JPH11514905A - Material collection system and its use - Google Patents

Abstract

(57) SUMMARY The present invention relates to an instrumental means for collecting cuttings from a cutting instrument and its use. The cuttings can be of noble metals, toxic or hazardous materials, or of biological origin, such as bone. In certain embodiments of collecting a bone cut, the invention includes instrumental means used by the drill bit so that the bone cut (195) is sterile for subsequent implantation purposes. Collected in the collection room (110). In use, the bone marrow and bone cuts (195) are drawn into the flute (170) of the drill bit (150), carried up to the hole in the instrument tip (100), and then into the collection chamber ( Collected at 110). The float of the drill bit (150) is retained through the use of a rotating float wiper (160), which is rotated by the drill bit (150), either when rotating or when the drill bit (150) is lifted from the equipment. The tissue can be removed. In this embodiment, the use of the device allows for the collection of living bone tissue for reconstruction of bone defects, fractures, or fixation of orthopedic or dental implants in contact with bone.

Description

Description: FIELD OF THE INVENTION Field of the Invention It relates to the field of use of the cuttings collected by the operation of the cutting implement. Equipment and methods Offered for industrial and medical applications. Especially, The present invention It relates to a method of use that enables surgical implantation and skeletal tissue collection. further, The collected skeletal tissue is Processed and ported, Preferably, an autograft can be provided to a donor subject. Background of the Invention United States Military, In the manufacture of machine parts that meet the standards of the US Food and Drug Administration and the International Organization for Standardization; The cuttings obtained from the mechanical process To keep track of all the ingredients distributed to the store, Collected and returned to inventory management. To keep track of all the materials distributed, Scrap cuttings, Large amount of residual material, And machine produced parts are weighed and Unidentified materials are: You can be sure that it is not managed at the store. Scrap cuts from high-grade medical or military design materials Expensive and Therefore, Reusing is Cost effective. In another example of cutting collection, Jewelers are Collect and recycle materials that fall into the workplace while processing valuable materials such as gold and silver. Surgical collection of bone, with or without bone marrow components, This is a further example required for equipment for collecting cuttings. The collected bone material Used in the treatment of bone defects and diseases. The purpose of therapeutic transplantation of bone and bone marrow products is to: Induction or argumentation of bone growth and repair around a defect or graft site. Autologous bone grafting Gold standard for what all implants are measured. Acquisition of fresh, self-generated bone graft material Physiological concentrations of all naturally available mitogens and growth factors Live mesenchymal and precursor cell populations, And a natural bone matrix. Autograft bone Whether allograft (tissue from allogeneic donor) or xenograft (tissue from xenogeneic donor) Has greater osteogenic potential than either. In comparison with frozen allograft and decalcified bone, Fresh self-generated cancellous bone grafts Most cases lead to healing. Self-generated bone grafts Avoid potential immune and infectious complications of allograft material. Attempts to reduce the morbidity associated with cancellous bone collection include: Including using a cylindrical osteotomy to allow the collection of several bone plugs obtained through a single hull opening Uses minimally invasive surgical techniques. This technology is slow, And the amount of bone that can be obtained is limited. The bone mining method is It offers the advantage that muscle or ligament attachment is not disturbed. But, This technology also Limit the amount and form of collection, And collecting material is slow. Other technologies are Contribute to the morbidity of large donor sites, Use square or rectangular bone windows. The loss of the horn that occurred during the formation of the normal bone window Weakens bone structure. Because Fractures This is because it can spread from the corner of such a defect. Bone cutting, Devices and systems for bone marrow tissue inhalation and transplantation processes It has been described previously. Bonutti (US Patent 5, 269, No. 785, U.S. Patent 4, 649, No. 919) and Thimsen et al. (U.S. Pat. 844, 064) Orthoscopic tissue removal. Johnson (US Patent 5, 443, 468) and Leuenberger (U.S. Pat. 111, No. 208) Installation of drill bit and drill motor; Abtop ckomy (SU 1644923 A1), Zelenov (SU 1066578), And Michaelson (U.S. Pat. 451, No. 227, WO 9505123) A bone tissue cutting device; And Chin (U.S. Pat. 385, No. 570) A surgical cutting instrument having a recess for collecting a tip of material. Bone marrow transplantation methods and systems include: Werner (US Patent 5, 407, No. 425), Gillis (US Patent 5, 199, 942) and Altshuler (U.S. Pat. 486, 188 and 4, 481, 946). Grant (US Patent No. 3, 466, No. 693) Regarding active wiping of drill pipes for use in the petroleum field, Dillard (US Patent 4, 991, No. 452) The present invention relates to an extractor for hazardous solid materials. Existing cutting and collecting equipment For example, The need for modified designs for specific applications, The need for easy quantification of collected materials, The need for efficient transport to the second site, Or does not consider the need for environments that are sterile or have reduced oxygen levels. Especially, Existing skeletal collection devices and implantation methods Due to the characteristics of the materials used and the technology of collecting bone material, You have encountered a significant problem. The methods that exist and the associated disadvantages are: Including: 1) Generally, Other people's bones and bone matrices often, Trigger an inflammatory response and immune rejection, 2) Human donor-derived lyophilized bone grafts Delays conduit formation, And risks unacceptable post-operative complications, including transmission of the disease, 3) To obtain an autograft, Surgery on the second part of the patient often, Causing high morbidity and complications, 4) Skin bone transplantation Form a defect site, And it is difficult to adapt to the defect site, 5) The current bone collection equipment and facilities are: Limited to Trifine and Curette, And when you need surgery on the second part, Limited in quantity and quality, And 6) disadvantages are: Current synthetic bone matrix materials (eg, A composition of calcium phosphate and calcium carbonate, Quartz glass, A copolymer of polylactic acid and polyglycolic acid, And corals). These prior arts Because I am not completely satisfied, We have: Pursuing improvement, And the invention described in this specification is provided. SUMMARY OF THE INVENTION An apparatus and method are provided for collection of a cutting resulting from a cutting operation of a cutting instrument. This equipment is A tip adapted for use with a cutting instrument; For collecting and holding cuttings, A collection chamber attachable to the tip. When a cutting instrument is inserted through the instrument, The equipment is By allowing the cutting instrument to rotate along its longitudinal axis and move the cutting instrument in and out through the instrument, Operates independently of cutting equipment. When using, The cuttings accumulate in the collection chamber. "Adapted for use with cutting instruments" The tip serves as a guide for the cutting instrument, This means that it can further serve as a bearing for cutting tools. The tip is Has holes to fit cutting tools. Aspects of the invention that cause the accumulation of cuttings in the collection chamber include: Guidance by the operation of cutting tools, Retraction by translational movement of cutting equipment, And including fling due to centripetal force caused by rotation of the cutting instrument. An embodiment of the device of the invention is Further comprising a cap that can be attached to the collection chamber, This cap is adapted for use with a cutting instrument. "Adapted for use with cutting instruments" The cap serves as a guide for cutting tools, And can further serve as bearings for cutting tools. The cap is Has a hole to fit cutting tools, It may further comprise an accessory for mixing the contents of the accessory with the cuttings in the collection chamber. In another embodiment of the present invention, The equipment is And a wiper for wiping the cutting instrument. The wiper is May have flexible or rigid protrusions, And can be fitted with a wiper bushing that can be attached to the collection chamber or cap. The protrusion for wiping the cutting instrument Can be flexible, Cutting tool surface contours (eg, wire, Bristle, Or brush) Or the protrusions Can be rigid, And in the cross section of the flute or drill bit, Can be formed to fit mechanically, Alternatively, it can be formed to have the contour. further, The protrusion for wiping the cutting instrument Can consist of a finger that works against the outside of the cutting tool to clean the material, And it can be arrange | positioned near the connection part of a front-end | tip and a collection chamber. Contribute to the accumulation of cuttings in the collection room, Aspects of a further embodiment of the invention include: For example, Includes the use of wipers as described herein and the use of suction tubing from vacuum lines. These aspects are: Wiping and inhalation actions The above means (by this means, the present invention Providing for the collection of cuttings generated by the use of cutting tools) Pull in, Then, it is added to the fling operation. The tip of the equipment To remove slip on the cutting surface, It may further include one tooth or multiple teeth. The tip is It may be a spherical tip or a rotating tip. In a preferred embodiment of the present invention, The equipment is It further includes a cutting tool disposed concentrically. "Cutting tools" Like a hole saw, For example, Drill bit, bar, grinder, Rasp, reamer, It means a device having a flute such as a mill cutter. "Concentrically arranged" So that the center can be determined substantially within the device, It means that the device fits into the body of the device. Cutting tools, Adjustable stop, Preferably compatible with a calibrated adjustable stop. In a further preferred embodiment of the device of the invention having a cutting instrument, Cutting tools, It is a drill bit. Drill bit Standard tip, Or a first side and a second side (a first side having a straight cutting edge, And a second side with a row of ground teeth). Cutting tools, Get manually rotated, but But, The equipment is In order to optimize the cutting operation on hard materials such as metal, Means for rotating the cutting instrument is further included. The preferred means is External motor. In another aspect of the invention, The equipment is In application to the site, Further includes accessories for pushing the cuttings from the collection chamber through the tip. The accessories are It can be a plunger inserted through a cap. In another aspect, The accessories are It can be a double plunger inserted into the collection chamber after removing the cap. The collection room Means for measuring the volume are further included. In embodiments, The collection room Transparent or translucent walls, And means for measuring the volume, including placing a volume measurement mark on the wall. Such equipment is Further including a plunger for stuffing the collected cuttings, as a result, The packed capacity is Can be measured. Specific parts of the equipment Can be advantageously manufactured as one unit, For example, A disposable unit may be provided. Such a unit tip, Collection room, And wiper brush; Tip and collection room; Or cap, Wiper, And a wiper brush. A first side and a second side (a first side having a straight cutting edge, And a drill bit having a tip with a row of ground teeth). It is a further aspect of the present invention. The cutting obtained by the process using the machine adapted with the cutting tool having the drill bit is: Another aspect of the present invention. In a further embodiment of the device of the present invention, The collection room Further includes an opening for connection to a vacuum line to provide a suction tube. In an embodiment of the present invention, The skeletal tissue is Collected using provided equipment. In a further preferred embodiment, Collection is Performed aseptically, Provide a material for implantation. "Skeletal tissue" Bone or some cartilage tissue structures, Bone, Bone marrow, cartilage, Ligament, Spongy bone tissue, Or the key, Its intrinsic physiological factors, For example, Growth factors, blood, It includes biochemical or cellular components or components. "Sterility" As setting work of surgical operation, These sterile or near sterile conditions are meant. Those skilled in the art As will be appreciated from reading this disclosure, Sterility is For example, machine, surface, Sterilization of solutions, etc .; Sterile clothing, Use of masks and the like; And filtering of the surrounding air. Sterilization is For example, heating, Ultraviolet light, Alcohol disinfection, Alternatively, it is achieved by use of a bactericide. Material transplantation system 5 is another embodiment of the present invention. This system is With or without a wiper adapted to the cutting instrument and means for moving the cutting to a different site for use, such as an implantation site, Including the device of the present invention. In embodiments, The cuttings are Bone cut, And this system is It is a sterile tissue transplantation system. Material transplantation system For example, It further includes means for treating tissue, such as a capsule forming nozzle. "The means to move the cutting to a different part from the use" Means any means for transporting the cut from the collection site to a different site. The method or use of the material transplantation system for aseptically transporting skeletal tissue from a first site to a second site as described herein comprises: 5 is another embodiment of the present invention. The method is Using the material transport system described herein, A step of aseptically removing the skeletal tissue from the first site and a step of aseptically transplanting the skeletal tissue to the second site. The skeletal tissue is May be processed prior to implantation at the second site, And in the process, Washing, Grinding, Tissue separation, Acid addition, Base addition, Encapsulating agent added, Or the addition of therapeutic agents, including but not limited to pharmaceuticals and growth factors. Especially, The first part and the second part are: Within one subject, as a result, The transplant is an autotransplant. The device of the present invention The cuttings are collected, Valid in any area of use. The cuttings are The cut material is valuable (ie, rare, Expensive, Or have special properties) Can be collected, And here the loss is undesirable. On the other hand, The cuttings are Can be toxic or dangerous, And the collection of such cuttings, It is preferable to minimize any danger. Toxicities are volatility, Combustion quality, Because of radioactivity, Or for example Like having a virus like the HIV virus, It may be for a biohazard aspect. In machining dangerous materials, The apparatus and method of the present invention Provides increased security. Easily oxidized, And flammable danger (for example, Titanium, magnesium, And sodium) It can be collected safely with this system. Because This is because the oxygen pressure can be controlled in the system. The design of the equipment By reducing access to oxygen in a substantially closed system, Minimize any burning risks. The vacuum is Remove powdery cuttings, It can also be used to reduce the oxygen pressure in the collection chamber. further, The collection system To minimize the risk of explosion, It can be filled with an inert gas such as argon. In industrial applications, Money, Silver, platinum, Or uranium Can be machined, And the cuttings are For example, Reuse, disposal, Or may be collected to address safety or environmental issues. This device also In a microgravity environment, It can be used to collect cuttings that cannot otherwise be accommodated. "Microgravity" Any environment that has a lower gravity than that found on the Earth's surface (eg, Space station environment). In medical applications, Collection of cuttings of skeletal tissue Especially, Orthopedic or dental applications (where Bone and / or bone marrow Can you make a hole, Or aseptically collected for subsequent medical use). The collected skeletal tissue is For transplantation, To promote the healing of bone defects, Or it can be used to aid transplant acceptance. If the collected tissue is a biohazard, The collection system of the present invention By substantially containing the tissue until disposal, Improve the handling safety of such organizations. Intended by the inventors, Certain materials for cutting with the equipment of the present invention include: Skeletal tissue, metal, Including ceramics and polymers. "Ceramic" For example, Silica-based ceramics, Quartz glass, Calcium carbonate, Calcium phosphate, Hydroxyapatite, porcelain, Or a material made of aerospace ceramic. "Aerospace Ceramic" For example, Fibrous refractory composite insulation, Thermoplastic syntactic foam, A material such as a ceramic matrix composite is meant. "Polymer" For example, Polymethyl methacrylate, Polycarbonate, polystyrene, PVC, A medical grade polymer such as a silicone elastomer is meant. The device of the present invention It can be used according to typical orthopedic procedures such as: 1) Place this device on the bone, Determine the cutting part, And provide a guide for the cutting tool (drill bit in this example), 2) placing the drill bit on the equipment, 3) drill holes in a manner consistent with clinical practice; 4) Lift the drill from the equipment, 5) Hold the equipment at the drill site, Line up the holes and drill holes at the tip, Allowing the sprouting of bone marrow tissue, including blood, to the tip and collection chamber, 6) removing the device from the site; 7) Pack the collected materials in the equipment. 8) measure the amount of collected material, 9) Push the packed material through the tip or Or pull it up from the hole in the collection chamber, And 10) implant the material at a second site in the same patient. In these 10 steps, The independence of the equipment from the drill bit Drill bit is processed in three steps (2, Used only in 3) and 4) The organization has three steps (3, Collected in 4 and 5) And the organization Six steps (3, 4, 5, 6, 7, 8 and 9). In this example, In addition to collecting organizations, The equipment is Place it at the drilling site, Fix the drill, Guide the drill, Control the drilling depth through the use of adjustable stops, Protects around the tissue from being entangled by the edge of the drill, And collect the tissue in a sterile manner, Defend, Save and And used for transport. Advantages of the present invention include: 1) The equipment Can be made according to the specific cutting means and needs, 2) The equipment is Facilitates quick and easy quantification of the volume of collected material, 3) The equipment is In another part, Facilitate the use and placement of the collected cuttings, 4) The present invention Eliminating the abandonment and disposal of valuable materials, 5) The present invention Can be used with conventional drill motors and bits, 6) The present invention Combine the three steps efficiently: Guidance, Pull in, And I sling, Collect cuttings, 7) The present invention provides Is adaptable to many types of cutting instruments, 8) The present invention provides Can be used to collect precious metal chips and dust, 9) The present invention Can be used to automatically collect radioactive materials, 10) The present invention When cutting oxidizing materials, Can be used to reduce the possibility of fire, 11) The present invention Can be used to position and secure cutting tools, 12) The flute wiper of the present invention When rotating and translating, Can be rotated by a bit, 13) The equipment Can be held by hand, 14) The present invention In its many uses, Independent of cutting equipment. And 15) guidance, Pull in, And efficient collection through the fling process, By adding a wiping and inhalation process, It can be further enhanced. It becomes clear in the application of skeletal tissue collection, Further advantages of the present invention include: 1) The present invention Allowing collection of spongy and other bone and / or bone marrow material from multiple donor sites, 2) The present invention Has a large surface area, By providing it in small pieces that have been washed in live bone marrow components, Allowing optimal processing of the collected live skeletal tissue for transplantation, 3) The present invention Minimize biohazard related to disposal of human bone cuttings, 4) The present invention By reducing collection time, And reduce the morbidity of the patient by allowing the use of minimally invasive surgical means, And 5) the invention provides Reduce fractures and morbidity caused by concentration and treatment of mechanical stress. According to the longstanding patent law convention, The terms "a" and "an" As used herein, including the claims, "One or more" means. BRIEF DESCRIPTION OF THE DRAWINGS Further objects and advantages of the invention are: It will be apparent from a consideration of the drawings and the description of the preferred embodiment which follows immediately. FIG. Having a drill bit positioned therein, 1 shows a cross-sectional plan view of an embodiment of the device of the invention. FIG. FIG. 2 shows an exploded plan view of some components of an embodiment of the present invention. FIG. FIG. 4 shows a cross-sectional plan view of a further embodiment of the present invention near the bone and before drilling. FIG. 1 illustrates an embodiment of the present invention during a collection operation. This drill body (150) It is rotated at a speed (ω) in a clockwise direction. FIG. FIG. 3 shows an exploded plan view of some components in cross section of an embodiment of the present invention. FIG. Having means for tightening the bone surface and the pivot, FIG. 3 shows a plan view of the tip of a device providing a seal between the tip and the bone. 5a and 5b 1 shows a plan view of a design of a flute drill bit that combines both grinding and cutting processes at the tip. FIG. This design is For optimizing the shape of the cut and large flutes with low flute angles, Facilitating the movement of the cuttings up and in the tip (100) of the drill. FIG. FIG. 2 shows a wiring diagram of an embodiment of the present invention provided for aseptic tissue implantation from a first site to a second site using a device of the present invention. The collected organizations are Can be processed, Its osteoinductive potential may be further enhanced. FIG. Installed in the collection room of the device of the present invention, 2 shows a double plunger for extruding the collected cuttings. FIG. FIG. 3 shows a cross section of a double plunger. FIG. For a drill bit with two conventional flutes, FIG. 4 shows a plan view of a rotary drill flute wiper (600) having a rigid flute protrusion (610). FIG. Drill bit, Inclined reamer, bar, File, Or for use by saws, FIG. 4 shows a plan view of a rotating general wiper (620) having flexible bristle-like projections (630). FIG. For multi-fluted reamers, FIG. 7 shows a plan view of a rotating reamer wiper (640) having a rigid or flexible flute protrusion (650). Table 10, reference numbers, 100 Tip 103 Spherical tip 106 Tip 20, 110 Collection chamber 120 Wiper brush 130 Drill wiper 30, 140 Cap 150 Drill bit 160 Flute wiper 170 Drill flute 180 Universal bearing tip 183 Tip fixing prong 186 Universal bearing tip tooth 190 Spongy bone 193 Cortical bone 195 Bone cut 200 Cutting edge 210 Crushed tooth 220 Land 230 Flute 240 Drill shank 401 Collect Room 402 Tissue suction line 403 Tissue reservoir 404 Vacuum pump 405 Bone cut 406 Roller pump 407 Tissue separation system 408 Valve 409 Encapsulating agent 410 Capsule forming nozzle 411 Applicator 412 Encapsulated tissue 413 Bone 414 Iliac crest 500 Tip plunger 510 Collection chamber plunger 520 Plunger head 530 Plunger surface 540 Collection extrusion surface 600 Drill / flute wiper 610 Drill / flute protrusion 620 General wiper 630 General wiper protrusion 640 Reamer / Flute wiper 650 Reamer / Flute protrusion Detailed description of preferred embodiment Book The invention is In one example of the preferred embodiment, A surgical instrument that operates as a cutting instrument brace for efficient cutting and collection of skeletal tissue, including bone and cartilage tissue. Furthermore, the present invention Provides for transfer of harvested tissue to the implantation site. When the collection site and the transplant site are in the same subject, This transplant is called autologous or autotransplant. An endogenous growth factor and a matrix material are provided; Since the possibility of immune rejection is avoided, Ideally, this type of implantation can be achieved in close proximity. When the collection site and the transplant site are in different subjects, This transplant is called an allogeneic or allogeneic transplant, And there is the possibility of immune rejection by the receptor. The transplant site is Like implanting orthopedic or dental implants, The site of a structural defect or implant in the body at the site of bone or cartilage in the body. Newly collected bone or cartilage tissue It can be described as active and capable of inducing. This means Means that the newly collected tissue has growth factors and matrix material, When it is transplanted into a donor patient, It means to stimulate and treat bone or cartilage. As a specific example, Without limitation, Endogenous growth factors and matrix materials Transplantation growth factor β, Fibroblast growth factor, Bone morphogenetic protein, Biocompatible scaffolds, And natural matrix material, Bones bridge large fractures, Or to facilitate filling the defect. Such growth factors If necessary, To further improve bone treatment at the transplant site, It is intended to be added to the collected tissue. In the preferred embodiment in FIGS. 1 and 3a, The surgical instrument of the present invention comprises: Enables the aseptic collection of bone and cartilage cuts, And contact the bone, And the tip (10, 100), Collection room for collecting and holding bone cuttings (20, 110), In addition, the upper cutting tool (150) has a cap (30, 140). Tip (10, 100) and bearing cap (30, 140) is the same as the cutting tool (150), Hand it with a hand chuck, Or use an external motor to rotate and move. When installing a cutting tool such as a drill bit (150), For example, FIG. 3a, And as shown in 3b, The drill bit (150) is inserted longitudinally through the body of the invention, And help to cut and crush the bone cutting part (195) at its tip, Then, the bone cut object (195) is moved into the tissue collection chamber (110). The terms "bushing" and "bearing" It is used interchangeably herein, Whether the surface over which the cutting instrument moves can simply be a bushing, Or a roller bearing that rotates with the cutting tool and has no sliding contact between the tool surface and the bearing surface. The present invention Effectively combine the three processes at the same time, The cuttings obtained from the use of cutting tools, Carry into the collection room, Pull, Throw in. When a cutting instrument is inserted through the instrument, This equipment is Without having to change the speed or movement characteristics of the drill and its motor, It operates independently of the cutting instrument by allowing rotation along the long axis of the cutting instrument and movement of the cutting instrument in and out of the entire instrument. When using, The cutting is carried by the action of flute, Pulled by the movement of the bit, Dislodged by the centripetal force caused by the rotation of the bit, It can then be collected using a fourth process in which the collection chamber is evacuated using suction. Cutting tools, For example, Drill bit, bar, grinder, Rasp, Reamer, It can be a tool with a flute, such as a grinding cutter. In a further embodiment, When the cutting instrument is removed from the equipment, A wiper (130, wiping the workpiece (195) from the tool (170) to place the workpiece into the collection chamber (110) 600, 620, 640) is provided. Use of the wiper To more effectively and more completely remove all cuttings from the cutting equipment, The transport process described herein, Pulling process, Release process, And in the suction process of the cutting A fifth wiping step is added. This cutting tool If you have a flute (230), such as a drill bit (150), Wiper (130, 600, 620, 640) can be designed to fit into the cutting instrument flute (230). Wiper (130, 60 0, 620, 640) Oriented to have the same center as the cutting instrument, And if the cutting tool is pulled through the wiper, In order to wipe off the flute cuttings, The protrusion (160, 160) in the hole reaching the flute (230) of the cutting instrument 610, 630, 650). Wiper (130, 600, 620, 640) During rotation of the cutting instrument or movement through the equipment, Free rotation in the collection chamber or adjacent bearing housing. In one embodiment having a wiper designed for a drill bit, Drill wiper (130, 600, 620, 640) Rotate with drill bit (150), Then, the drill bit (150) is moved. Drill wiper (130, 600, 620, 640) Works inside the hole, And it is contained in the wiper bushing (120). The drill flute wiper To remove flute bone cuttings and blood, Protrudes into the drill bit's flute; While the drill bit rotates and moves in the collection chamber, The wiper Rotates in the collection room. The protrusion is Robe (610, 650), hair, wire, Brush (630), Or it may be a thread-like projection (630). The wiper (620) Applicable to tapered cutting tools. In one embodiment (620) of the wiper, The protrusion (630) is like a spoke on the ring, Flexible to accommodate tapered reamers with one or more flutes. This wiper (620) While allowing the movement and wiping of a tapered flute bit or reamer, The bit is rotated within the housing to minimize the rotational movement of the bit relative to the spoke-shaped protrusion (630). A reamer wiper (640) with irregular flute-like protrusions (650) It can be used with this device. Cutting tools are also It may be an instrument that lacks flute, such as a hole saw. Using a cylindrical saw having a hole and a cutting tooth at one end, When cutting around the hole, Remove the core material. In another embodiment adapted for a hole saw, The cutting material is Until it enters the portion of the saw hole that has a larger inside diameter than at the tip of the saw hole Move the saw hole up Therefore, it accumulates in the collection room. In this embodiment, The collection room It rotates inside the stationary housing with the saw. This equipment is May have a tip and housing similar to the collection chamber of the preferred embodiment, Through which the saw with the collection chamber rotates. The cap fixed to the proximal end of the housing Works as a bearing, This is the end of the collection chamber inside the saw. This surgical instrument For application to the surgical site, Collect the bone cuttings (195) in the collection room (20, 1 10) to the tip (10, Plunger (500, 510) Additional fittings may be provided within the collection chamber. In operation, Plunger (500, 510) Collection room (20, 110) through the hole, Place the cutting at the tip (10, Press outside of 100). The plunger surface (530) Made of flexible material, It is tapered at a gentler angle than the angle of the projecting surface (540) of the collection chamber. for that reason, Upon contact, The cuttings are At first, The surface of the plunger surface (530) is compressed to the protruding surface (540) contact area. The plunger surface is When fit due to its flexible material, The contact area increases, Tip (10, 100) Face the hole. This behavior is Add all materials to the tip (10, 100). The tip is Once If the plunger (510) moves completely, Clean with the tip plunger (500). The device of the present invention Biocompatible material for mixing with bone cuttings, Pharmaceuticals, Or it may further comprise an appendage containing a biological sample. This accessory is Collection room (20, 110) fixed in the hole, And the collection room (20, A means is provided for mixing the contents of the bone cutting (195) and the appendage in (110). This accessory is A screen for sifting the cuttings by size, Alternatively, it may be configured with a mixer for stirring the contents of the appendage of the bone cutting (195). Accessories are To increase potency by promoting bone healing, With ease In order to combine with precise delivery regarding the processing of bone cutting, Can be used with a plunger. Preferably, Surgical instruments are generally cylindrical in shape, This device is not so limited. Or, The general shape is Elongated, And has a grip, It may be in an easy-to-use shape having a grip preferably in an ergonometrically shape. Embodiments manufactured and used for surgery include: About 1. 25 inch diameter and about 4. It is a cylinder with a length of 0 inches. A cylinder about 3/8 to 1/2 inch in diameter and about 1 inch long is intended for use with small bones; for use in industrial settings, up to about 1 foot diameter and about 1 foot A cylindrical shape with length up to and including is expected. Suitable materials for manufacturing the device include, but are not limited to, for example, stainless steel, delrin, polymethyl methacrylate, and polyethylene. The tip, flute wiper, and bushing can be made of metal and are preferably made of surgical stainless steel. As an alternative material, steel coated with titanium, cobalt, or titanium nitrate may be used. The cap, collection chamber, and wiper housing are preferably made from injection molded high density polyethylene, but are not limited to polymers including Delrin, nylon, polymethyl methacrylate, polyester, polyvinyl chloride, and polycarbonate. Can be formed. Generally, the metal portion is selected from a group of metals that should withstand wear as a cutting tool and that are biocompatible such that small amounts of abrasion do not harm the collected tissue. In general, the polymer portion can be easily molded and formed from any material that has sufficient strength for the application. The tip (10, 100, 103) contacts the cutting surface without penetrating the cutting surface while the collected tissue is carried into the collection chamber (20, 110) and serves as a cutting instrument (100) guide or brace and bearing. You. In either the embodiment with the wiper (130,600,620,640) or the embodiment lacking the wiper, the instrument tip (10,100) forms the lower part of the tissue collection chamber (20,110) and the collection chamber May have lips to increase stability and retention at the lip. The tip provides a path and means for moving the cuttings into the collection chamber (20, 110). The tip (10,100) has means for eliminating slippage against the bone and capturing the bone cut (195) at the cutting instrument flute (170), allowing the bone cut to pass through the tip (10,100). , And carry it into the collection room (20,110). Serrated edges or sharp tip teeth (15,106) installed directly on the cylindrical portion of the tip (10,100) or on the swivel tip (180) with a resilient tip-fixing point tool (183) Can be used to eliminate slippage and carry the bone cut (195). The swivel tip (180) optionally rotates around the lower end of the tip (103) with a spherical end to provide good superficial bone (193) contact. The collection chamber body (20, 110) may be fitted with a cap (30, 140) or a wiper bushing (120). When manufactured to attach to the cap (30), the open end of the collection chamber (20, 110) may have a positive lip on the inner diameter for locking with the cap. The collection chamber (20, 110) requires no moving parts and is advanced through the cutting instrument flute, pulling tissue through the tip, and throwing the cutting to place the cutting in the collection chamber. The collection chamber (20, 110) can be further expanded by having an opening that connects to the suction (401) to facilitate the collection of cuttings and the collection of blood. The collection chamber (20, 110, 401) has means (not limited to volume markings or transparent or translucent outer walls for use with volume markings) for measuring the volume of collected tissue and can be used for measuring unfilled volumes. A plunger (500, 510) may be used to compress the bone cut for measurement of filling volume. The cap (30, 140) can be attached to the collection chamber (20, 110) or the wiper bushing (120). The cap (30,140) may have a groove on the outer diameter near one end to lock with the lip in the hole of the collection chamber (20,110); other types of connection are threaded, O-ring or It may be a quick release member. The cap (140) may house a flute wiper (130) which is held in place by the use of a pressed and fitted cylindrical bearing. An embodiment of the present invention is shown in FIG. 3a for contact with superficial bone (193) before drilling. The operation of the present invention is shown in FIG.3b, where the superficial bone (193) and the cancellous bone (190) are drilled, the bone cut (195) is moved over the drill flute (170), and the Placed in In one aspect of the invention, the surgical instrument is designed for use with a drill bit. A drill bit having a tip (200, 210) that both grinds and cuts bone to optimize bone particle size for a particular implantation purpose is one aspect of the present invention (FIGS. 5a and 5b). 5b). The bit tip has teeth (210) and cutting edges (200) at the entrance of its flute for grinding and cutting bone while creating a hole in the bone. The tooth and cutter geometry can be selected to adjust the particle size of the bone cut. The drill may have a large flute volume and a low flute angle to facilitate movement of the bone cut into the tissue collection chamber. Most designs of drill bits are used, and the properties of the bone cut (195) can be optimized in one embodiment by the use of dedicated bits. The cutting edge of the dedicated drill bit tip has a straight cutting edge (200) on one side and an array of grinding teeth (210) on the other side. The crushing teeth (210) project from the tip of the drill beyond the cutting edge (200) and crush, loosen the material for the cutting edge (200) and cut and scrape to the entrance of the flute (230) . Additional aspects of a drill bit contemplated as part of the present invention include the following. The lands (220) may be optimized for different applications using different flute volumes and angles to move the bone cut (195) or medullary tissue. The drill shaft (240) without the flute is attached to the drill motor and the movement of the drill through the drill wiper (130) through the interface between the flute wiper (160) and the non-flute part of the drill shaft (240). Help stop. The drill shaft (240) accommodates a graduated adjustable stop and allows precise control of the drill penetration depth. The surgical instrument can be a single-use device, such as a disposable unit supplied to the user in a sterile package. In particular, models adapted to fit drill bit diameters of 2-4 mm, 4-6 mm, 6-8 mm, 8-10 mm, and 10-12 mm are contemplated. Another embodiment of the present invention includes a surgical instrument as described herein and further includes means for processing and optionally processing the collected tissue to a second site. . In this embodiment, the collection chamber (401) includes a suction line (402) to move the bone cut (405) and the flute collected from the surgical site, such as the iliac crest (414). , So that it can be stored in the tissue reservoir (403). Vacuum is provided to the system by a vacuum pump (404) connected to the tissue reservoir (403). Material collected in the tissue reservoir (403) is transferred to the tissue separator (407) using a roller pump (406). The tissue separator (407) may include screens, filters, centrifugation units or other cell and tissue separation devices, as well as acid and base solutions to modify the collected tissue. The tissue implantation system may include a pump, a filter, a centrifuge, a mixing chamber, a setting chamber, a conduit, and the like. The system may have an applicator for implantation of the collected skeletal tissue. Skeletal tissue can be collected from a variety of sites, such as ossicles, ossicles, iliacs, craniums, sternums, tibias, and the like. For example, centrifugation can be used to fractionate the collected tissue and remove red blood cells and / or white blood cells; alternatively, the collected tissues also contain various proteins and proteins while maintaining their vitality. The cells are chemically washed to increase their bone inducibility. The processing steps include steps to increase the likelihood of bone formation of the bone cutting, which is not limited to filtration, rinsing with water, grinding the bone cutting, washing with an acid solution, and washing with a base solution. . The treated tissue component is passed through a valve (408) to an encapsulation nozzle (410) from an implantation site (here, a capsule reservoir (409) to a capsule material (algin, poly-L-lysine, collagen, polylactic acid, polylactic acid). Glycolic acid, methylcellulose, glycerol, saline, calcium phosphate or calcium carbonate) can be combined with the tissue) or sent separately. The capsule material (412) with the tissue or the tissue alone can then be applied to the bone (413) defect using the applicator (411). A positive displacement pump (406) provides positive pressure to move material through the processing stage to the implantation site. Cavernous bone is cell-rich, rapidly incorporated into recipient bone, and is resistant to infection. Compared to solid bone grafts, particulate or pasty bone material offers considerable advantages. In addition, autograft bone tips or particles offer the following additional advantages: the large surface area of the graft that facilitates angiogenesis, remodels, and heals as a "regional phenomenon" that occurs simultaneously through the entire defect Appearing, irregularly shaped defects fill more completely with contact between the host site and the closer and wider graft tissue, and only a small surgical approach fills large bone cavity defects. In addition, bone cells within the cancellous bone graft material, placed in contact with a well vascularized receptor bed, survive and store the collected cancellous bone material in normal saline. Guarantees cell viability in the range of 95% to 100%, even after up to 4 hours of operation (Marx R. J. Oral Surg. 37: 712-718, 1979). An aspect of the invention is the use of a tissue transplant system as described herein in combination with the addition of a growth factor and matrix material to enhance the treatment of damaged bone. The addition of such factors and materials is expected to optimize the condition of the collected skeletal tissue. Such factors and materials include: For example, transforming growth factors β and α, bone morphogenetic proteins, platelets from growth factors, epidermal growth factor, fibroblast growth factor, vascular permeability factor, mitogen, mesenchymal cells, progenitor cells, and native bone It is a matrix. Tissue procurement can be prematurely divided by transplantation into donors or into different recipients. Where tissue is collected from a particular subject and implanted in a different patient, how to use the devices of the present invention will be apparent to one of skill in the art in light of the present disclosure. In the operation of the present invention, drilling of skeletal tissue is performed using aseptic techniques for reconstructive surgery or for orthopedic, dental, oral, or maxillofacial implants (plates, screws, rods). You. The drill cut is generally discarded; in the use of the present invention, the drill cut is collected and may be placed around the implant to make the implant more secure and easier to heal. The present invention is used with a combination of a conventional drill bit and a drill motor. The method of the invention involves aseptic collection and transfer of bone cuttings and / or medullary components for rapid implantation. The tissue recovered from the use of the surgical instrument provided by the present invention is a superficial layer combining blood and medullary tissue forming a pasty graft material, or cancellous bone. This material has paste-like handling properties, high surface area, and generally an open structure. These features of the method of the present invention facilitate handling, angiogenesis, setting, and provide an osteo-inductive scaffold for enhanced treatment of the surgical site. In a preferred embodiment implementation, the drill bit (150) is inserted through the cap (140), the wiper bushing (120), the drill wiper (130), the collection chamber (110), and the tip (100). The bone is cut by rotating the drill bit (150). The bone cutting (195) is housed in the drill flute (170) by the tip (100). Continuous rotation of the drill bit (150) moves the bone cutting (195) into the hole in the tip (100). Bone cuttings (195) traveling up the tip (100) and into the collection chamber (110) fall from the drill flute (170) and are collected in the collection chamber (110). The bone material remaining in the drill tip (10,100) is pulled into the collection chamber (20,110) via the movement of the drill bit, and the material remaining in the drill flute (170) is centripetal, suction, or It is removed from the drill flute (170) by the drill wiper (130). The drill wiper (130) is free to rotate within the wiper bushing (120) along a common axis with the drill bit (150). The flute wiper (160) of the drill wiper (130) extends into the drill flute (170) to wipe off bone cutting residue that has not been collected in the collection chamber (110). The drill wiper (130) rotates with the drill bit as it rotates along its long axis or as it moves through the tip (100), the collection chamber (110), and the drill wiper (130). The distal end (100) is connected to the tissue collection chamber main body (100). The collection chamber (110) is connected to a wiper bushing (120) which serves as a bearing surface and a guide for the drill wiper (130). The drill wiper (130) rotates freely within the wiper bushing (120) and is surrounded by a cap (140) that connects to the wiper bushing (120). The tip (100), the collection chamber (110), and the wiper bushing (120) can be combined in one part and manufactured as a disposable device. Surgical instruments are used with conventional surgical drill bits. A drill bit having the appropriate diameter, flute length, and overall length is inserted from the end of the cap into the appropriate surgical instrument model. The instrument is held with one hand and the tip is placed over the bone at the point of the drill. As the bone is punctured, the bone and / or medullary tissue fragments are carried through the tip to the flute of the drill bit and passively fall from the flute into the collection chamber. The drill bit may extend about 3 inches to 5 inches beyond the tip of the instrument, and the instrument operates in an arc to collect tissue from a range of bone stalk shapes. When the drill bit moves longitudinally away from the bone in and out of the tip and into and out of the tip, an additional rotational operation is performed to place material from the flute into the collection chamber, and an embodiment having a wiper The movement of the drill bit through the wiper helps to place the material in the collection chamber. The description of the embodiments and their operation does not limit the design and scope of the invention, but extends the description of the invention to use the surgical instrument of the invention and to collect bone or marrow tissue for implantation purposes. And any method or device that achieves the purpose of the process. Even though the present invention has been described to a particular detail, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in view of the foregoing disclosure. Accordingly, all such alternatives, modifications, and variations that fall within the spirit and scope of the invention are intended to be covered by the appended claims. The following examples are included to illustrate preferred embodiments of the present invention. It illustrates the techniques discovered by the inventor, and those skilled in the art will recognize the techniques disclosed in the working examples that work well in the practice of the present invention, and can therefore be considered to construct a preferred mode for its practice. However, one of ordinary skill in the art, in light of the present disclosure, will appreciate that many changes can be made in the particular embodiments disclosed and still obtain similar or similar results without departing from the spirit and scope of the invention. You should recognize. Example 1 Skeletal Tissue Collection Surgical instruments according to the present invention were constructed and tested on cadaver and live animals. The device was used with a conventional drill bit in a fresh cadaver femur. Bone cuts were collected by slight rotation of the drill bit. The cutting moved along the flute within the area enclosed by the tip. Once the cutting exits the flute, the cutting passes the tip and enters the collection chamber. White superficial bone was observed through the collection window and the cancellous bone tip was covered with a small amount of blood. Six 0.2 cm deep. A 272 inch hole was drilled. With each new hole, the collection chamber continued to fill. The large amount of bone tissue collected in the room quickly obstructed the field of view of the drill. The flute was shown to hold the cut during drilling. The drill bit was pulled out to test the flute wiper and drill bit. When removed from the device, the flute was shown to be free of cuttings, and the cuttings appeared to fall into the collection chamber. The operation of the rotating wiper was smooth and did not cause pinching during drilling or withdrawal. At the desired drill depth, the bit is quickly pushed in and out to further collect bone tissue from the edge of the drill hole or to push blood into the bleeding collection chamber to each site. Can be pulled. If clinically beneficial, the use of a vacuum in combination with the device may facilitate the collection of more blood. Once drilling was completed, the drill bit was finally withdrawn. In one embodiment of the present invention, the cap and wire bearing are fabricated as a unit, and the unit is removed with a rotating flute wiper. The collection chamber and tip can also be made as one piece. A plunger assembly is connected to the collection chamber and facilitates cleaning of bone tissue collected from the device. The plunger assembly pushes collected bone tissue from the collection chamber through the tip to facilitate application to the site of injury, fusion, or implantation. With the plunger assembly attached, the device allows for the placement of collected bone tissue and blood. After collection, the bone tissue was removed from the collection room and left. Bone tissue is approximately 0. It consisted of coarse cuts of various sizes of 5mm x 4mm x 8mm. Blood covered the cut, but no liquid was present in the collection chamber. The tissue was evaluated by volume and its value was compared to a theoretical value based on the size of the drill hole; the tissue was also evaluated by weight, and the value was the bone segment density multiplied by the volume of the drill hole. Was compared with the theoretical value calculated using Tissue collection data is provided for the volume comparison in Table 1 and the weight comparison in Table 2. Surgical instruments were used on both the iliac crest and the metaphysial site of the proximal tibia in living animals. Two holes were drilled at each location. Observations made while drilling fresh cadaver bones and live animal sites were consistent. Bone tissue collection was accomplished by a bone cut with a small amount of blood attached. Blood in the collection chamber was not sufficient to form a free solution. Two drill holes in the tibia produced 0.45 cc or 0.48 grams of bone. Two drill holes at the iliac crest were used to produce 0.91 cc or 1.09 grams of bone. These data indicate that the surgical instrument of the present invention is easy to use and allows for the collection of living bone tissue for placement at the site of injury. Holes drilled in the bone to pack implants or place screws can enhance the therapeutic response of the bone, fill large bone defects, or allow for unstable or diseased It can be a source of highly inducible tissue that can facilitate indirect fusion. All compositions and methods described and claimed herein can be made and executed without undue experimentation in light of the present disclosure. Although the compositions and methods of the present invention have been described with respect to preferred embodiments, modifications may be made to the compositions, methods, and processes described herein, or to the order of the method steps, to modify the spirit of the invention. It will be apparent to those skilled in the art that the present invention can be applied without departing from the scope. More specifically, it is clear that certain reagents, both chemical and physiologically relevant, can be replaced by the reagents described herein while achieving the same or similar results. It will be apparent to one skilled in the art that all such similar substitutes and modifications are within the spirit, scope and concept of the invention as defined by the appended claims.

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Claims (1)

[Claims] 1. Equipment for collecting cuttings:   A tip having a hole that is compatible with a cutting instrument having a flute, wherein: When compatible with cutting tools having a flute, the tip and the flute may be surrounded Forming a closed channel, the tip; and   A collection chamber attachable to the tip for collecting and holding the cuttings;   Including   Here, when used, the machine rotates and translates the cutting tool to cut it. Guiding, retracting and fling cuttings to accumulate in the collection chamber Is possible, equipment. 2. A cap attachable to the collection chamber and suitable for use with a cutting instrument. The device of claim 1, further comprising a mated cap. 3. The device according to claim 1 or 2, further comprising a wiper. 4. The apparatus according to claim 1 or 2, further comprising a cutting tool arranged concentrically. . 5. The cutting tool is a drill bit, bar, grinder, file, reamer, The device according to claim 4, which is a mill cutter or a hole saw. 6. The instrument according to claim 4, wherein the cutting instrument is a drill bit. 7. The machine according to claim 4, wherein the cutting tool is adapted with an adjustable stop. vessel. 8. The drill bit has a tip having a first side and a second side; The side has a straight cutting edge, and the second side has a row of grinding teeth, The device according to claim 6. 9. The apparatus of claim 4, further comprising means for rotating the cutting instrument. 10. The means for rotating the cutting tool is an external motor. Equipment. 11. The device of claim 1 or 2, further comprising a double plunger. 12. The device of claim 1 or 2, wherein the tip further comprises a tooth. 13. The device according to claim 1, wherein the tip is a spherical tip. 14． The device according to claim 1, wherein the tip is a universal bearing tip. 15. 2. The collection chamber of claim 1, further comprising means for measuring volume. 3. The device according to 2. 16. The collection chamber has a transparent or translucent wall and a volume measuring device on the wall. 16. The machine according to claim 15, comprising means for measuring capacity, including marking. vessel. 17． The collection chamber of claim 11, wherein the collection chamber further comprises means for measuring volume. Equipment. 18. 4. The device of claim 3, further comprising a wiper brush, wherein the device further comprises a wiper brush. The tip, the collection chamber, and the wiper brush are manufactured as one unit. Equipment. 19. Claim: The tip and the collection chamber are manufactured as one unit. 3. The device according to 1 or 2. 20. The apparatus of claim 2, further comprising a wiper and a wiper brush. Here, the cap, the wiper, and the wiper brush are one unit. Equipment manufactured as a kit. 21. 4. The wiper has a flexible projection for wiping a cutting instrument. Equipment described in. 22. The wiper has a rigid projection for wiping the cutting instrument, and the projection is cut. 4. The device of claim 3, wherein the device forms a flute profile of a shaving instrument. 23. 3. The method according to claim 1, further comprising a finger for wiping the cutting instrument. An instrument, wherein the finger is located near a junction between the tip and the collection chamber. Equipment. 24. A cutting obtained by a process using the device according to claim 4. Wherein the cutting instrument has a tip having a first side and a second side; A cutting surface, the side surface having a straight cutting edge, and the second side surface having a row of grinding teeth; Shavings. 25. The collection chamber further comprises an opening for connection to a vacuum line. 3. The device according to 2. 26. The method according to claim 1, further comprising an accessory for processing the cutting. machine. 27. A tip having a first side and a second side, wherein the first side is straight cutting A drill bit having an edge and the second side having a row of grinding teeth 28. Material transplantation system:   26. The device of claim 25 adapted for a cutting instrument;   Means for moving the cutting to the implantation site   Including the system. 29. 29. The material implantation system of claim 28, wherein said system is sterile. 30. The material is a tissue cut, and the system processes the tissue cut. 29. The material implantation system of claim 28, further comprising means for treating. 31. Claims: The means for treating a tissue cut comprises a capsule forming nozzle. 31. The material implantation system according to claim 30. 32. Claims for aseptically implanting skeletal tissue from a first site to a second site Item 30. Use of the material implantation system according to Item 29. 33. 33. The skeletal tissue is processed prior to implantation at a second site. Use of a material transplantation system according to claim 1. 34. The treatment is washing, grinding, filtration, separation, acid addition, base addition, 34. The method of claim 33, wherein the addition is an encapsulant, a pharmaceutical, or a growth factor. Use of a material transplantation system. 35. The first site and the second site are within one subject. 32. Use of a material implantation system according to 32. 36. Collection of bone, metal, ceramic or polymer cuts Use of the device according to claim 1 or 2 for the treatment. 37. Collection of bone, metal, ceramic or polymer cuts Use of the device according to claim 4 for the manufacture of a device. 38. An apparatus according to claim 4 for collecting cuttings in a microgravity environment. use. 39. Use of the device according to claim 1 or 2, wherein the device is sterile. 40. 5. Use of the device according to claim 4, wherein said device is sterile. 41. The use of the device according to claim 11, wherein the device is sterile. 42. 5. Use of the device according to claim 4, wherein the cut is a bone tissue cut. 43. Claims for aseptically implanting skeletal tissue from a first site to a second site Use of an apparatus according to item 39. 44. Claims for aseptically implanting skeletal tissue from a first site to a second site Use of an apparatus according to item 41. 45. 27. Use of an instrument according to claim 26, wherein the cut is processed. 46. The treatment is washing, grinding, filtration, separation, acid addition, base addition, 46. The method of claim 45, wherein the addition is an encapsulant, a pharmaceutical, or a growth factor. Use of equipment. 47. The first site and the second site are within one subject. Use of the device according to item 43.