start an IV in order to administer life-saving drugs and fluids. To a large degree, the ability to successfully treat such critical emergencies is dependent on the skill and luck of the operator in accomplishing vascular access. While it is relatively easy to start an IV on some patients, doctors, nurses and paramedics often experience great difficulty establishing IV access in approximately 20 percent of patients. These patients are probed repeatedly with sharp needles in an attempt to solve this problem and may require an invasive procedure to finally establish an intravenous route.

[0004] A further complicating factor in achieving IV access occurs "in the field" e.g. at the scene of an accident or during ambulance transport where it is difficult to see the target and excessive motion make accessing the venous system very difficult.

[0005] In the case of patients with chronic disease or the elderly, the availability of easily-accessible veins may be depleted. Other patients may have no available IV sites due to anatomical scarcity of peripheral veins, obesity, extreme dehydration or previous IV drug use. For these patients, finding a suitable site for administering lifesaving drugs becomes a monumental and frustrating task. While morbidity and mortality statistics are not generally available, it is known that many patients with life-threatening emergencies have died of ensuing complications because access to the vascular system with life-saving IV therapy was delayed or simply not possible. For such patients, an alternative approach is required.

[0006] Many medical devices such as syringes, hypodermic needles, catheters, IV tubing and stop cocks may include either a pin (male) or box (female) Luer type fitting. The pin end or box end may include threads which allow releasably engaging an associated medical device with other equipment having a complimentary Luer type fitting. Luer type connections may sometimes be described as Luer slips or Luer locks. Luer slips may require a half twist of an associated collar to securely engage a pin end and a box end with each other. A Luer lock functions by forming a watertight fit between a pin and a box when engaged and when twisted by a half turn or more. Luer locks frequently include a threaded locking collar on a box end which mates with ears or projections from an associated pin end to provide a more positive, locked connection. Luer connections generally form fluid tight seals. Some Luer connections may include tapered fittings.

[0007] US2003/0225411A1 describes an apparatus and method for penetrating bone marrow. The apparatus includes a housing such as a handheld body, a penetrator assembly, a connector that releasably attaches the penetrator assembly to a drill shaft, a gear mechanism, a motor and a power supply and associated circuitry operable to power the motor. The penetrator assembly may include a removable inner trocar and an outer penetrator or needle.

[0008] US6221029 describes a universal biopsy system for performing percutaneous medical procedure. The biopsy system includes a cannula assembly removably coupled to a handle. The releasable coupling structures of the handle and the cannula assembly allow for rotational displacement of the cannula assembly using the handle, as well as the application of an axially directed force, either toward or away from the patient.

[0009] US4543966 describes biopsy needles comprising an elongate hollow needle having a front end portion of smaller internal cross-section than the remainder of the needle, with an internal shoulder or step where the said front portion adjoins the wider internal portion of the needle. The shoulder is adapted to break or cut the biopsy from the remainder of the marrow and retain it within the needle.

SUMMARY OF THE INVENTION

[0010] The apparatus for manually penetrating a bone and associated bone marrow according to the invention is defined in claim 1. Preferred embodiments of the apparatus are defined in the dependent claims. The surgical methods disclosed do not form part of the claimed invention. I

[0011] In accordance with an example implementation, an apparatus for communicating with or accessing bone marrow of a bone are provided. The apparatus includes a handle having a drive shaft, a connector having a first end operable to connect to the drive shaft and a second end operable to attach to a penetrator hub. The penetrator is operable to access the bone marrow.

FURTHER DISCLOSURE

[0012] A method of accessing bone marrow of a bone is disclosed. The method may include inserting a penetrator into the bone marrow using an apparatus having a handle, a drive shaft and a connector with a first end operable to connect to the drive shaft and a second end operable to connect to a penetrator assembly. For some applications, a trocar may be disposed within the penetrator assembly. After inserting portions the penetrator assembly into the bone marrow, the handle and connector may be detached from the penetrator assembly. The trocar, when used, may be removed from the penetrator assembly and associated penetrator.

[0013] In various embodiments of the apparatus the handle may be T-shaped, pistol-shaped, round or oval-shaped, an ergonomically designed grip or any other shape suitable for general or specific use. In various embodiments the handle may include a compartment for enclosing an interosseous needle, a penetrator and associated trocar or any other accessory suitable for use with the apparatus.

[0014] In another exemplary disclosure a power driven apparatus for penetrating bone marrow of a bone may be provided. The apparatus may include a housing, a motor, a gear assembly, at least one drive shaft and a power source, and at least one drive shaft operable to connect to an auxiliary device and further operable to provide rotational energy to the auxiliary device. In various further example, the auxiliary devices may include a ring cutter, a suction machine, or a flashlight.

[0015] Apparatus incorporating teachings of the present invention may be used to access the bone marrow of any bone in a human or animal's body for any purpose including the delivery of fluids, medications, drugs, chemicals and any other bioactive substances including blood. Teachings of the present invention may also be used for harvesting bone marrow and/or stem cell. Teachings of the present invention may also be used to access body tissue or body cavities other than bone marrow in a human or animal species.

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] A more complete and thorough understanding of the present embodiments and advantages thereof may be acquired by referring to the following description taken in conjunction with the accompanying drawings, in which like reference numbers indicate like features, and wherein Fig. 1A-4B, 6A-6B illustrate embodiments of the invention:

FIGURE 1A shows an example illustration of an apparatus operable for penetrating bone marrow of a bone;

FIGURE 1B is a schematic drawing showing an exploded view of the apparatus in FIGURE 1A;

FIGURE 1C is a schematic drawing showing an end view of the apparatus in FIGURE 1A;

FIGURE 1D is a schematic drawing showing one example of driver and connector incorporating teachings of the present invention;

FIGURE 1E is a schematic drawing showing an example of a penetrator assembly which may be releasably engaged with a handle in accordance with teachings of the present invention;

FIGURE 1F is a schematic drawing in section with portions broken away showing an exploded view of a penetrator assembly having an outer penetrator and an inner penetrator which may be releasably engaged with a handle in accordance with teachings of the present invention;

FIGURE 1G is a schematic drawing showing an enlarged view of a tip formed on an inner penetrator which may be in accordance with teachings of the present invention;

FIGURE 1H is a schematic drawing showing an enlarged view of a tip formed on an outer penetrator in accordance with teachings of the present invention;

FIGURE 1I is a schematic drawing in section and in elevation with portions broken away showing one example of an apparatus communicating with bone marrow of a bone;

FIGURE 2 shows an example illustration of an apparatus for penetrating bone marrow of a bone in accordance with teachings of the present invention;

FIGURE 3A shows an example illustration of an apparatus operable for penetrating bone marrow of a bone in accordance with teachings of the present invention;

FIGURE 3B shows an example illustration of an apparatus operable for penetrating bone marrow of a bone in accordance with teachings of the present invention;

FIGURE 3C shows an example illustration of an apparatus operable for penetrating bone marrow of a bone in accordance with teachings of the present invention;

FIGURE 3D is a schematic drawing showing an isometric view of a container operable to enclose a penetrator assembly;

FIGURE 4A shows another example illustration of an apparatus for penetrating bone marrow of a bone in accordance with teachings of the present invention;

FIGURE 4B is a schematic drawing in section with portions broken away showing one example of a penetrator assembly which may be releasably engaged with a drive shaft in accordance with teachings of the present invention;

FIGURE 4C is a schematic drawing in section with portions broken away showing another example of an opening formed in a penetrator assembly which may be releasably engaged with a drive shaft;

FIGURE 4D is a schematic drawing in section with portions broken away showing still another example of an opening formed in a penetrator assembly which may be releasably engaged with a drive shaft

FIGURE 5A shows an example illustration of an auxiliary device which may be modified for use with apparatus operable for penetrating bone marrow of a bone;

FIGURE 5B shows an example illustration of a power driven apparatus operable for penetrating bone marrow of a bone and compatible with operating an auxiliary device; and

FIGURE 6A is a schematic drawing showing an exploded view of another example of apparatus operable for penetrating bone marrow of a bone in accordance with the teachings of the present invention;

FIGURE 6B is a schematic drawing showing still another example of an apparatus operable for penetrating bone marrow of a bone in accordance with teachings of the present invention; and

FIGURE 7 is a schematic, exploded drawing showing one example of fitting satisfactory for attachment of tubing with a hub and the outer penetrator of the penetrator assembly in accordance with teachings of the present invention.

DETAILED DESCRIPTION

[0017] Some preferred embodiments of the invention and its advantages are best understood by reference to FIGURES Fig. 1A-4B, 6A-6B wherein like numbers refer to same and like parts. Various aspects of the present invention may be described with respect to treating human patients. However, apparatus and methods incorporating teachings of the present invention may be used to treat veterinary patients as well.

[0018] There are times when availability or advisability of having a battery powered driver for interosseous (IO) access is not possible. Such conditions may involve military special operations where extreme temperatures and severe weight restrictions limit what can be carried into battle. The same may be true for civilian emergency medical services (EMS) or first responders where long shelf life and infrequent use make the convenience of a battery powered driver impractical. For this reason, a manual driver offers certain advantages over a battery powered driver. Establishing interosseous access with a manual driver may sometimes take longer than with a powered driver. However, a bone may be penetrated and associated bone marrow accessed using either driver. When a manual driver is used, manual force may be exerted on a handle or grip to insert a penetrator or needle into the bone to access the bone marrow. A manual driver may also serve as a useful backup in cases where a battery powered driver fails to function, for example, due to a depleted power supply.

[0019] FIGURES 1A, 1B and 1C show one embodiment of manual driver 10a wherein handle 12a includes drive shaft 16a. Manual driver 10a may also include an optional ratchet mechanism such as shown in FIGURE 3A. Handle 12a may be formed in a variety of shapes, such as with fingergrips 20. Handle 12a may be formed from materials satisfactory for multiple uses or may be formed from materials satisfactory for one time or disposable use. T-shaped handle 12e (See FIGURE 3C), substantially round or oval shaped handle 12a (See FIGURE 1A and 1B), pistol-grip handle 12b (See FIGURE 2) or any other ergonomically designed shape suitable for grasping with the hand or fingers during manual insertion of a penetrator may be used.

[0020] Various techniques may be satisfactorily used to releasably engage or attach a handle with an associated connector and/or penetrator in accordance with teachings of the present invention. For some applications a handle and an associated connector may be formed as a single unit. See FIGURES 6A and 6B. In such a configuration the handle/connector combination is operable to attach to a hub of a tissue penetrator. The handle and connector may or may not be detachable from each other. For other applications, a handle may be releasably engaged to a hub and associated penetrator without the use of a connector.

[0021] FIGURE 1B shows apparatus 10a with the components separated. Handle 12a includes optional finger grips or finger rests 20. Drive shaft or attachment 16a may be releasably engaged with end 181 of connector 180. Inner penetrator or trocar 220 extends from end 182 of connector 180. Connector 180 and attached inner penetrator 220 may be releasably engaged with each other by Luer type fittings, threaded connections or other suitable fittings formed on first end 201 of hub 200. Outer penetrator 210 extends from second end 202 of hub 200.

[0022] FIGURE 1C shows an end on view of apparatus 10a.

[0023] FIGURE 1D opening 186 may be formed in first end 181 to receive associated drive shaft 16a. See FIGURE 1D. Opening 186 may be formed with various configurations and/or dimensions. For some applications opening 186 may include a passageway or channel sized to receive portions of drive shaft 16a. One or more webs 136 may be formed in end 181 extending from opening 186. Open segments or void spaces 138 may be formed between webs 136. Respective projections 146 extending from adjacent portions of handle 12a may be releasably engaged with webs 136 and void spaces 138. Opening 186 and associated web 136 may be used to releasably couple connector 180 with either a manual driver or a powered driver. An example of a powered driver is shown in FIGURE 5B.

[0024] FIGURE 1E shows an enlarged view of penetrator assembly 160.

[0025] As shown in FIGURE 1F, penetrator assembly 160 may include connector 180, hub and associated hub 200, outer penetrator 210 and inner penetrator 220. Penetrator assembly 160 may include an outer penetrator such as a cannula, hollow tube or hollow drill bit and an inner penetrator such as a stylet or trocar. Various types of stylets and/or trocars may be disposed within an outer penetrator. For some applications outer penetrator or cannula 210 may be described as a generally elongated tube sized to receive inner penetrator or stylet 220 therein. Portions of inner penetrator 220 may be disposed within longitudinal passageway 184 extending through outer penetrator 210. The outside diameter of inner penetrator 220 and the inside diameter of longitudinal passageway 184 may be selected such that inner penetrator 220 may be slidably disposed within outer penetrator 210.

[0026] Metal disc 70 may be disposed within opening 186 for use in releasably attaching connector 180 with a magnetic drive shaft. For some applications, drive shaft 16a may be magnetized. End 223 of inner penetrator 220 is preferably spaced from metal disc 70 with insulating or electrically nonconductive material disposed therebetween.

[0027] Tip 211 of outer penetrator 210 and/or tip 222 of inner penetrator 220 may be operable to penetrate bone and associated bone marrow. The configuration of tips 211 and/or 222 may be selected to penetrate a bone or other body cavities with minimal trauma. First end or tip 222 of inner penetrator 220 may be trapezoid shaped and may include one or more cutting surfaces. In one embodiment outer penetrator 210 and inner penetrator 220 may be ground together as one unit during an associated manufacturing process. Providing a matching fit allows respective tips 211 and 222 to act as a single drilling unit which facilitates insertion and minimizes damage as portions of penetrator assembly 160 are inserted into a bone and associated bone marrow. Inner penetrator 220 may also include a longitudinal groove (not expressly shown) that runs along the side of inner penetrator 220 to allow bone chips and/or tissues to exit an insertion site as penetrator assembly 160 is drilled deeper into an associated bone. Outer penetrator 210 may be formed from stainless steel, titanium or other materials of suitable strength and durability to penetrate bone.

[0028] Hub 200 may be used to stabilize penetrator assembly 160 during insertion of an associated penetrator into a patient's skin, soft tissue and adjacent bone at a selected insertion site. First end 201 of hub 200 may be operable for releasable engagement or attachment with associated connector 180. Second end 202 of hub 200 may have a size and configuration compatible with an associated insertion site for outer penetrator 210. The combination of hub 200 with outer penetrator 210 may sometimes be referred to as a "penetrator set" or intraosseous needle.

[0029] For some applications connector 180 may be described as a generally cylindrical tube defined in part by first end 181 and second end 182. The exterior of connector 180 may include an enlarged tapered portion adjacent to end 181. A plurality of longitudinal ridges 190 may be formed on the exterior of connector 180 to allow an operator to grasp associated penetrator assembly 160 during attachment with a drive shaft. See FIGURE 1E. Longitudinal ridges 190 also allow connector 180 to be grasped for disengagement from hub 200 when outer penetrator 210 has been inserted into a bone and associated bone marrow.

[0030] Second end 182 of connector 180 may include opening 185 sized to receive first end 201 of hub 200 therein. Threads 188 may be formed in opening 185 adjacent to second end 182 of connector 180. Threaded fitting 188 may be used in releasably attaching connector 180 with threaded fitting 208 adjacent to first end 201 of hub 200.

[0031] First end 201 of hub 200 may include a threaded connector 208 or other suitable fittings formed on the exterior thereof. First end 201 may have a generally cylindrical pin type configuration compatible with releasably engaging second end or box end 182 of connector 180.

[0032] For some applications end 202 of hub 200 may have the general configuration of flange. Angular slot or groove 204 sized to receive one end of protective cover or needle cap 234 may be formed in end 202. Slot or groove 204 may be used to releasable engage cover 234 with penetrator assembly 160. See FIGURES 1A, 1E and 2. For some applications cover 234 may be described as a generally hollow tube having rounded end 232. Cover 234 may be disposed within associated slot 204 to protect portions of outer penetrator 210 and inner penetrator 220 prior to attachment with an associated handle. Cover 234 may include a plurality of longitudinal ridges 236 formed on the exterior thereof. Longitudinal ridges 236 cooperate with each other to allow installing and removing cover or needle cap 234 without contaminating portions of an associated penetrator. Cover 234 may be formed from various plastics and/or metals.

[0033] The dimensions and configuration of second end 202 of hub 200 may be varied to accommodate various insertion sites and/or patients. Hub 200 may be satisfactorily used with a wide variety of flanges or other configurations compatible for contacting a patient's skin. Also, end 202 and associated flange may be used with a wide variety of hubs. The present invention is not limited to hub 200, end 202 or the associated flange. Passageway 206 may extend from first end 201 through second end 202. The inside diameter of passageway 206 may be selected to securely engage the outside diameter of penetrator 210. The dimensions and configuration of passageway 206 may be selected to maintain an associated penetrator assembly engaged with hub 200.

[0034] Figure 1G shows an enlarged view of tip 222 formed on the end of inner penetrator 220 disposed within outer penetrator 210. Figure 1H shows an enlarged view of tip 211 formed on the end of outer penetrator 210.

[0035] In one embodiment of the present disclosure, steps for penetrating into bone marrow may include turning or rotating a drive shaft to insert penetrator 24 (See FIGURE 4A), penetrator 110 (See FIGURE 4B) or penetrator 210 (See FIGURE 1A-1B) into a bone and associated bone marrow using rotational motion, disengaging an associated drive shaft from connector 80 or 180 and disengaging connector 80 or 180 from associated hub 100 or 200 leaving hub 100 or 200 and attached penetrator 24, penetrator 110 or penetrator 210 disposed in the bone marrow. The depth of penetration into a bone and associated bone marrow may be determined by the distance between second end 102 of hub 100 and the extreme end of tip 30 or tip 111 or the distance between second end 202 of hub 200 and the extreme end of tip 211. For some applications, threaded connection or fittings 108 or 208 may allow attachment with various types of Luer locks and/or Luer fittings associated with of intravenous tubing or a syringe with first end 101 of hub 100 or first end 201 of hub 200.

[0036] FIGURE 1I shows outer penetrator or cannula 110 inserted into bone 130 and associated bone marrow 140. Various types of connections may be used to communicate fluids to bone marrow 140 via outer penetrator 210 may then be used to connect intravenous tubing 150 to outer penetrator 210. Right angle connector 132 has the advantage of allowing tubing 150 to be connected to outer penetrator 110 at an angle that will not kink or pinch off the lumen of tubing 150. Lock nut 133 may be used to engage right angle connector 132 with hub 200.

[0037] FIGURE 1I illustrates only one example of a connector that may be used to communicate fluids between outer penetrator 110 and tubing 150. Intravenous tubing may be used to provide intravenous fluids and/or medications to associated bone marrow. The tubing may also be used in withdrawing a sample of blood from the bone marrow. Other connectors or adapters may also be used to connect a penetrator to an intravenous tubing, other types of tubing and/or a syringe. See FIGURE 7.

[0038] Apparatus formed in accordance with teachings of the present invention have ergonomic designs that allow insertion pressure or forces, for example, manual force, to be applied with relative ease and at the same time permit rotation action of an associated handle. In FIGURE 3C drive shaft 16 with associated handle 12e may be aligned with an anatomically neutral position of an operator's hand and wrist as it pronates and suppinates. This alignment may allow better axial orientation of a penetrator assembly as an associated penetrator is inserted into a bone and associated bone marrow with less chance of excessive movement and/or misalignment of the penetrator which might result in undesired widening and/or elongation of an associated insertion hole. Insertion forces are not limited to rotation but may include reciprocal or direct axial forces applied by manual force.

[0039] Figure 2 shows another example of apparatus which may be used to insert a penetrator into bone marrow in accordance with teachings of the present invention. Figure 2 shows manual driver 10b wherein handle 12b includes drive shaft 16b. Manual driver 10b may also include an optional ratchet mechanism such as shown in Figure 3A. Handle 12b may be releasably engaged with penetrator assembly 160 and for any other penetrator assembly incorporating teachings of the present invention.

[0040] Apparatus 10c as shown in FIGURE 3A may also include first drive shaft 16a and second drive shaft 16c. Drive shafts 16a and 16c may include respective ratchet mechanisms 14. Drive shaft 16a and 16c may be disposed at different angles with respect to handle 12c to accommodate different insertion sites for an associated penetrator assembly and/or to accommodate different types of penetrator assemblies. Drive shafts 16a and 16c may have the same round shaped cross section or may have different cross sections.

[0041] For embodiments of the present invention such as shown in FIGURE 3A, apparatus 10c may include handle 12c having at least one chamber 40 disposed therein. The configuration and size of chamber 40 (as shown in dotted lines in FIGURE 3A) may be selected to accommodate one or more penetrator assemblies and/or other devices. Cap 42 may be secured on one end of handle 12c to retain a penetrator assembly or other device within chamber 40.

[0042] As discussed later in more detail, penetrator assemblies are preferably disposed within a sealed container prior to use. An example of one container is shown in Figure 3D. Penetrator assembly 160 is shown in dotted lines in chamber 40 to indicate that various items other than container 43 may be satisfactorily disposed within a handle. Chamber 40 may be configured to accommodate one or more containers 43 and/or multiple devices.

[0043] Apparatus 10d as shown in FIGURE 3B may include handle 12d having a modified configuration as compared to previously described handles. Drive shaft 16b may have four sides which define a generally square or rectangular cross section. Drive shaft 16b may also have five (5) sides, six (6) sides or a key shape. Handle 12d also includes chamber 40 with container 43 disposed therein. As previously noted, apparatus 10e as shown in FIGURE 3C may include generally T-shaped handle 12e.

[0044] As shown in FIGURE 3D, container 43 includes an attached lid 44. Lid 44 includes tab 46 configured to be flipped open with one or more digits of the hand. Lid 44 of container 43 may be opened with one hand of an operator. With lid 44 open, an operator may engage a penetrator assembly with a drive shaft of either a manual or powered driver held in the other hand of the operator. Flexible strap 48 may be used to releasably engage lid 44 with container 43. A container allows a penetrator assembly to be retained in a sterile environment. When use of the penetrator assembly is required, a manual or powered driver may be engaged with a penetrator assembly incorporating teachings of the present invention without contaminating the penetrator assembly. As discussed later in more detail various mechanisms such as magnets, o-rings and/or ball detents may be satisfactorily used to allow releasable engagement of a drive shaft with a penetrator assembly.

[0045] Ratchet mechanism 14 (See FIGURE 3A, 3B and 3C) is an optional component that may be included in some embodiments to provide additional leverage for insertion of an associated penetrator. For example, a ratchet may function by engaging a connector attached to a hub of a needle assembly when rotational power is applied in a clockwise direction. Ratchet mechanism 14 may be reversible such that an associated handle may be rotated in either a clockwise or counterclockwise direction.

[0046] Penetrator assemblies incorporating teachings of the present invention may include a rotatable collar (not expressly shown) configured to lock and unlock a reversible ratchet mechanism in order to change the direction of rotation. Drive shafts may be connected to ratchet mechanism 14 to apply rotational force in only one direction. Ratchet mechanism 14 may be a "silent" type, including three ball bearings (not expressly shown) configured to produce a desired effect without accompanying noise produced by a conventional ratchet. Drive shafts may also be attached to handle (not expressly shown) without the use of ratchet mechanism 14.

[0047] Various types of penetrators and penetrator assemblies may be satisfactorily used with a handle. Examples of such penetrators and penetrator assemblies include, but are not limited to, penetrator assembly 22 as shown in FIGURE 1A, penetrator assembly 22 as shown in FIGURE 4A and penetrator assembly 60 as shown in FIGURE 4B. For some applications penetrator assembly 22 may include connector 80, hub 100 and penetrator 24 as shown in FIGURE 4A. For some applications penetrator assembly 60 may include connector 80, hub 100, cannula 110 and trocar 120 as shown in FIGURE 4B. For some applications penetrator assembly 160 may include connector 180, hub 200, cannula 210 and trocar or stylet 220 as shown in FIGURE 1A. Apparatus incorporating teachings of the present invention may be used with a wide variety of handles, connectors, hubs and penetrators. The present invention is not limited to handles, connectors, flanges, penetrators and/or penetrator assemblies as shown in FIGURES 1A - 6B. For some applications a handle or driver may be directly attached to a penetrator hub without the use of a connector.

[0048] For some applications a penetrator assembly may include only a single, hollow penetrator. For other applications a penetrator assembly may include an outer penetrator such as a cannula, hollow needle or hollow drill bit and an inner penetrator such as a stylet, trocar or other removable device disposed within the outer penetrator. Penetrator 24 is one example of a single, hollow penetrator. See FIGURE 4A. Penetrator 24 may include one or more side posts (not expressly shown.) Cannulas 110 and 210 are examples of outer penetrators. Trocar 120 and stylet 220 are examples of an inner penetrator. See FIGURES 1B and 1E.

[0049] The size of a penetrator may vary depending upon the intended application for the associated penetrator assembly. Penetrators may be relatively small for pediatric patients, medium size for adults and large for oversize adults. By way of example, a penetrator may range in length from five (5) mm to thirty (30) mm. The diameter of a penetrator may range from eighteen (18) gauge to ten (10) gauge. The length and diameter of the penetrator used in a particular application may depend on the size of a bone to which the apparatus may be applied. Penetrators may be provided in a wide variety of configurations depending upon intended clinical purposes for insertion of the associated penetrator. For example, there may be one configuration for administering drugs and/or fluids to a patient's bone marrow and an alternative configuration for sampling bone marrow and/or blood from a patient. Other configurations may be appropriate for bone and/or tissue biopsy. Some penetrators may be suitable for more than one purpose. The configuration and size of a penetrator may also vary depending upon the site chosen for insertion of each penetrator.

[0050] As shown in FIGURE 4A, penetrator assembly 22 may include connector 80, hub and associated flange 100 and penetrator 24. For some applications penetrator 24 may be generally described as a hollow needle satisfactory for communicating fluids with bone marrow. Penetrator 24 may be configured to penetrate bone, bone marrow, or other tissues or cavities of a body. Various types of intraosseous needles and/or hollow drill bits may be used as penetrator 24. Tip 30 of penetrator 24 may be satisfactory for use in drilling a hole in a bone in response to rotation of handle 22. An opening (not expressly shown) may be formed in penetrator 24 approximate tip 30 to allow communication of fluids between a fluid flow passage (not expressly shown) formed in penetrator 24 and adjacent bone marrow.

[0051] As shown in FIGURE 4A and 4B, hub 100 may be used to stabilize a penetrator assembly during insertion of an associated penetrator through a patient's skin, soft tissue and adjacent bone at a selected insertion site. First end 101 of hub 100 may be operable for releasable engagement or attachment with associated connector 80. Second end 102 and associated flange of hub 100 may have a size and configuration compatible with an associated insertion site for penetrator 24. The combination of hub 100 with penetrator 24 may sometimes be referred to as "a penetrator set or assembly."

[0052] Various techniques may be satisfactorily used to releasably engage connector 80 with hub 100 and penetrator 24. For example, various types of mechanical fasteners including, but not limited to, mechanical fittings and threaded connections and/or Luer lock nuts may be satisfactorily used to releasably engage a handle with a penetrator in a penetrator assembly in accordance with teachings of the present invention.

[0053] For some applications, connector 80 may be described as a generally cylindrical rod defined in part by first end 81 and second end 82. Longitudinal passageway 84 may extend from first end 81 through a portion of connector 80. For embodiments such as shown in FIGURE 4B passage 84 preferably terminates prior to disc 70. For some applications longitudinal passageway 84 may be sized to receive a stylet or trocar. See FIGURE 4B. For other applications connector 80 may be satisfactorily used without longitudinal passageway 84.

[0054] An enlarged opening may be formed in first end 81 to receive drive shaft 16. Threaded fitting 88 may be formed adjacent to second end 82 of connector 80 for use in releasably attaching connector 80 with first end 101 of hub 100. For some applications a plurality of ridges or indentations 90 may be formed on the exterior of connector 80 to allow an operator to grasp penetrator assembly 22 during attachment with drive shaft 16. Ridges or indentations 90 also allow connector 80 to be grasped for disengagement from hub 100 when penetrator 24 has been inserted into a bone and associated bone marrow.

[0055] For some applications end 102 of hub 100 may include an annular slot or groove 104 sized to receive one end of protective cover 32. Slot or groove 104 may be used to releasably engage cover 32 with penetrator assembly 22 and/or penetrator assembly 60. See FIGURE 4B. For some applications cover 32 may be described as a generally hollow tube having rounded end 34. Cover 32 may be disposed within associated slot 104 to protect portions of a penetrator prior to attachment with a manual or power driver. Cover 32 may be formed from various plastics and/or metals and may be employed with alternate penetrator assembly embodiments.

[0056] The dimensions and configuration of second end 102 of hub 100 may be varied to accommodate various insertion sites and/or patients. Passageway 106 may extend from first end 101 through hub 100 to second end 102. The inside diameter of passageway 106 may be selected to securely engage the outside diameter of penetrator 24 and/or the outside diameter of cannula 110. The dimensions and configuration of passageway 106 may be selected to maintain an associated penetrator securely engaged with hub 100. Several techniques and methods may be used to secure a penetrator with a hub including, but not limited to, knurling, shot peening, flanges (not expressly shown) glue and/or serrations.

[0057] First end 101 of hub 100 may include threaded connection 108 or other suitable fitting on the exterior thereof. First end 101 may have a generally cylindrical pin type configuration compatible with releasably engaging second end or box end 82 of connector 80. Threaded connection 88 may be releasably engaged with threads 108.

[0058] Connectors 80, 80b, 80c and 80d may have similar exterior configurations and dimensions as respectively shown in FIGURES 4A, 4B, 4C and 4D. However, the dimensions and configurations of connectors may be substantially modified as compared to connectors 80, 80b, 80c and 80d.

[0059] Opening 86 in each connector 80 may have various configurations and dimensions for releasable engagement with an associated drive shaft. For some applications a drive shaft may have four sides, five sides, six sides, or eight sides. A drive shaft may also have a "D shaped" cross section. The drive shaft may also be round or any other keyed configuration. Drive shafts and associated openings in a connector may be tapered relative to each other (not expressly shown).

[0060] Drive shaft 16 as shown in FIGURE 4A may have five sides. Corresponding opening 86b as shown in FIGURE 4B may also include five sides compatible with releasably receiving drive shaft 16. For some applications, metallic disc 70 may be disposed within opening 86b opposite from end 81. Metallic disc 70 may be satisfactorily used to releasably engage penetrator assembly 60 as shown in FIGURE 4B with a drive shaft formed from materials which are magnetized. Drive shaft 16 may include or incorporate a magnet configured to releasably engage metallic disc 70 disposed within penetrator assembly 60. Cooperation between metallic disc 70 and magnetized drive shaft 16 allows removing a penetrator assembly from a container such as container 43.

[0061] For other applications one or more magnets 72 and 74 may be disposed within the sides of opening 86 to releasably engage an associated drive shaft with connector 80b. Magnets 72 and 74 are shown in dotted lines in FIGURE 1B. Magnets 72 and/or 74 may be used to releasably engage a connector with a drive shaft formed from appropriate metal alloys or other materials.

[0062] For embodiments such as shown in FIGURE 4C, opening 86c may have a generally circular shaped cross section. O-ring 96 may be disposed within opening 86c of connector 80c. O-ring 96 may form a satisfactory engagement with an associated drive shaft having a corresponding generally circular cross section. Drive shafts 16a and 16c as shown in FIGURE 3A may have a generally circular cross section.

[0063] Connector 80d as shown in FIGURE 4D may include ball 96 and spring 98 which engage a corresponding detent or recess (not expressly shown) in a drive shaft. Ball detent mechanism 96 and spring 98 may cooperate with each other to releasably engage connector 80d and associated penetrator assembly with a drive shaft. Other mechanisms may also be satisfactorily used to releasably engage a drive shaft with a connector.

[0064] Such mechanisms include but are not limited to snap ring connectors (not expressly shown), lock and key connectors (not expressly shown), and similar releasable connections.

[0065] For embodiments such as shown in FIGURE 4B, various types of threaded connections or other suitable fittings may be used. End 82 of connector 80 preferably includes an enlarged opening or passageway sized to receive first end 101 of hub 100. Threads 88 formed within end 82 may be releasably engaged with threads 108 formed on the exterior of end 101.

[0066] For embodiments of the penetrators of a penetrator assembly of the present invention such as shown in FIGURE 4B, penetrator assembly 60 may include an outer penetrator such as a cannula, hollow needle or hollow drill bit and an inner penetrator such as a stylet or trocar. Various types of stylets and/or trocars may be disposed within an outer penetrator. For some applications, outer penetrator or cannula 110 may be described as having a generally elongated, hollow tube sized to receive inner penetrator or trocar 120 therein. Portions of trocar 120 may be disposed within longitudinal passageway 84 extending through connector 80. The outside diameter of trocar 120 and the inside diameter of longitudinal passageway 84 may be selected such that trocar 120 may be securely engaged with connector 80. For some applications, metallic disk 70 may be disposed within opening 86 adjacent to trocar 120.

[0067] Tip 111 of outer penetrator 110 and/or tip 112 of inner penetrator 120 may be operable to penetrate bone and associated bone marrow. The configuration of tips 111 and/or 121 may be selected to penetrate a bone or other body cavities with minimal trauma. First end or tip 121 of trocar 120 may include one or more cutting surfaces. In one embodiment outer penetrator 110 and inner penetrator 120 may be ground separately during the manufacturing process and later aligned to ensure an exact fit to allow respective tips 111 and 121 act as a single drilling unit to facilitate insertion and minimize damage as portions of penetrator assembly 60 are inserted into a bone and associated marrow. The resulting configuration of tips 111 and 121 may be formed to penetrate a bone or other body cavities with minimal trauma.

[0068] Inner penetrator 120 may also include a longitudinal groove (not expressly shown) that runs along the side of inner penetrator 120 to allow bone chips and/or tissue to exit an insertion site as penetrator assembly 60 is drilled deeper into an associated bone. Cannula 110 may be formed from stainless steel, titanium or other materials of suitable strength and durability to penetrate bone.

[0069] A wide variety of accessory tools and devices are frequently carried by emergency medical service personnel and/or first responders. Ring cutter 50 as shown in FIGURE 5A may be representative of such accessory tools. Ring cutter 50 may include thumb lever 52 and finger protector 54. Ring cutting blade 56 may be rotatably mounted on arm 58 extending from handle 12f.

[0070] For some applications, ring cutting blade 56 may be engaged with a hub For example, ring cutting blade 56 may be securely engaged with hub 100b such as shown in FIGURE 5B. First end 101 of hub 110b may be modified to have opening 86b similar to opening 86b as described with respect to connector 80b. For some applications, handles 12, 12a, 12b, 12c, 12d and/or 12e may be releasably engaged with hub or hub 100b for use in rotating ring cutting blade 56. For other applications, power driven driver 312 may be attached with hub or hub 100b. Driver 312 may include electrical motor 314 coupled with drive shaft 300. Batteries or power supply 318 may be disposed within powered driver 312. Trigger 320 may be used to activate motor 314.

[0071] Examples of power drivers which may be used with a hub or flange are shown in U.S. Patent 6,183,442 entitled "Tissue Penetrating Device and Methods of Using Same" and U.S. Patent 5,554,154 entitled "Intra-Osseous Needle Drill." Power drivers are also shown in pending U.S. patent application Serial No. 10/449,503 entitled "Apparatus and Method to Provide Emergency Access to Bone Marrow" filed May 30, 2003 and Serial No. 10/449,476 entitled "Apparatus and Method to Access Bone Marrow" filed May 30, 2003.

[0072] Having a reliable powered driver may be of benefit to an operator in other situations requiring rotational forces or power. For example, drive shaft 300 may be mated to a variety of auxiliary devices that may be powered by rotational or reciprocal motion. Other examples of accessory or auxiliary devices (not expressly shown) which may be attached with a handle include, but are not limited to, orthopedic fixation devices, portable suction devices, flashlights or any other medical or field device that uses a power source. Flashlight attachments to either a manual or powered driver may include a red light for night vision purposes or a white light (not expressly shown). Such lights may be of the LED type.

[0073] FIGURES 1A, 2, 3A-3C, 6A and 6B and 1B show embodiments of the present invention which include a manual driver which may be releasably engaged with a hub of the penetrator assembly in accordance with the teachings of the present invention. Apparatus 10f as shown in FIGURE 6A may include handle 12f with connector 280 formed as an integral component thereof. Various types of threaded connections and/or other fittings may be satisfactorily used to releasably engage driver 10f with hub 200. For some applications, threaded connection 188 may be formed within connector 280 for releasable engagement with threaded connection 208 formed on hub 200. In FIGURE 6A, apparatus 10f may include penetrator or trocar 220 extending from handle 12f.

[0074] FIGURES 6B shows apparatus 10g which includes handle 12g and hub 200. For embodiments of the present invention such as shown in FIGURE 6B, apparatus 10g does not include a penetrator or trocar. Hub 200 may include previously described penetrator 24 with sideport or opening 26 formed therein.

[0075] FIGURE 7 is a schematic drawing showing one example of a Luer type fitting or Luer type connection which may be satisfactorily formed between hub 200 and an intravenous tubing 150. Male fitting 144 may be inserted into one end of tubing 150. Male fitting 144 preferably includes tapered surface 62 designed to form a fluid tight seal with tapered surface 64 formed with hub 200 adjacent to end 210. Tapered surfaces 62 and 64 cooperate with each to form portions of a fluid tight Luer fitting or connection. Luer locking nut or luer collar 133 may be used to securely engage tapered surface 62 and 64 with each other. Luer locking nut 133 may be securely engaged with threads 208 formed on the exterior of hub 200 adjacent to end 201. After hub 200 and associated penetrator 210 have been disposed at a selected insertion site, male type Luer fitting 36 may be slideably disposed in female type Luer fitting 38. Luer fittings 36 and 38 preferably have tapered surfaces which engage with each other to form a substantially fluid tight seal between each other. Luer lock 133 may be used to securely engage to retain secure engagement between Luer fittings 36 and 38.

[0076] Although the present invention and its advantages have been described in detail, it should be understood that various changes, substitutions and alternations can be made herein without departing from the scope of the invention as defined by the following claims.

Claims

1. A penetrator assembly (10a, 10b, 10f) operable to penetrate a bone and
associated bone marrow, comprising:

a hub (200) having a first end (201) and a second end (202);

an outer penetrator (210) extending from the second end (202) of the hub (200), the outer penetrator (210) comprising a longitudinal passageway (184);

a connector (180, 280) operable to attach to the hub (200); and

an inner penetrator (220) extending from the connector (180, 280), and

a handle (12a, 12b, 12f) attached to the connector (180, 280), wherein the handle (12a, 12b, 12f) is configured to manually drive the penetrator assembly, such that the handle (12a, 12b, 12f) has an ergonomic grip shape suitable for grasping during manual insertion of the outer (210) and inner (220) penetrators into the bone and associated bone marrow to allow manual force to be applied and at the same time permit rotation of the handle (12a, 12b, 12f),

wherein the inner penetrator (220) is configured to be slidably disposed within the longitudinal passageway (184) of the outer penetrator (210),

wherein the outer penetrator (210) comprises a first tip (211),

wherein the inner penetrator (220) comprises a second tip (222), and

wherein the first and second tips (211, 222) are configured to penetrate the bone and associated bone marrow.

2. The penetrator assembly (10a, 10b, 10f) according to Claim 1, further comprising:

a protective cover (234) configured to protect portions of the outer (210) and inner (220) penetrators, the protective cover (234) comprising a plurality of longitudinal ridges (236) configured to be grasped when removing the protective cover (234) from the penetrator assembly,

wherein the second end (202) of the hub (200) comprises an annular groove (204) configured to releasably engage the protective cover (234) with the penetrator assembly.

3. The penetrator assembly (10a, 10b, 10f) according to Claims 1 or 2, wherein a first end (181) of the connector (180) is configured to releasably engage a portion of a driver, and wherein the first end (181) of the connector (180) comprises:

an opening (186) configured to receive a drive shaft of the driver;

webs (136) extending from the opening (186); and

void spaces (138) disposed between the webs (136).

4. The penetrator assembly (10a, 10b, 10f) according to Claim 3, wherein the connector (180) comprises a plurality of longitudinal ridges (190),
the plurality of longitudinal ridges (190) formed on an exterior of the connector (180); the plurality of longitudinal ridges (190) configured to be grasped when attaching the penetrator assembly to the driver.

5. The penetrator assembly (10a, 10b, 10f) according to Claim 4, wherein the plurality of longitudinal ridges (190) is further configured to be grasped when disengaging the connector (180) from the hub (200).

6. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the outer penetrator (210) further comprises a sideport (26),
wherein the sideport (26) is formed in the outer penetrator (210) proximate to the first tip (211).

7. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the hub (200) comprises a threaded connection (208),

wherein the connector (180) comprises an associated threaded connection (188),

wherein the threaded connection (208) of the hub (200) is disposed proximate to the first end (201) of the hub (200) and the associated threaded connection (188) of the connector (180) is disposed proximate to the second end (182) of the connector (180),

wherein the threaded connection (208) of the hub (200) is configured to releasably engage the associated threaded connection (188) of the connector (180),

wherein the inner penetrator (220) is disposed within the longitudinal passageway (184) of the outer penetrator (210) when the threaded connection (208) of the hub (200) is engaged with the associated threaded connection (188) of the connector (180).

8. The penetrator assembly (10a, 10b, 10f) according to Claim 7, wherein the threaded connection (208) of the hub (200) is further configured to be engaged with a luer locking nut (133).

9. The penetrator assembly (10a, 10b, 10f) according to Claim 8, wherein the first end (201) of the hub (200) comprises a tapered surface (64),
wherein the tapered surface (64) is configured to cooperate with a tapered surface (62) of a male luer fitting (40) to form a fluid tight seal.

10. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the first end (201) of the hub (200) comprises a flange configured to contact skin proximate to a penetration site of the penetrator assembly.

11. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the outer penetrator (210) being a cannula,
wherein the inner penetrator (220) being a stylet.

12. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the inner penetrator (220) comprises a longitudinal groove formed along a side of the inner penetrator (220),
wherein the longitudinal groove is configured to receive bone chips and tissues when the penetrator assembly is inserted into the bone and associated bone marrow.

13. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the second tip (222) of the inner penetrator (220) is trapezoid shaped.

14. The penetrator assembly (10a, 10b, 10f) according to any one claims 1-2 and 6-13, wherein the connector (280) and the handle (12f) are integrally formed as a single unit.

15. The penetrator assembly (10a, 10b, 10f) according to any one of claims 1-2 and 6-14, wherein the inner penetrator (220) further extends from the handle (12f).

16. The penetrator assembly (10a, 10b, 10f) according to any one of the preceding claims, wherein the first and second tips (211, 222) are operable to act together as a single drilling unit to facilitate insertion and minimize damage as portions of the penetrator assembly are inserted into the bone and associated bone marrow.

Ansprüche

1. Penetrationsanordnung (10a, 10b, 10f), betriebsfähig zum Penetrieren eines Knochens und eines zugehörigen Knochenmarks, umfassend:

ein Mittelstück (200)mit einem ersten Ende (201) und einem zweiten Ende (202);

ein äußeres Penetrationselement (210), das sich von dem zweiten Ende (202) des Mittelstücks (200) erstreckt, wobei das äußere Penetrationselement (210) einen Längsdurchgang (184) umfasst;

ein Verbindungselement (180, 290), betriebsfähig zum Befestigen an dem Mittelstück (200); und

ein inneres Penetrationselement (220), das sich von dem Verbindungselement (180, 280) erstreckt, und

einen Griff (12a, 12b, 12f), der an dem Verbindungselement (180, 280) befestigt ist, wobei der Griff (12a, 12b, 12f) dafür konfiguriert ist, die Penetrationsanordnung manuell anzutreiben, sodass der Griff (12a, 12b, 12f) eine ergonomische Greifform aufweist, die zum Ergreifen während einer manuellen Einführung des äußeren (210) und des inneren (220) Penetrationselements in den Knochen und das zugehörige Knochenmark geeignet ist, um das Aufbringen von manueller Kraft zu ermöglichen und gleichzeitig eine Drehung des Griffs (12a, 12b, 12f) zu gestatten,

wobei das innere Penetrationselement (220) dafür konfiguriert ist, gleitfähig in dem Längsdurchgang (184) des äußeren Penetrationselements (210) angeordnet zu sein,

wobei das äußere Penetrationselement (210) eine erste Spitze (211) umfasst,

wobei das innere Penetrationselement (220) eine zweite Spitze (222) umfasst, und

wobei die erste und die zweite Spitze (211, 222) dafür konfiguriert sind, den Knochen und das zugehörige Knochenmark zu penetrieren.

2. Penetrationsanordnung (10a, 10b, 10f) nach Anspruch 1, ferner umfassend:

eine Schutzabdeckung (234), konfiguriert zum Schützen von Teilen des äußeren (210) und des inneren (220) Penetrationselements, wobei die Schutzabdeckung (234) eine Mehrzahl von Längsrippen (236) umfasst, die dafür konfiguriert sind, ergriffen zu werden, wenn die Schutzabdeckung (234) von der Penetrationsanordnung entfernt wird,

wobei das zweite Ende (202) des Mittelstücks (200) eine ringförmige Nut (204) umfasst, die dafür konfiguriert ist, die Schutzabdeckung (234) mit der Penetrationsanordnung lösbar in Eingriff zu bringen.

3. Penetrationsanordnung (10a, 10b, 10f) nach Anspruch 1 oder 2, wobei ein erstes Ende (181) des Verbindungselements (180) dafür konfiguriert ist, mit einem Teil einer Antriebseinrichtung lösbar in Eingriff zu gehen, und wobei das erste Ende (181) des Verbindungselements (180) umfasst:

eine Öffnung (186), konfiguriert zum Aufnehmen einer Antriebswelle der Antriebseinrichtung;

Stege (136), die sich von der Öffnung (186) erstrecken; und

Leerräume (138), die zwischen den Stegen (136) angeordnet sind.

4. Penetrationsanordnung (10a, 10b, 10f) nach Anspruch 3, wobei das Verbindungselement (180) eine Mehrzahl von Längsrippen (190) aufweist,
wobei die Mehrzahl von Längsrippen (190) an einem Äußeren des Verbindungselements (80) gebildet ist; wobei die Mehrzahl von Längsrippen (190) dafür konfiguriert ist, ergriffen zu werden, wenn die Penetrationsanordnung an der Antriebseinrichtung befestigt wird.

5. Penetrationsanordnung (10a, 10b, 10f) nach Anspruch 4, wobei die Mehrzahl von Längsrippen (190) ferner dafür konfiguriert ist, ergriffen zu werden, wenn das Verbindungselement (180) von dem Mittelstück (200) getrennt wird.

6. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei das äußere Penetrationselement (210) ferner einen Seitenanschluss (26) umfasst,
wobei der Seitenanschluss (26) in dem äußeren Penetrationselement (210) nahe der ersten Spitze (211) gebildet ist.

7. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei das Mittelstück (200) eine Gewindeverbindung (208) umfasst,

wobei das Verbindungselement (180) eine zugehörige Gewindeverbindung (188) umfasst,

wobei die Gewindeverbindung (208) des Mittelstücks (200) nahe dem ersten Ende (201) des Mittelstücks (200) angeordnet ist und die zugehörige Gewindeverbindung (188) des Verbindungselements (180) nahe dem zweiten Ende (182) des Verbindungselements (180) angeordnet ist,

wobei die Gewindeverbindung (208) des Mittelstücks (200) dafür konfiguriert ist, mit der zugehörigen Gewindeverbindung (188) des Verbindungselements (180) lösbar in Eingriff zu gehen,

wobei das innere Penetrationselement (220) innerhalb des Längsdurchgangs (184) des äußeren Penetrationselements (210) angeordnet ist, wenn die Gewindeverbindung (208) des Mittelstücks (200) mit der zugehörigen Gewindeverbindung (188) des Verbindungselements (180) in Eingriff ist.

8. Penetrationsanordnung (10a, 10b, 10f) nach Anspruch 7, wobei die Gewindeverbindung (208) des Mittelstücks (200) ferner dafür konfiguriert ist, mit einer Luer-Verriegelungsmutter (133) in Eingriff zu gehen.

9. Penetrationsanordnung (10a, 10b, 10f) nach Anspruch 8, wobei das erste Ende (201) des Mittelstücks (200) eine verjüngte Fläche (64) umfasst,
wobei die verjüngte Fläche (64) dafür konfiguriert ist, mit einer verjüngten Fläche (62) einer männlichen Luer-Verbindung (40) zusammenzuwirken, um eine fluiddichte Abdichtung zu bilden.

10. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei das erste Ende (201) des Mittelstücks (200) einen Flansch umfasst, der dafür konfiguriert ist, mit einer Haut nahe einer Penetrationsstelle der Penetrationsanordnung in Kontakt zu treten.

11. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei das äußere Penetrationselement (210) eine Kanüle ist,
wobei das innere Penetrationselement (220) ein Mandrin ist.

12. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei das innere Penetrationselement (220) eine Längsnut umfasst, die entlang einer Seite des inneren Penetrationselements (220) gebildet ist,
wobei die Längsnut dafür konfiguriert ist, Knochensplitter und Gewebe aufzunehmen, wenn die Penetrationsanordnung in den Knochen und das zugehörige Knochenmark eingeführt wird.

13. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei die zweite Spitze (222) des inneren Penetrationselements (220) trapezförmig ist.

14. Penetrationsanordnung (10a, 10b, 10f) nach einem der Ansprüche 1-2 und 6-13, wobei das Verbindungselement (280) und der Griff (12f) integral als eine einzelne Einheit gebildet sind.

15. Penetrationsanordnung (10a, 10b, 10f) nach einem der Ansprüche 1-2 und 6-14, wobei sich das innere Penetrationselement (220) ferner von dem Griff (12f) erstreckt.

16. Penetrationsanordnung (10a, 10b, 10f) nach einem der vorstehenden Ansprüche, wobei die erste und die zweite Spitze (211, 222) betriebsfähig sind, als eine einzelne Bohreinheit zusammenzuwirken, um die Einführung zu erleichtern und Schäden zu minimieren, wenn Teile der Penetrationsanordnung in den Knochen und das zugehörige Knochenmark eingeführt werden.

Revendications

1. Ensemble de pénétration (10a, 10b, 10f) utilisable pour pénétrer un os et la moelle osseuse associée, comprenant :

un moyeu (200) ayant une première extrémité (201) et une seconde extrémité (202) ;

un élément de pénétration externe (210) s'étendant de la seconde extrémité (202) du moyeu (200), l'élément de pénétration externe (210) comprenant un passage longitudinal (184) ;

un connecteur (180, 280) utilisable pour se fixer au moyeu (200) ; et

un élément de pénétration interne (220) s'étendant du connecteur (180, 280), et

une poignée (12a, 12b, 12f) fixée au connecteur (180, 280), dans lequel la poignée (12a, 12b, 12f) est configurée pour entraîner manuellement l'ensemble de pénétration, de sorte que la poignée (12a, 12b, 12f) ait une forme de préhension ergonomique adaptée pour saisir lors de l'insertion manuelle des éléments de pénétration externe (210) et interne (220) dans l'os et la moelle osseuse associée pour permettre à une force manuelle d'être appliquée et en même temps permettre la rotation de la poignée (12a, 12b, 12f), dans lequel l'élément de pénétration interne (220) est configuré pour être disposé de manière coulissante à l'intérieur du passage longitudinal (184) de l'élément de pénétration externe (210),

dans lequel l'élément de pénétration externe (210) comprend un premier embout (211),

dans lequel l'élément de pénétration interne (220) comprend un second embout (222), et

dans lequel les premier et second embouts (211, 222) sont configurés pour pénétrer dans l'os et la moelle osseuse associée.

2. Ensemble de pénétration (10a, 10b, 10f) selon la revendication 1, comprenant en outre : un couvercle de protection (234) configuré pour protéger des parties des éléments de pénétration externe (210) et interne (220), le couvercle de protection (234) comprenant une pluralité de nervures longitudinales (236) configurées pour être saisies lors du retrait du couvercle de protection (234) de l'ensemble de pénétration,
dans lequel la seconde extrémité (202) du moyeu (200) comprend une rainure annulaire (204) configurée pour mettre en prise de manière relâchable le couvercle de protection (234) avec l'ensemble de pénétration.

3. Ensemble de pénétration (10a, 10b, 10f) selon la revendication 1 ou 2, dans lequel une première extrémité (181) du connecteur (180) est configurée pour être mise en prise de manière relâchable avec une partie d'un dispositif d'entraînement, et dans lequel la première extrémité (181) du connecteur (180) comprend :

une ouverture (186) configurée pour recevoir un arbre d'entraînement du dispositif d'entraînement ;

des rayures (136) s'étendant à partir de l'ouverture (186) ; et

des espaces vides (138) disposés entre les rayures (136).

4. Ensemble de pénétration (10a, 10b, 10f) selon la revendication 3, dans lequel le connecteur (180) comprend une pluralité de nervures longitudinales (190),
la pluralité de nervures longitudinales (190) formées sur une partie extérieure du connecteur (180) ; la pluralité de nervures longitudinales (190) configurées pour être saisies lors de la fixation de l'ensemble de pénétration au dispositif d'entraînement.

5. Ensemble de pénétration (10a, 10b, 10f) selon la revendication 4, dans lequel la pluralité de nervures longitudinales (190) est en outre configurée pour être saisies lors du désengagement du connecteur (180) du moyeu (200) .

6. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel l'élément de pénétration externe (210) comprend en outre un orifice latéral (26),
dans lequel l'orifice latéral (26) est formé dans l'élément de pénétration externe (210) à proximité du premier embout (211) .

7. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel le moyeu (200) comprend un raccord fileté (208),

dans lequel le connecteur (180) comprend un raccord fileté associé (188),

dans lequel le raccord fileté (208) du moyeu (200) est disposé à proximité de la première extrémité (201) du moyeu (200) et le raccord fileté associé (188) du connecteur (180) est disposé à proximité de la seconde extrémité (182) du connecteur (180),

dans lequel le raccord fileté (208) du moyeu (200) est configuré pour être mis en prise de manière relâchable avec le raccord fileté associé (188) du connecteur (180),

dans lequel l'élément de pénétration interne (220) est disposé à l'intérieur du passage longitudinal (184) de l'élément de pénétration externe (210) lorsque le raccord fileté (208) du moyeu (200) est mis en prise avec le raccord fileté associé (188) du connecteur (180).

8. Ensemble de pénétration (10a, 10b, 10f) selon la revendication 7, dans lequel le raccord fileté (208) du moyeu (200) est en outre configuré pour être mis en prise avec un écrou de verrouillage Luer (133).

9. Ensemble de pénétration (10a, 10b, 10f) selon la revendication 8, dans lequel la première extrémité (201) du moyeu (200) comprend une surface conique (64),
dans lequel la surface conique (64) est configurée pour coopérer avec une surface conique (62) d'un raccord Luer mâle (40) pour former un joint étanche aux fluides.

10. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel la première extrémité (201) du moyeu (200) comprend une bride configurée pour entrer en contact avec la peau à proximité d'un site de pénétration de l'ensemble de pénétration.

11. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel l'élément de pénétration externe (210) est une canule, dans lequel l'élément de pénétration interne (220) est un stylet.

12. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel l'élément de pénétration interne (220) comprend une rainure longitudinale formée le long d'un côté de l'élément de pénétration interne (220),
dans lequel la rainure longitudinale est configurée pour recevoir des copeaux osseux et des tissus lorsque l'ensemble de pénétration est inséré dans l'os et la moelle osseuse associée.

13. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel le second embout (222) de l'élément de pénétration interne (220) est de forme trapézoïdale.

14. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications 1 à 2 et 6 à 13, dans lequel le connecteur (280) et la poignée (12f) sont formés d'un seul tenant en une seule unité.

15. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications 1 à 2 et 6 à 14, dans lequel l'élément de pénétration interne (220) s'étend en outre à partir de la poignée (12f).

16. Ensemble de pénétration (10a, 10b, 10f) selon l'une quelconque des revendications précédentes, dans lequel les premier et second embouts (211, 222) sont utilisables pour agir ensemble comme une seule unité de forage afin de faciliter l'insertion et minimiser les dommages lorsque des parties de l'ensemble de pénétration sont insérées dans l'os et la moelle osseuse associée.

Drawing