• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a set of implantology kits comprising for each kit (10) an implant pack (20) comprising a dental implant, a cover screw and a healing screw arranged to be targeted in the implant, a terminal drill arranged to perforate the jaw bones, and having a size compatible with that of the implant, a mandrel arranged to fit into the implant and screw; and a prosthesis pack (30) comprising a prosthetic abutment having an intra-implant portion arranged to be sealed or glued into the implant, and an extra-implant portion arranged to apply a prosthesis, a burnable abutment also serving as a transfer device. impression, a counterpart / analog of the implant reproducing the implant in the laboratory; said set comprises a predetermined number of kits, each of which is each assigned a respective diameter and length of the implant selected from a predetermined number of combinations of implant lengths and diameters.
    公开号:CH709925A1
    申请号:CH01149/14
    申请日:2014-07-25
    公开日:2016-01-29
    发明作者:Olivier Benhamou
    申请人:Sudimplant;
    IPC主号:
    专利说明:

    The present invention relates to a set of dental implantology kits comprising for each dental implantology kit:an implant pack comprising:a dental implant;a cover screw and a healing screw arranged to be targeted in the dental implant;a terminal drill arranged to perforate in the bones of the jaws where the dental implant is to be implanted, the terminal drill having a size compatible with that of the dental implant, anda mandrel arranged to fit into the dental implant and thus allow the implant to be placed in the bone,a prosthesis pack comprising:a prosthetic abutment for a fixed prosthesis and / or a removable prosthesis and having an intra-implant portion arranged to be sealed or glued in the dental implant, and an extra-implant part arranged to fix a dental prosthesis,a calcinable abutment having an intra-implant portion arranged to reproduce the portion intended to be inserted into the dental implant, and an extra-implant portion provided with an impression transfer member for producing a customized prosthetic abutment adapted to a dental arch of a patient, anda counterpart / analog of the dental implant arranged to receive the intra-implant portion of the prosthetic abutment or calcinable abutment.
    [0002] Osteointegrated dental implants are supports intended to create stable, resistant, effective, non-iatrogenic, durable anchoring points on the maxillae, on which a fixed or removable dental prosthesis is adapted in order to restore the patient to an oral function. adequate, satisfactory comfort and aesthetics. Osseointegration is the direct anatomical, biological and functional connection between a healthy living bone and the surface of a dental implant supporting a dental prosthesis.
    [0003] Implantology is the branch of dental surgery that consists of placing dental implants. Medical specialists in maxillofacial surgery and stomatology, as well as dental surgeons with specialized training in dental implantology are the only ones qualified to practice this dental treatment.
    [0004] Millions of patients around the world have been treated with osseointegrated dental implants, and their number is growing by 10% per year. There are more than 200 different dental implant systems on the market and surgical and prosthetic kits have a large number of packs, ie specialized parts and tools. Dental specialists have to deal with a wide range of packs, some more specialized than others. It thus becomes very difficult for the dental specialist to choose quickly and correctly, at first sight and without errors, the packs for the placement of a dental implant and for the choice of the prosthetic rehabilitation that will best suit the patient according to the dental treatment plan established.
    In addition, dental specialists using surgical and prosthetic kits including this large amount of packs, must make large investments for the purchase of all equipment and equipment of their dental offices. To these expenses, other costs are added, because all this material, which was exposed to the ambient air during the selection of packs for the dental implant which corresponds to the treatment and during the establishment of this implant. , must be sterilized later. The sterilization steps also have the disadvantage of the waiting time to be able to reuse this material during a subsequent intervention, thus limiting the number of interventions that the specialist can perform during a working day.
    The invention aims to provide a means to generalize the practice of dental implantology to simplify this practice by reducing the need for expensive and long specializations to empower practitioners to place dental implants, and reducing the need for large investments in equipment.
    To this end the set of dental implantology kits according to the invention is characterized in that said set comprises a predetermined number of dental implantology kits, each dental implantology kits is assigned each time a diameter and a respective length of the implant, selected from a predetermined number of combinations of implant lengths and diameters.
    The set of predetermined kits chosen according to combinations of lengths and implant diameters, reduces the number of packs offered to the dentist or the dental specialist. That is to say that the choice of the dentist or dental specialist is facilitated and directed, it is sufficient for him to choose between the packs proposed in a set of kits. He decides which implant is suitable for the treatment by measuring the diameter and length of the existing bone at the location where the implant is to be implanted, and the fixed or removable prosthetic solution, depending on the treatment plan. . Once he has determined these two criteria, he is able to quickly select the correct kit in the set of predetermined kits, as they are grouped by diameter and length of the impiant and prosthetic solution. The kits included in the set gather the packs necessary to meet the needs in most clinical cases and according to the invention they are combined as implant packs and prosthesis packs.
    The arrangement of the parts and tools provided for dental implantology in implant packs and prosthesis packs according to the invention, helps dentists or dental specialists to not make mistakes. An implant pack chosen for a treatment is linked to a prosthesis pack. The dentist or dental specialist knows that in the implant pack he will find the elements concerning the dental implant that correspond to the patient's need (bone anatomy), and that in the prosthesis pack, linked to the choice of the implant, he will find the elements that will allow the prosthesis to be received in accordance with the established treatment plan. This helps the dentist or dental specialist to ensure that he can not go wrong, that is to say, to put a dental implant and have prosthetic elements that do not match this chosen dental implant. This is a fairly common mistake, as several months pass between the implant phase and the prosthesis phase in the dental implantology treatment, when the dentist or dental specialist sees a large amount of patients, and when there are many people working in the same team, it is not always easy to have good ranking and storage practices.
    All this makes the dentist or the dental specialist is guided to make his choice for a dental implant in the set of kits proposed by reducing the time that this choice takes him, and reducing the possibility of error because the number of packs is reduced. Thus, the implant pack with a given implant length and diameter, associated with the prosthesis pack with a fixed or removable prosthetic solution, makes it possible to optimize the quantity of procedures that the dentist or specialist can perform during a workday, and greatly reduces the investment in the stock of equipment required for these procedures and the sources of errors. Thus, he can order and buy only the implantology kit with the diameter and length he needs to place the implant and prosthesis for his patient, so an implantology kit for a patient.
    Thus, dental implantology treatments become affordable for a larger part of the population. The invention allows the choice of packs to be limited to a set of predetermined packs, from this it follows that the working time of the dentist or dental specialist is optimized by avoiding the loss of time and errors related to the choice of the pack. equipment.
    Advantageously, in the set of kits according to the invention the combinations of lengths and implant diameters are chosen from dental implants which have a predetermined range of lengths, in particular between 8 and 14 mm, and a predetermined range of diameter dimensions, in particular between 3.3 and 4.7 mm. These ranges make it possible to offer combinations of implant packs and prosthesis packs that correspond to most clinical cases (80% of clinical cases), proposing a standardization of dental implants according to the general cases that occur in most patients. This choice of dimensions allows the number of kits overall to be reduced, thereby presenting the benefits of reduced package selection time, reduced costs of hardware investment for a dental office, and reduced sources. errors.
    According to an advantageous form of the set of kits according to the invention, the predetermined number of dental implantology kits is equal to twenty-four. This instead of several hundred. Thus, the dentist or dental specialist reduces the investment in equipment to equip his practice as the number of packs is significantly reduced. The set of kits offered make it no longer necessary to have a large stock of equipment in his office. The kits show combinations of implant packs and prosthesis packs that correspond to most treatments, that is to say that from two criteria, the dimensions of the implant and the prosthetic solution, the dentist or the patient. specialist can respond to 80% of clinical cases.
    In particular, according to one embodiment of the set of kits according to the invention, the mandrel is also arranged to take hold both in the cover screw in the healing screw. Thus, the mandrel can also be used as a screwdriver, this being complementary to the usual use of the mandrel which allows the dentist or specialist to manipulate the dental implant. The mandrel allows both the grip and the placement of the dental implant in the jaw bone without having to manually touch the implant.
    Preferably, in the set of kits according to the invention the implant pack comprises a clamping means, in particular a hexagonal key, allowing manual clamping of the dental implant during implantation in the bone. This clamping means used manually by the dentist or specialist allows the clamping of the implant only using his hand. The profile of the clamping means has a profile matching that of the mechanical gripping element of the dental implant, so that the dentist or specialist can insert the implant and tighten it in the bone. This clamping means can have the shape of a hexagonal key and allows the implant pack to include all the parts and tools necessary for the implementation of a dental implant. This is particularly suitable in situations where the dentist or dental specialist is faced with unfavorable conditions, for example when he has to perform his practice in a time cabinet where there is no electricity, as in a distant town. Thus, the invention can truly generalize the practice of implantology being also within reach of the less favored.
    Advantageously, in the set of kits according to the invention, the extra-implant portion of the prosthetic abutment is configured as an attachment member arranged to directly apply a dental prosthesis. This extra-implant portion may have the shape of a false stump arranged to directly receive a dental prosthesis and allow the dental prosthesis is well fixed and therefore stable.
    Advantageously, in the set of kits according to the invention, the prosthetic pillar prosthesis pack is a conical prosthetic abutment for fixing a crown or a bridge.
    Advantageously, in the set of kits according to the invention, the prosthetic pillar of the prosthesis pack is a spherical prosthetic abutment for fixing a denture.
    The choice between prosthetic solutions, a conical prosthetic abutment or a spherical prosthetic abutment, allows the dentist or dental specialist to better target treatment to meet the patient's need.
    In particular, according to one embodiment of the set of kits according to the invention, each implant pack is disposable and sterile, and each prosthesis pack is disposable. The dentist or dental specialist uses the parts provided in the kit selected according to the clinical case, once the implant is implanted he throws the implant pack, just as once the prosthesis is in place he throws the prosthesis pack . This avoids the need for sterilization and stock packs, also avoiding wear parts and ensures that the quality of parts is irreproachable.
    In addition, in a preferred embodiment according to the invention, the prosthetic pillar prosthesis pack is a prosthetic abutment titanium. This pillar is preferably to seal or stick in the dental implant. In particular, sealing is a common practice for general dentists. Thus the practice of dental implantology based on the cementation of the prosthetic abutment also becomes a common practice. Thus, dental implantology considered as a technique needing special specialization can become a technique based on known procedures for dentists in general. Today titanium is commonly used to make prosthetic abutments because it is a material that is well accepted by the human body.
    In particular, according to one embodiment of the set of kits according to the invention, the calcinable pillar is formed by two flattened cubes connected by a cylinder. This is particularly useful when this pillar serves as a fingerprint transfer.
    The invention will now be described in more detail with the aid of the drawings which illustrate a preferred embodiment of the set of kits. In the drawings:<tb> fig. 1 <SEP> illustrates a dental implantology kit according to the invention comprising an implant pack and a prosthesis pack; and<tb> fig. 2 <SEP> shows a diagram to illustrate that each of the dental implantology kits is assigned each time a diameter and a respective length of an implant, the implant pack, and a prosthetic solution, fixed or removable, the prosthesis pack .
    In the drawings the same reference has been assigned to the same element or an analogous element.
    In the following description, by practitioner we understand the dentist or the dental specialist or anyone who performs a dental implantology procedure using the set of dental implantology kits according to the invention. By pack we understand both the implant packs 20 and the prosthesis packs 30 which are combined in a dental implantology kit 10.
    Fig. 3 1 schematically illustrates one of the dental implantology kits 10 forming part of the set of kits according to the invention. Thus, FIG. 1 illustrates an implant pack 20 having a dental implant having a determined diameter and length, and a prosthesis pack 30 having a fixed or removable prosthetic solution.
    A dental implant 21 is intended to be placed in the maxillary bone, and may be totally or partially buried in the bone, in partially or totally edentulous patients, for a prosthetic restoration in the teeth. case of unitary edentulousness, interdental edentulousness, terminal toothlessness, total edentulism, or stabilization of a removable prosthesis.
    Each implant pack 20 comprises the dental implant 21 each having a diameter (Ø) and a length (L) well defined. The implant pack 20 also comprises a cover screw 22 and a healing screw 23 which can be aimed in the dental implant 21. A terminal drill 24, which allows to perforate the jaws in the bone where the Dental implant 21 must be implanted is also part of the pack. The drill 24 has a dimension compatible with that of the dental implant 21. The pack also comprises a mandrel 25, which can not only be inserted into the dental implant 21 so that it can be handled by the practitioner, but preferably also serve to screw the screws 22 and 23 in the dental implant. This pack may also comprise a clamping means 26, for example a hexagonal key, allowing the manual placement of the dental implant 21.
    The prosthesis pack 30 comprises a prosthetic abutment 31 having an intra-implant portion to be fixed, preferably by sealing or bonding, in the dental implant 21, and an extra-implant portion on which a dental prosthesis will be fixed. This prosthetic abutment 31 may be conical and intended to receive a fixed prosthesis, or it may be spherical and intended to receive a removable prosthesis.
    In the prosthesis packs 30, the intra-implant portion of the prosthetic pillars 31, whether for fixed or removable prosthesis, is adapted to the length and diameter of the dental implants 21. In addition, in the prosthesis pack 30 having a conical prosthetic abutment 31 for a fixed prosthetic solution, the extra-implant part of the prosthetic abutment 31 is adapted to the diameter of the dental implant 21.
    A calcinable abutment 32 is also included in the prosthesis pack 30. The calcinable abutment has an intra-implant portion arranged to reproduce the part intended to be inserted into the dental implant (21), and an extra-implant part. The extra-implant portion of this calcinable post 32 has an impression transfer member, which preferably is formed by two flattened cubes connected by a cylinder. The transfer member for taking the impression of the position of the implant in the oral cavity of the patient to subsequently reposition the latter substantially identical to the prosthesis laboratory. This makes this calcinable pillar 32 a part for both impression transfer to subsequently reproduce the oral situation in the prosthesis laboratory, and also used for the realization of a customized cast metal pillar and adapted to the arcade dental patient.
    The prosthesis pack 30 also comprises a homologue / analog of the dental implant 33, arranged to receive the intra-implant portion of the calcinable pillar. This counterpart / analog is intended to reproduce the shape of the implant on a laboratory model, thus receiving the prosthetic abutment or the calcinable abutment 32 to manufacture the personalized abutment which will be sealed in the dental implant 21.
    FIG. 2 shows a diagram to illustrate how each of the dental implantology kits 10 is assigned each time a diameter (Ø) and a length (L) respective of a dental implant 21, determining the combination of the implant pack 20 and the prosthesis pack 30. The combination of this diameter (Ø) and this length (L) is selected from the ranges of diameters (Ø) and lengths (L) which correspond to most clinical cases as mentioned beforehand.
    The length dimensions (L) for the implant packs 20 are chosen between a predetermined range of length dimensions (L), in particular a range between 8 and 14 mm. Thus, the most commonly used lengths (L) are 8, 10, 12, and 14 mm. At these implant lengths (L) are assigned diameters (Ø) within a predetermined range of diameter (Ø), in particular between 3.3 and 4.7 mm. For example: an implant pack 20 comprising a dental implant 21 having a length of 8 mm and a diameter of 3.3 mm, or a dental implant 21 having a length of 8 mm and a diameter of 4.7 mm.
    The set of prosthesis packs 30 includes packs offering fixed solutions, for example to ask a crown or a bridge, and packs offering removable solutions, for example to put a denture. According to a preferred embodiment of the invention, the prosthesis pack 30 which responds to the fixed solutions comprises a conical titanium abutment 31 of titanium, it is a pillar of widespread use. It should be noted that developments in materials may offer other materials for the manufacture of prosthetic abutments 31.
    When the implant 21, once installed, has an emergence axis incompatible with a standard prosthetic embodiment, it uses a customized angled abutment. In this case, a calcinable abutment 32 is used and shaped in the laboratory to obtain angulation compatible with a solution or prosthetic rehabilitation adapted to the patient's dental arch.
    The homologue / analog of the dental implant 33 reproduces the position of the dental implant 21 implanted in the bone on a plaster model in the laboratory, this thanks to the use of the calcinable pillar 32 which makes impression transfer office. Thus, the prosthesis laboratory can fashion a crown or a bridge from the mouth model obtained by having the calcinable abutment 32 and introducing it into the dental implant 21 following the shape of the desired prosthetic solution or rehabilitation. .
    To determine the kit that is suitable for the patient, from an X-ray of the jaw bone where the dental implant 21 must be implanted, the practitioner assesses the available bone volume. Thus, using these measurements, it determines what is the combination of diameter (Ø) and length (L) of the dental implant 21 to be implanted. With these measurements, and according to the desired prosthetic solution, fixed or removable, he chooses among the options proposed in the set of kits, that which corresponds to the dental implant 21 to be implanted. Once he knows this combination that corresponds to the dental implant 21 that he needs, he can order and purchase the disposable kit 10 including the implant pack 20 and the prosthesis pack 30 that allow him to treat the patient. In this kit 10 he will find all the elements necessary to perform the installation of the dental implant 21 and allow the prosthetic rehabilitation of his patient. After the use of the kit 10 the practitioner will have to discard the remaining material that has been exposed and is not implanted in the patient's mouth.
    This means that once the practitioner has determined the combination of diameter (Ø) and length (L) of the dental implant 21 that he needs from the measurements taken with the aid of the X-ray, he also makes the choice of the prosthetic abutment 31, conical or spherical, which he will use in the dental implant 21 chosen. That is, the dimensions of the dental implant 21 determined to be appropriate for the case under treatment, will correspond to a predefined length of the intra-implant portion of the prosthetic abutment 31 which is in the prosthesis pack 30 which is related to the implant pack 20. Thus, each implant pack 20 is linked to a prosthesis pack 30 which corresponds to it for each patient.
    Thus, the set of kits is limited by a predetermined number of kits 10 comprising implant packs 20 and prosthesis packs 30 having predetermined combinations of a diameter (Ø) and a length (L), In fig. 2 the set of dental implantology kits is illustrated using n kits 101, 102, 10i and 10n. A first kit 101comprises a first implant pack 201 and a first prosthesis pack 301 for a combination of a first diameter Ø1 and a first length L1 of a dental implant 21 in the implant pack 201, and corresponds to a selection between a fixed prosthetic solution or removable for prosthesis pack 301.
    A second kit 102 combines a second implant pack 202 and a second prosthesis pack 302. This combination responds to the combination of a second diameter Ø2 and a second length L2 of a dental implant 21 in the implant pack 202 and responds to a selection between a fixed or removable prosthetic solution for the prosthesis pack 302. And so on until a kit 10nombinating an implant pack 20net a 30n prosthesis pack. This combination, which corresponds to the combination of a diameter Ønet of a length Lnd, a dental implant 21 in the implant pack 20net, corresponds to a selection between a fixed or removable prosthetic solution for the prosthesis pack 30n.
    According to a preferred embodiment of the invention, the implant packs and the prosthesis packs are combined to form the set of twenty-four predetermined kits in order to offer the practitioner the kits necessary for him to perform the procedures. dental implantology by responding to at least 80% of clinical cases. The possible combinations are made between twelve implant packs 20 corresponding to the predetermined ranges of diameters (Ø), in particular between 3.3 and 4.7 mm, and lengths (L), in particular between 8 and 14 mm, and two prosthesis packs 30 corresponding to the fixed or removable prosthetic solutions. The twelve implant packs 20 are formed by the following combinations of diameter and length dimensions: Ø = 3.3 mm and L = 8, 10, 12 or 14 mm, Ø = 3.9 mm and L = 8, 10, 12 or 14 mm , Ø = 4.7 mm and L = 8, 10, 12 or 14 mm. That is, the set of 24 kits is obtained by the combination of twelve implant packs multiplied by two prosthesis packs 30.
    The invention provides these kits 10 for single use, so practitioners no longer need surgical kits and prosthetic with multiple parts to clean and sterilize a first time and resterilize for subsequent uses, this avoids the problems of asepsis, traceability, wear, caused by the multiplication of the interventions, By using these kits 10 the practitioner optimizes the number of procedures that he can realize in a working day having at his disposal all the material necessary for this .
    The protocol that the practitioner uses to carry out the dental implantology procedure that allows him to place a dental implant 21 using the set of dental implantology kits according to the invention, generally consists of three steps: the setting in surgical placement of the dental implant 21, bone healing and soft tissue, and putting into operation of the dental implant 21.
    Surgical placement of the dental implant 21 comprises the rotary instrumental sequence using the terminal drill 24 to trephine the bone. Once the bone is prepared to receive the dental implant 21, using the mandrel 25 the practitioner takes the dental implant 21 included in the implant pack 20 that he chose according to the diameter (Ø) and the length (L) measured, and he screws it into the bone at the place where he drilled. It can also use the hex key provided in the implant pack 20 for manual placement of the dental implant 21. Then, the practitioner using the same mandrel 25 removes the cover screw 22 or healing 23 also included in the implant pack 20 and closes the dental implant 21.
    After the time required for bone healing to obtain osseointegration which varies between 3 to 6 months, the dental implant 21 has a clinical fixity allowing the prosthetic phase. In order to put the dental implant 21 into operation, preferably the prosthetic abutment 31 is sealed or glued in the dental implant 21. Next, an impression of this prosthetic abutment 31, or in the case of a personalized pillar the impression of the calcinable abutment 32, allows the laboratory technician to develop the crown, bridge or denture, depending on the treatment.
    权利要求:
    Claims (12)
    [1]
    1. Set of dental implantology kits including for each dental implantology kit (10):An implant pack (20) comprising:A dental implant (21),- a cover screw (22) and a healing screw (23) arranged to be targeted in the dental implant (21),A terminal drill (24) arranged to perforate in the jaw bones where the dental implant (21) is to be implanted, the terminal drill (24) having a size compatible with that of the dental implant (21); ), andA mandrel (25) arranged to fit into the dental implant and thus allow the implant to be placed in the bone,A prosthesis pack (30) comprising:- a prosthetic abutment (31) for a fixed prosthesis and / or a removable prosthesis and having an intra-implant portion arranged to be sealed or glued in the dental implant (21), and an extra-implant portion arranged to fix it a dental prosthesis,A calcinable abutment (32) having an intra-implant portion arranged to reproduce the part intended to be inserted into the dental implant (21), and an extra-implantary part provided with an impression transfer member making it possible to perform a personalized prosthetic abutment adapted to a dental arch of a patient, and- A homologue / analog of the dental implant (33) arranged to receive the intra-implant portion of the prosthetic pillar or calcinable pillar.characterized in that said assembly comprises a predetermined number of dental implantology kits, each dental implantology kit (10) is each assigned a respective diameter (Ø) and length (L) of the dental implant ( 21) selected from a predetermined number of combinations of implant lengths (L) and diameters (Ø).
    [2]
    The set of dental implantology kits according to claim 1, wherein the combinations of lengths (L) and implant diameters (Ø) are selected from dental implants (21) having a predetermined range of diameter dimensions. (Ø), in particular between 3.3 and 4.7 mm, and a predetermined range of length dimensions (L), in particular between 8 and 14 mm.
    [3]
    The set of dental implantology kits according to one of claims 1 or 2, wherein the predetermined number of dental implantology kits (10) is equal to twenty-four.
    [4]
    4. set of dental implantology kits according to one of claims 1 to 3, wherein the mandrel (25) is also arranged to take hold in both the cover screw (22) and in the healing screw (23) .
    [5]
    The set of dental implantology kits according to one of claims 1 to 4, wherein the implant pack (20) comprises a clamping means (26), in particular a hexagonal wrench, allowing a manual tightening of the implant. dental (21) during implantation in the bone.
    [6]
    The set of dental implantology kits according to one of claims 1 to 5, wherein the extra-implant portion of the prosthetic abutment (31) is configured as an attachment member arranged to directly apply a prosthesis therein. dental.
    [7]
    7. set of dental implantology kits according to one of claims 1 to 6, wherein the prosthetic pillar (31) of the prosthesis pack (30) is a conical prosthetic abutment for fixing a crown or a bridge .
    [8]
    8. Set of dental implantology kits according to one of claims 1 to 7, wherein the prosthetic pillar (31) of the prosthesis pack (30) is a spherical prosthetic abutment for fixing a denture.
    [9]
    9. Set of dental implantology kits according to one of claims 1 to 8, wherein each implant pack (20) is disposable and sterile, and each prosthesis pack (30) is disposable.
    [10]
    10. Set of dental implantology kits according to one of claims 1 to 9, wherein the calcinable pillar (32) is formed by two flattened cubes connected by a cylinder.
    [11]
    11. Set of dental implantology kits according to one of claims 1 to 10, wherein the calcinable pillar (32) is arranged to be transformed after modification and casting, in a customized pillar adapted to the dental arch of the patient.
    [12]
    12. Set of dental implantology kits according to one of claims 1 to 11, wherein the prosthetic pillar (31) of the prosthesis pack (30) is a prosthetic abutment titanium.
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    同族专利:
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    法律状态:
    2020-02-28| PL| Patent ceased|
    优先权:
    申请号 | 申请日 | 专利标题
    CH01149/14A|CH709925B1|2014-07-25|2014-07-25|Set of dental implantology kits.|CH01149/14A| CH709925B1|2014-07-25|2014-07-25|Set of dental implantology kits.|
    ES15002423T| ES2712299T3|2014-07-25|2015-07-16|Set of dental implantology cases|
    EP15002423.0A| EP2977025B1|2014-07-25|2015-07-16|Set of dental implantology kits|
    US14/802,019| US20160022397A1|2014-07-25|2015-07-17|Set of dental implantation kits|
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