EP1453947A1 - Device for active phase cell or tissue sampling and uses thereof - Google Patents
Device for active phase cell or tissue sampling and uses thereofInfo
- Publication number
- EP1453947A1 EP1453947A1 EP02804938A EP02804938A EP1453947A1 EP 1453947 A1 EP1453947 A1 EP 1453947A1 EP 02804938 A EP02804938 A EP 02804938A EP 02804938 A EP02804938 A EP 02804938A EP 1453947 A1 EP1453947 A1 EP 1453947A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- tissue
- wall
- cells
- holes
- tissues
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
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- A61F2/06—Blood vessels
- A61F2/062—Apparatus for the production of blood vessels made from natural tissue or with layers of living cells
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- C12M—APPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
- C12M21/00—Bioreactors or fermenters specially adapted for specific uses
- C12M21/08—Bioreactors or fermenters specially adapted for specific uses for producing artificial tissue or for ex-vivo cultivation of tissue
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- C12M—APPARATUS FOR ENZYMOLOGY OR MICROBIOLOGY; APPARATUS FOR CULTURING MICROORGANISMS FOR PRODUCING BIOMASS, FOR GROWING CELLS OR FOR OBTAINING FERMENTATION OR METABOLIC PRODUCTS, i.e. BIOREACTORS OR FERMENTERS
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- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61F—FILTERS IMPLANTABLE INTO BLOOD VESSELS; PROSTHESES; DEVICES PROVIDING PATENCY TO, OR PREVENTING COLLAPSING OF, TUBULAR STRUCTURES OF THE BODY, e.g. STENTS; ORTHOPAEDIC, NURSING OR CONTRACEPTIVE DEVICES; FOMENTATION; TREATMENT OR PROTECTION OF EYES OR EARS; BANDAGES, DRESSINGS OR ABSORBENT PADS; FIRST-AID KITS
- A61F2240/00—Manufacturing or designing of prostheses classified in groups A61F2/00 - A61F2/26 or A61F2/82 or A61F9/00 or A61F11/00 or subgroups thereof
- A61F2240/001—Designing or manufacturing processes
Definitions
- the present invention relates to a device and methods for providing implants, cells or tissues, for example for transplants or in vitro research, tissue engineering or cell therapy cultures.
- the invention is particularly suited to the production, in sufficient quantity, of specific cell populations with high proliferation and / or differentiation potential, suitable for use in tissue engineering, surgery or repair therapy, in particular in humans.
- the invention also relates to a process for the preparation of such a device and its uses, in particular in the context of the treatment of tissue loss, as well as biological kits, grafts, tissues or preparations.
- mammalian cells for experimental (genetic studies, toxicity studies, etc.), pharmacological or therapeutic needs (cell therapy, tissue repair, etc.) has experienced very significant development.
- different methods of obtaining cells or tissues have been developed, in particular for the preparation of primary cell cultures, based essentially on the taking and ex vivo treatment of a biopsy.
- the usual biopsy techniques are characterized by the fact that the samples are taken from mature tissue.
- the latter contain a lot of inter-cellular matrix and often few cells.
- the cells contained in the samples are mainly quiescent. These cells are therefore not in optimal physiological conditions for tissue repair applications.
- the present invention provides a new approach for the preparation of cells, grafts, tissues and, more generally, biological material comprising mammalian cells, with a view in particular to their implantation in vivo or to their use for research or screening experiments.
- industrial or pharmacogenomic More particularly, the present invention proposes to allow the recovery of activated cells by a controlled surgical trauma followed by a healing period, as well as means which surprisingly facilitate this recovery.
- the subject of the present invention is in particular a device intended to provide implants, cells or tissues. More particularly, the invention relates to a device, preferably of application limited in time, as defined above comprising a wall of biocompatible material delimiting a hollow volume, said wall having holes allowing cells to colonize said volume hollow.
- the present invention also relates to a method for preparing an implant, tissue or a cell culture, comprising (i) the introduction of a device as defined above into the tissue of a subject, (ii) maintaining the device for a period sufficient to allow colonization of the device by cells having desired properties and (iii) extraction of the device and recovery of the cells, which can be cultured, stored, conditioned and / or grafted .
- the present invention also relates to the use of a device as defined above for the preparation of an implant, tissue or cell culture.
- the present invention also relates to the use of a device according to the invention for the preparation of a composition intended for the implementation of a method of therapeutic or surgical treatment of the human body, in particular of a method of cell therapy .
- the present invention further relates to the use of a device according to the invention for the preparation of a kit intended for the removal of cells and / or tissue in vivo from a subject.
- the present invention also relates to a kit comprising a device as described above. It further relates to surgical instruments, generally for single use, associated with each type of device which can also be in the form of kits.
- the present invention further relates to a cell culture, a cell preparation, an implant or a tissue comprising cells, obtained by a method above.
- the device and methods according to the invention make it possible to promote cell proliferation and differentiation, the production of extracellular matrix, organization and tissue maturation by allowing optimal culture carried out under natural physiological conditions.
- the surrounding tissue in which the device is placed thus ensures a homogeneous and adequate supply and therefore even homogeneous growth of the tissue to be reconstituted proliferating within the volume of the device.
- the invention is based on a new approach for the preparation of biological material.
- the invention is based in particular on methods and devices allowing the in vivo recovery of cells in active phase, from tissues of interest.
- the invention thus describes a particular device, implantable in vivo, making it possible to trap cells of interest.
- the device according to the invention also makes it possible to maintain a proliferation space for the cells, which is not crushed or reduced by the pressure of the surrounding tissues.
- This device also makes it possible to easily recover the tissue and cells that have proliferated in its volume.
- This device is thus preferably of application limited in time, since it is, after recovery, removed from (or) tissue (s) in (s) which (s) it is.
- the device according to the invention comprises a wall made of biocompatible material delimiting a hollow volume, said wall having holes allowing cells to colonize said hollow volume.
- the holes must advantageously represent a sufficient surface for the permeability of the wall of the device to allow rapid colonization. They must not reach an excessive surface in order to avoid that the retention in the tissues is too great and that the extraction of the device from the tissues is difficult. The extraction can indeed cause a dilation of the tissue included in the internal volume of the device and the loss of part of this tissue.
- the ratio between the cumulative surface of the holes and the overall external surface of the wall of the device can vary depending on the tissue and the stage of healing sought. This ratio is preferably less than 0.5, in particular between 0.1 and 0.5, typically between 0.1 and 0.4. A ratio of 0.2 is preferred for bone and ligament tissues, for example.
- the holes in the wall of the device can be of various shape, size and arrangement.
- the round shape of the holes is suitable for certain tissues, it may also be interesting to choose elongated or ovalized holes so as to more easily release the device from a fibrous tissue, such as a ligament for example, by placing the large axis of the holes perpendicular to the fibers.
- the present invention therefore provides devices whose perforations can have a round, elongated and / or oval shape and / or any other shape adapted to the tissue of interest, in particular any other shape facilitating the colonization of cells, the regeneration of tissue and / or the implantation or the recovery of the trap.
- the same device can comprise holes of essentially identical dimensions with respect to each other and regularly distributed.
- the wall of the device can be flexible or more or less rigid depending on the tissue to be removed.
- the material used to make the device must be biocompatible so as not to negatively interfere with cell proliferation.
- the material used is chosen for its resistance to pressure as could be, for example, the material used for the preparation of an implant intended to replace a vertebral disc or part of the spinal column. Titanium, titanium alloys, ceramics, chromium-cobalt, nickel-chromium alloys, polymers such as polytetrafluoroethane or polycarbonate can for example be envisaged, without this list being exhaustive.
- the wall of the device of the invention is therefore made of a biocompatible material based on titanium, titanium alloys, ceramics, chrome-cobalt alloys, nickel-chromium or polymers such than polytetrafluoroethane or polycarbonate.
- the device according to the invention can adopt different external forms, depending on the tissue from which it is sought to recover cells.
- This shape is given by the wall of the device and can for example be that of a cylinder (especially for bone tissue), that of a spindle (especially for ligaments), that of a truncated cone (especially for alveoli), a biconvex lens (especially for the dermis, adipose tissue or aponeuroses), a uniconvex lens (especially for the periosteum), or any desired shape.
- the wall therefore gives the device a cylindrical outer shape, in a truncated cone, in spindle, in biconvex or uniconvex lens or any other shape adapted to the tissue from which it is sought to recover cells.
- hollow volume it is necessary to understand a volume delimited by the wall of the device, this volume being able to be empty, being able to contain a central pillar to avoid an unwanted flattening of the wall or being able to include a support allowing or promoting the culture or the adhesion cells and / or likely to constitute an implant.
- the shape of this support will be adapted by those skilled in the art depending on the site receiving the implant.
- the support or the internal wall of the device can be functionalized or treated to facilitate colonization or cell growth, for example by biological factors (growth factors, etc.) or suitable materials.
- a device according to the invention has a hollow interior volume of between 4 and 3000 mm 3 , preferably between 4 and 250, even more preferably between 20 and 100 mm 3 .
- the device has a length between 2 and 35 mm, preferably between 5 and 15 mm, a width between 2 and 15 mm, preferably between 3 and 6 mm, and a thickness between 1 and 6 mm, even more preferably, between 2 and 4 mm.
- the wall or the device comprises a part movable between a closed position in which the hollow volume communicates with the outside of the device only through the holes, and an open position. In the open position, the hollow volume communicates with the outside of the device by a larger passage allowing the recovery of cells or tissues.
- the wall of the device comprises a movable part
- the movable part of the wall can be constituted by one or two removable end pieces which are placed at the ends of the device.
- the mobile part can be one half of the device, that is to say a half-shell, joined to the other half by a hinge allowing the spacing and the approximation of the two half-shells, locking means (or closure) advantageously ensuring the maintenance of the two half-shells against each other.
- certain holes can be arranged to advantageously allow the fixing or the passage of a wire. or any other suitable means (elastic, blade, etc.), allowing the movable wall part or parts to be kept in the closed position.
- a wire is made of a deformable material such as metal, a twist at the outlet can serve as a locking means.
- the thread is non-metallic, single-strand and / or made of synthetic material, a knot can be made for the same purpose.
- the closure means (or locking) can also have different shapes and be produced for example by molding with the entire device.
- the mobile part of the wall of the device can be provided in any other suitable form. It may for example be a portion of the wall joined to the rest of the device by a line of mechanical weakness. Thus, a capsule that is torn or cut with a suitable instrument can constitute the movable part of the wall.
- the device of the invention also advantageously comprises a traction means intended to facilitate recovery of the device by minimizing damage to the surrounding tissues.
- the traction means makes it possible on the one hand to extract the device from the tissues in which it is implanted and, on the other hand, to guide the operator to facilitate the release of the device. It is thus possible to use a fine scalpel to release the tissues adhering to the device, using the traction means as a guide.
- the traction means is therefore generally a projecting element of the device, such as a guide, a strip, a wire, a blade, etc., allowing the gripping and / or localization of the device.
- the traction means comprises a wire hooked to the device, for example by passing through a hole in the device.
- the wire can be of deformable material or not, synthetic or not. It can be metallic, natural (collagen) or synthetic (example: polymer). Its length is advantageously adapted by a person skilled in the art, so that a free end is accessible after implantation of the device in vivo.
- the pull wire can therefore be used to extract the device once the delay has passed in vivo.
- An extension of the wire or, more generally, the means of traction can be left at a distance from the sampling site and can be stabilized under the epithelium by an additional suture to be easily found during the recovery intervention.
- the pull wire can be the same as the wire used to hold the device in the closed position.
- the traction means can be of different shapes. Thus, it can be molded with the entire device, in particular when the latter is made of polymer.
- the device of the invention advantageously comprises a wall as defined above and a means of traction and / or closure, said elements being made of a biocompatible material, preferably chosen from titanium, alloys of titanium, ceramics, chromium-cobalt, nickel-chromium alloys or polymers such as polytetrafluoroethane or polycarbonate.
- the elements can be prepared by molding the assembly, or by separate moldings and assemblies.
- the traction means and the closure means may form a single element, for example a wire.
- a particular device of the invention comprises a hollow sleeve constituting most of the wall and one or more end pieces representing or constituting each a movable part of the wall closing off one end of the sleeve (see FIG. 1).
- Each tip engages in the hollow sleeve so as not to have a protruding part, so as not to hinder the positioning of the device in the tissues then its extraction and / or so as not to maintain an area of inflammation by tissue trauma.
- the movable part of the wall formed by the end pieces and closing off the sleeve may for example be hemispherical, in a warhead or flat, depending on the tissue to be removed.
- a soft and fragile tissue such as adipose tissue
- tissues whose constituent elements have an elongated shape, such as ligaments and muscles, and, preferably, flat with rounded edges. for bone tissue.
- Another particular device comprises a biconvex or uniconvex lens constituting the entire wall, divided into two halves which are joined by a hinge (see Figure 6).
- a device further comprises an extraction tab, integral with one of the two halves.
- the extraction tab is elastically deformable and at rest crosses a slot in the other half of the lens, thus preventing the two halves from moving away from one another.
- the present invention also relates to a kit comprising a device as described above and allowing the removal of cells and / or tissues in vivo from a subject. It further relates to single-use surgical instruments associated with each type of device which may also be in the form of kits. They include:
- a handling tube the internal section of which corresponds to the external section of the device to be placed, and making it possible to carry the device in the desired receiving site with the minimum of handling difficulties and risks of contamination;
- the tube will advantageously be of round section for a cylindrical device and of flattened section for a device having the same characteristic; and or -
- the traction means in the case of a wire, can be previously fixed to the device and also ensure that it is closed, if this function is assigned to it, thus making it possible to recover it easily.
- the handling tube and the pusher can be made of any suitable material, for example polymer material, preferably transparent so as not to impair visibility during handling, for example polycarbonate.
- the entire device and its handling accessories are preferably supplied assembled and sterile in double bags.
- the present invention allows the particularly advantageous use of a device as described above for the preparation in vitro or ex vivo but also in vivo of a tissue, a cell culture, a graft or a implant. It can be mammalian tissue and in particular human tissue.
- it may be, for example, bone, ligament, cartilaginous, muscular, vascular or epithelio-connective tissue.
- the device or “cell trap” described in the present application advantageously uses the biological, cellular and molecular dynamics of scarring within the tissue of interest.
- the present invention notably proposes a protocol whose objective is to obtain, by an adapted surgical trauma, a site where a desired tissue will go through different phases of healing and different cellular states and to collect the cells sought from the site, under the best possible conditions, that is to say in vivo, at the chosen time.
- the establishment of a particular device constitutes the initial surgical trauma and makes it possible to “trap” the cells in active phases, which colonize the volume of the device, stimulated by the release of quantities of factors of in situ growth.
- the first phase corresponds to the formation of the blood clot.
- the blood flow due to the hemorrhage brings the fibrin (which creates a network of intertwined fibers) and the platelets which, by aggregating, seal the sectioned vessels and allow the development of a temporary matrix promoting migration cells.
- These blood platelets are reservoirs of growth factors and cytokines. Once activated, the platelets indeed release these molecules which represent the starting signal for repairing the lesion. They will trigger the recruitment of inflammatory cells to the site of the lesion, then epithelialization, the formation of granulation tissue and angiogenesis.
- the early inflammatory phase corresponding to the second phase, is represented by the massive arrival of polymorphonuclear blood neutrophils which come, attracted by cytokines, phagocyte foreign particles, debris and bacteria.
- Neutrophils neutralize these elements by producing enzymes and oxygen radicals which have a destructive effect even on the surrounding tissues.
- Neutrophils also release pro-inflammatory cytokines that attract and activate fibroblasts, nearby keratinocytes, and other cells immune systems, in particular blood monocytes which are called to become tissue macrophages in particular.
- the delayed inflammatory phase includes the concentration of macrophages, continuing on the one hand the work of neutrophils and phagocytic on the other hand foreign or tissue debris and bacteria. They continuously synthesize and secrete growth factors and cytokines and therefore continue to produce the molecular signals necessary for the healing process, following platelets and neutrophils. Macrophages clean the place of all altered tissues.
- Tissue destruction thus occurs during these inflammatory phases.
- a device according to the invention When a device according to the invention is put in place, it is therefore generally preferred to wait for the end of these first phases of healing before extracting it and recovering tissues or cells.
- the fibrin clot is then gradually lysed by enzymes (plasmin), allowing cells, in particular fibroblasts and keratinocytes, to migrate.
- proteas enzymes
- Proteases cause the resorption of the elements of the tissue matrix and in particular of the collagen, to facilitate the migration of the cells.
- other signals have a chemo-attractive effect on the cells necessary for repair.
- the training phase of granulation tissue begins around the 4th day, and corresponds to a period of intense cell proliferation and differentiation, including fibroblasts and new capillaries, with a persistence of macrophages and loose connective tissue .
- Granulation tissue thus constitutes a complex reservoir of cytokines having chemo-attractive, mitogenic and regulatory effects.
- cytokines having chemo-attractive, mitogenic and regulatory effects.
- fibroblasts developing an extracellular matrix which serves to support cells and neovascularization, which itself provides the nutrients necessary for highly activated cells.
- Fibroblasts also have a autocrine regulation, linked at least in part to the functional stimulation of cells by the stresses in tension within the tissue.
- tissue remodeling is a phase where the cells of the tissue considered, which proliferated during the previous phase, differentiate and produce the extra cellular matrix which repairs the damaged tissue and reconstitutes it. Fibroblasts are always present during this phase. In the case of bone tissue, the osteoblasts are activated at this stage and participate in the repair of the tissue. The tissue gradually matures and regulation reduces the number of cells when the repair is about to end.
- Tissue sampling gives very different results depending on whether it is performed in intact mature tissue, or in tissue recently injured and in the process of healing, and in the second case, according to the waiting period after the trauma.
- the granulation tissue phase goes through its maximum, and a sample at this stage will give the greatest number of cells in the proliferative phase.
- the present invention therefore provides a method for preparing a tissue, a cell culture or an implant by means of a device as described above capable of exploiting the natural regeneration capacities of a tissue in healing course.
- a device according to the invention can thus be implanted in a tissue of interest that is preferably healthy, that is to say that has not suffered any other lesion prior to implantation, so as to obtain a homogeneous regeneration of the tissue. Trauma, for example an incision, is thus made in the tissue of interest from which it is desired to take a cell sample and then, a device according to the invention, of a shape adapted to the tissue of interest, is placed within this fabric, for example using a handling tube and a pusher according to the invention. A suture is then made so as to stabilize the device within the tissue of interest.
- the traction means that may be present is stabilized by an additional suture, at a distance from the device and therefore from the sampling site, and makes it possible to easily locate the latter.
- the device After removing the device (for example during a second surgical intervention), the latter is opened under aseptic conditions, and its content is:
- tissue engineering or research either directly used as a graft for another operating site presenting a tissue lesion or deficit to be treated with the same type of tissue, - or placed in a culture or transport medium, for its use in a cell therapy process, tissue engineering or research.
- the content of the device is used as a graft, the latter is advantageously placed in a site which has itself been prepared in advance to be in a phase of tissue remodeling with a neovascularization favorable to the nutrition of the grafted tissue. All conditions will then be combined to obtain a very rapid and much safer healing.
- Another aspect of the invention relates to the advantageous use of a device as described for the preparation of a tissue or an implant for the treatment of tissue loss.
- Another aspect of the invention relates to a method of repairing a tissue loss or of treating a subject, comprising the following steps: a) the practice of trauma in a tissue from which it is desired to take a sample of cells and the establishment of the device according to the invention within this tissue, (these two phases are generally concomitant, the establishment of the device, for example by incision, constituting the trauma.
- the establishment of the device typically comprises a suturing step intended to hold the device in the tissue in question); b) recovering the device at a determined time at which the cells of the tissue have desired properties, for example between days 5 and 21 inclusive, preferably between days 6 and 14 inclusive after placement; and c) the recovery of cells or tissues in the device and their grafting, either directly or after culture and / or conditioning, at a reception site in the subject where tissue repair is desired or making it possible to treat the subject .
- the device is recovered around the fourteenth day, during the remodeling phase.
- the method is suitable for repairing bone, ligament, muscle, tendon, connective, vascular, etc. tissues.
- the cells removed are autologous cells.
- the cells are in this case directly taken from the subject for which one seeks to obtain a tissue repair. It can also be syngeneic cells taken from a twin identical to the subject to be treated or allogenic cells originating from another subject of the same species (related or not), that is to say from another being human in the case of the treatment of a human patient.
- FIG. 1 is an exploded view in elevation of a cylindrical device according to a first embodiment
- FIG. 2 is a longitudinal section along ll-ll of Figure 1;
- FIG. 3 is a longitudinal section along II-II of the device in the assembled state
- Figure 4 is a side view along IV of Figure 1;
- FIG. 5 is a side view along V of Figure 1 showing the internal face of the nozzle
- FIG. 6 shows a device according to another embodiment of the invention, in the open state
- FIG. 7 is a sectional view along VII-VII of Figure 6;
- Figure 9 is a sectional view along IX-IX of Figure 8.
- the device comprises a hollow cylindrical sleeve 1 whose side wall is pierced with holes 2 allowing cell colonization of the internal volume of the device.
- Each nozzle has a diameter very slightly smaller than the internal diameter of the sleeve so that it can forcefully engage therein and immobilize there.
- Each end piece 3 has an end flange 4 which bears against the edge 5 of the sleeve and extends the external face of the latter, when the end piece is in position, by its rounded shape connecting without sharp edges the lateral face of the sleeve to the external face of the end piece.
- Said external face is formed by a transverse veil 6 which, according to the invention, constitutes a movable part of the wall of the device.
- the veil 6 is produced in one piece with the rest of the end piece.
- Holes 7 identical or similar to those 2 made in the side wall of the sleeve are formed in the transverse web of each end piece, as seen in FIGS. 4 and 5.
- the movable part of the wall formed by the webs 6 can take a closed position, in which the end pieces are in place on the sleeve.
- the interior volume of the device then communicates with the exterior only through the holes 2, 7, and in an open position in which the end pieces are removed. In the latter case, the interior volume of the device is open to the outside by a passage the size of its cross section.
- FIG 3 there is shown a suture 8 forming a loop passing through the holes 7 of the tips.
- the suture thread By being twisted at its exit from the device, the suture thread remains taut between the two end pieces 3 and thus keeps said end pieces integral with the sleeve 1.
- the extension 9 of the suture 8 serves as a traction wire for removing the device at the end of the capture period.
- the wire can be knotted rather than twisted.
- the device is in the form of a generally flat shell 10 formed of two half-shells 11, 12 joined by a flexible hinge 13.
- each half-shell is pierced with colonization holes 14.
- Each half-shell is movable relative to the other.
- the half-shell 12 constitutes the movable part of the wall of the device.
- the half-shell 12 can take a closed position, shown in FIGS. 8 and 9, in which the internal volume of the device communicates with the outside only through the holes 14, and an open position , shown in Figure 7, wherein the interior opens to the exterior over its entire cross section, taken in its main plane.
- the shell In its main plane, which is that of FIG. 6, the shell has a generally rectangular section. In a perpendicular plane, in particular that of FIGS. 7 and 9, the section of the device is in a warhead.
- One 11 of the half-shells comprises, opposite the hinge 13, an extraction tab 15 terminated by a fixing orifice 16 by means of which said tab can be sutured under the epithelium for its recovery.
- the fixing lug 15 consists of two branches, one 15a short, the other 15b long, perpendicular to each other.
- the short branch 15a arises inside the half-shell 11 and rises perpendicularly to the main plane of the half-shell, along its edge 17 opposite the hinge 13.
- the long branch 15b is at low distance from the edge of the half-shell and forms a right angle with the short branch 15a.
- a slot 18 is formed along the edge 19 opposite the hinge 13, over a length slightly greater than the width of the extraction tab 15.
- the extraction tab like the rest of the device, is made of flexible plastic. It is sufficiently deformable to be able to be bent elastically on itself so as to present its free end, provided with the fixing orifice 16, on the path of the slot 18 when the two half-shells are brought together by rotation around the hinge 13.
- the tab engages therein and the closing of the device continues until the two half-shells are fully applied against one another. Just before the device closes, the slot crosses the right angle formed by the two legs of the tab.
- the fixing tab then returns to its rest position to keep the device closed, as shown in FIG. 9.
- the subsequent opening of the device to extract the cells therefrom after colonization is effected by a reverse movement, facilitating the spacing of the two half-shells by an action on the tab intended to deform it.
- one of the two half-shells 11 has a central pillar 20 which bears against the internal face of the other half-shell, as also seen in the figure. 9.
- Example 1 Sampling of bone cells.
- An access incision of at least 4 cm, is made in an accessible bone, for example, the edentulous crest of a maxilla or the anteromedial edge of the tibia.
- a muco-periosteal detachment is then performed.
- a progressive drilling is carried out, from 2 to 5 mm in diameter, per mm, under irrigation, and for a depth of 10 mm, to the dimensions of the "cell trap". This is placed with the "trap holder" in the prepared socket, and the withdrawal wire is pressed against the bone surface to the other end of the incision. Cutaneous or mucosal sutures are performed, the last fixing a subcutaneous or mucous membrane with a loop ending the extraction thread of the trap.
- a guided tissue regeneration membrane can optionally be placed over the opening of the socket, the trap and the wire, against the bone surface, projecting at least 5 mm on each side of the socket to prevent soft tissue does not invade it.
- the different phases of healing of bone tissue will occur, with the release of growth factors and cellular activations.
- the "trap" can be removed 14 days after its installation to extract a cell population from the surrounding bone tissue and differentiated into osteoblasts. These cells can then be cultured in vitro, much more favorably than if it were necessary to wait for the exit of the cells from explants of bone tissue.
- the tissue can also be grafted where needed.
- Example 2 Samples of tendon or ligament fibroblasts.
- the removal by removal of the "cell trap” can be done after 14 days, so as to remove the greatest number of differentiated cells which will have colonized the interior of the trap. Fairly large openings (18) in the end caps of the trap can promote functional stimulation within the trap and thereby improve cell differentiation. Once the "trap" is removed, the sutures are redone.
- the cells thus obtained do not have to emerge from a dense matrix before they can be cultured, which considerably accelerates the culture in vitro. These cells can also be placed against a ligament injury for repair.
- Example 3 Samples of cells from the periodontal ligament.
- a frustoconical "trap" can be placed in the dental socket to recover cells from the periodontal ligament. Indeed, the latter proliferate rapidly on the surface of the alveolar cavity after any extraction, provided that the cavity has not been curetted. After a week's delay, these cells can differentiate into osteoblasts. The retention time of the trap determines the nature of the cells recovered.
- a mucous flap After placing the trap in an extraction socket, a mucous flap must cover and close the socket for the entire period. The suturing principles are the same and the pulling wire is brought about 3 cm from the "trap".
- Example 4 Collection of periosteum cells.
- a flat uniconvex "trap” is preferred.
- the sampling site is an accessible bone surface (tibia, palate).
- An access incision followed by a separation of the periosteum on 4 cm are necessary to slip the "trap” into the "pocket” made. It is important that bone contact is obtained.
- the planes (fascia + skin) are re-sutured by stabilizing the loop ending the extraction thread at the other end of the incision. A period of 14 to 21 days is necessary to obtain a sufficient cell population of osteoblasts. Then the "trap” is removed using the extraction wire as a guide.
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Abstract
Description
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Application Number | Priority Date | Filing Date | Title |
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FR0116456 | 2001-12-19 | ||
FR0116456A FR2833609B1 (en) | 2001-12-19 | 2001-12-19 | ACTIVE PHASE CELL OR TISSUE SAMPLING DEVICE AND USES |
PCT/FR2002/004410 WO2003052047A1 (en) | 2001-12-19 | 2002-12-17 | Device for active phase cell or tissue sampling and uses thereof |
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EP1453947A1 true EP1453947A1 (en) | 2004-09-08 |
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EP02804938A Withdrawn EP1453947A1 (en) | 2001-12-19 | 2002-12-17 | Device for active phase cell or tissue sampling and uses thereof |
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EP (1) | EP1453947A1 (en) |
JP (1) | JP2005512530A (en) |
CN (1) | CN1308434C (en) |
AU (1) | AU2002364664B2 (en) |
CA (1) | CA2469740A1 (en) |
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US8293225B2 (en) * | 2005-10-24 | 2012-10-23 | Ed. Geistlich Soehne Ag Fuer Chemische Industrie | Method and device for synovial cell-charged collagen membrane or gel |
KR100979400B1 (en) | 2006-01-11 | 2010-09-01 | 퀄컴 인코포레이티드 | Communication methods and apparatus used in the absence or presence of beacon signals |
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US5876457A (en) * | 1997-05-20 | 1999-03-02 | George J. Picha | Spinal implant |
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2001
- 2001-12-19 FR FR0116456A patent/FR2833609B1/en not_active Expired - Fee Related
-
2002
- 2002-12-17 EP EP02804938A patent/EP1453947A1/en not_active Withdrawn
- 2002-12-17 US US10/498,122 patent/US20040249448A1/en not_active Abandoned
- 2002-12-17 WO PCT/FR2002/004410 patent/WO2003052047A1/en active Application Filing
- 2002-12-17 CA CA002469740A patent/CA2469740A1/en not_active Abandoned
- 2002-12-17 JP JP2003552914A patent/JP2005512530A/en active Pending
- 2002-12-17 CN CNB02825435XA patent/CN1308434C/en not_active Expired - Fee Related
- 2002-12-17 AU AU2002364664A patent/AU2002364664B2/en not_active Ceased
Non-Patent Citations (1)
Title |
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See references of WO03052047A1 * |
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CN1602350A (en) | 2005-03-30 |
JP2005512530A (en) | 2005-05-12 |
FR2833609B1 (en) | 2004-12-03 |
WO2003052047A1 (en) | 2003-06-26 |
FR2833609A1 (en) | 2003-06-20 |
CN1308434C (en) | 2007-04-04 |
US20040249448A1 (en) | 2004-12-09 |
AU2002364664B2 (en) | 2007-09-20 |
AU2002364664A1 (en) | 2003-06-30 |
CA2469740A1 (en) | 2003-06-26 |
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