WO2015087846A1 - Intraocular lens insertion instrument - Google Patents

Intraocular lens insertion instrument Download PDF

Info

Publication number
WO2015087846A1
WO2015087846A1 PCT/JP2014/082462 JP2014082462W WO2015087846A1 WO 2015087846 A1 WO2015087846 A1 WO 2015087846A1 JP 2014082462 W JP2014082462 W JP 2014082462W WO 2015087846 A1 WO2015087846 A1 WO 2015087846A1
Authority
WO
WIPO (PCT)
Prior art keywords
intraocular lens
lens
support portion
plunger
support
Prior art date
Application number
PCT/JP2014/082462
Other languages
French (fr)
Japanese (ja)
Inventor
小林 研一
Original Assignee
興和株式会社
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 興和株式会社 filed Critical 興和株式会社
Priority to JP2015552447A priority Critical patent/JP6575761B2/en
Publication of WO2015087846A1 publication Critical patent/WO2015087846A1/en

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61FFILTERS 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
    • A61F2/00Filters implantable into blood vessels; Prostheses, i.e. artificial substitutes or replacements for parts of the body; Appliances for connecting them with the body; Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents
    • A61F2/02Prostheses implantable into the body
    • A61F2/14Eye parts, e.g. lenses, corneal implants; Implanting instruments specially adapted therefor; Artificial eyes
    • A61F2/16Intraocular lenses
    • A61F2/1662Instruments for inserting intraocular lenses into the eye
    • A61F2/167Instruments for inserting intraocular lenses into the eye with pushable plungers

Definitions

  • the present invention relates to an intraocular lens insertion device.
  • Intraocular lenses that are inserted as a substitute for the lens for the replacement of the human turbid lens and the correction of refraction in the treatment of cataract are being put to practical use.
  • intraocular lens insertion surgery for cataract treatment for example, a several millimeter incisional wound (incision) is provided at the edge of the cornea, and the lens is crushed and removed from the incision by ultrasonic phacoemulsification The intraocular lens is inserted and fixed.
  • an insertion device in which the intraocular lens is previously loaded in a cartridge is often used.
  • the user inserts the distal end opening of the insertion tube portion provided at the distal end portion of the instrument body into the eyeball through the above-mentioned incision, and in the state where the intraocular lens is slightly deformed in the instrument body, The intraocular lens is released and inserted into the eyeball by being pushed out from the tip opening by a rod-like plunger.
  • the intraocular lens can be easily inserted into the eyeball using the incision formed for the removal of the crystalline lens. Astigmatism and infection can be suppressed.
  • an intraocular lens has a lens body and a support portion connected to the lens body.
  • the intraocular lens is folded to match the inner wall shape of the insertion tube portion as the plunger moves the intraocular lens toward the distal opening side. It becomes a state.
  • the intraocular lens is simply pushed out by the plunger, the position of the intraocular lens is not determined in the insertion tube portion, and the behavior of the intraocular lens cannot be stabilized. Therefore, in Patent Document 1, Patent Document 2, and Patent Document 3, it is proposed to provide a configuration for stabilizing the behavior of the intraocular lens in the insertion tube portion at the distal end portion of the plunger.
  • JP 2012-50713 A Japanese Patent Laid-Open No. 5-103803 JP 2009-18809 A
  • the distal end portion of the plunger is merely provided with a configuration for receiving the support portion of the intraocular lens at the distal end portion of the plunger. Even after receiving the support part of the intraocular lens, the position of the support part may still change and the intraocular lens may behave abnormally.
  • the intraocular lens insertion device disclosed in Patent Document 3 there is a possibility of causing a so-called forward tilt emission in which the lens is tilted forward and emitted from the nozzle tip.
  • the technology disclosed herein has been made in view of the above circumstances, and an object thereof is to realize an intraocular lens insertion device that can further stabilize the behavior of the intraocular lens.
  • the intraocular lens insertion device of the present disclosure has an insertion tube portion that is inserted into the eye in a state in which the intraocular lens having a lens body and a long support portion having one end connected to the lens body is folded at the tip.
  • An intraocular lens insertion device comprising: an outer peripheral surface of a distal end portion of an intraocular lens pushing member, and when the intraocular lens is moved to the insertion tube portion, a posture of at least one end side of the support portion is set. Posture regulating means for regulating is provided.
  • the posture restricting means is configured such that at least a part of one end side of the support part is upward (that is, the intraocular lens is stored in the storage part. It is controlled to behave in the direction of the front side of the optical axis of the intraocular lens.
  • the distal end portion of the intraocular lens pushing member further includes a cutout portion for housing the support portion, which is located on the optical axis front side of the intraocular lens housed in the housing portion, and the posture regulating means It is provided in a band-shaped region extending from the position on the rear side of the optical axis of the intraocular lens housed in the housing portion of the surface that comes into contact with the inner lens to the cutout portion.
  • the posture restricting means may be a groove into which a part of the support part is fitted, a pair of convex parts extending in parallel with each other and in contact with a part of the support part, or one of the support parts. It may be a rough surface provided in a strip shape so that the frictional force between the two portions increases.
  • the intraocular lens insertion device of the present disclosure may be configured such that a concave portion for receiving a part on the other end side with respect to one end of the support portion is provided on the outer peripheral surface of the tip portion.
  • the tip of the support portion of the intraocular lens is allowed to escape into the recess, so that the tip of the support portion is sandwiched between the pushing member of the intraocular lens and the insertion tube portion of the instrument body, and the intraocular lens is abnormal.
  • the behavior is preferably prevented.
  • an intraocular lens insertion device that can further stabilize the behavior of the intraocular lens can be realized.
  • FIG. 1 It is a figure which shows the front-end
  • FIG. 1A is a plan view of the insertion instrument 1 when the stage lid 13 is opened
  • FIG. 1B is a side view of the insertion instrument 1 when the stage lid 13 is closed.
  • the insertion instrument 1 includes a nozzle body 10 as an instrument body, a plunger 30 as an intraocular lens pushing member, a stage part 12 and a stage lid part 13 as a storage part for an intraocular lens.
  • the stage unit 12 is provided integrally with the nozzle body 10 or separately.
  • a plunger 30 is inserted into the nozzle body 10.
  • the intraocular lens 2 is set on the stage unit 12.
  • the stage unit 12 is formed integrally with the stage lid unit 13.
  • FIG. 1 shows a state in which the stage lid 13 is opened.
  • the nozzle body 10 of the insertion instrument 1 is formed in a cylindrical shape having a substantially rectangular cross section, and one end of the insertion tool 1 is greatly open (hereinafter, the side having the large opening is referred to as a rear end 10b), and the end on the other side. Includes a nozzle portion 15 and a tip portion 10a which are narrowed down. As shown in FIG.1 (b), the front-end
  • the plunger 30 is inserted into the nozzle body 10 and can reciprocate.
  • the direction from the rear end 10b of the nozzle body 10 to the front end 10a is the front direction
  • the opposite direction is the rear direction
  • the front side of the page in FIG. 1A is the upper direction
  • the reverse direction is the lower direction
  • the front side of the page is the left direction
  • the opposite direction is the right direction.
  • the upper side is the front side of the optical axis of the lens body 2a, which will be described later
  • the lower side is the rear side of the optical axis of the lens body 2a
  • the front side is the front side in the pressing direction by the plunger 30
  • the rear side is the rear side in the pressing direction by the plunger 30.
  • a stage portion 12 for setting the intraocular lens 2 is provided on the rear side of the nozzle portion 15 in the nozzle body 10.
  • the stage portion 12 is configured such that the upper side of the nozzle body 10 is opened by opening the stage lid portion 13.
  • a positioning member 50 is attached to the stage portion 12 from the lower side of the nozzle body 10. By this positioning member 50, the intraocular lens 2 is stably held in the stage portion 12 even before use (during transportation).
  • the intraocular lens 2 is on the stage unit 12 and the front side of the optical axis is on the upper side in a state where the stage lid unit 13 is opened and the positioning member 50 is attached to the stage unit 12. Is set as Then, after the stage lid 13 is closed, it is shipped and sold. Then, the user removes the positioning member 50 with the stage lid portion 13 closed, and then pushes the plunger 30 into the distal end side of the nozzle body 10. As a result, the intraocular lens 2 is pressed by the plunger 30 and moved to the nozzle part 15, and then the intraocular lens 2 is released into the eyeball from the distal end part 10a.
  • the nozzle body 10, the plunger 30, and the positioning member 50 in the insertion instrument 1 are formed of a resin material such as polypropylene. Polypropylene is a material with a proven track record in medical equipment and high reliability such as chemical resistance.
  • FIG. 2 is a diagram showing a schematic configuration of the intraocular lens 2.
  • 4A is a plan view and FIG. 4B is a side view.
  • the intraocular lens 2 is a so-called three-piece type.
  • the intraocular lens 2 is formed of a lens body 2a having a predetermined refractive power and two beard-shaped support portions 2b, 2b connected to the lens body 2a for holding the lens body 2a in the eyeball. Has been.
  • the lens body 2a and the support portion 2b are made of a flexible resin material.
  • the intraocular lens 2 is set so that one of the two support portions 2b and 2b is disposed on the rear side of the lens body 2a and the other is disposed on the front side of the lens body. Is done.
  • FIG. 3 shows a plan view of the nozzle body 10.
  • the intraocular lens 2 is set on the stage unit 12. In this state, the intraocular lens 2 is pressed by the plunger 30 and released from the distal end portion 10a.
  • a through hole 10 c whose cross-sectional shape changes according to a change in the outer shape of the nozzle body 10 is provided in the nozzle body 10.
  • the intraocular lens 2 is released, the intraocular lens 2 is deformed and folded according to a change in the cross-sectional shape of the through hole 10c in the nozzle body 10, and is formed on the patient's eyeball. It is released after being transformed into a shape that is easy to enter an incision.
  • the tip portion 10a has a shape cut obliquely so that the upper region of the nozzle portion 15 is in front of the lower region.
  • the shape of the tip portion 10a that is obliquely cut may be linearly obliquely cut when viewed from the left-right direction, or may have a bulge outward, that is, a curved shape. It may be cut into
  • a stage groove 12 a having a width slightly larger than the diameter of the lens body 2 a of the intraocular lens 2 is formed in the stage portion 12.
  • the dimension in the front-rear direction of the stage groove 12 a is set to be larger than the maximum width dimension including the support portions 2 b and 2 b extending on both sides of the intraocular lens 2.
  • a set surface 12b is formed by the bottom surface of the stage groove 12a. The vertical position of the set surface 12b is set higher than the height position of the bottom surface of the through hole 10c of the nozzle body 10, and the set surface 12b and the bottom surface of the through hole 10c are connected by a bottom slope 10d. .
  • the stage portion 12 and the stage lid portion 13 are integrally formed.
  • the stage lid portion 13 has the same size in the front-rear direction as the stage portion 12.
  • the stage lid portion 13 is connected by a thin plate-like connecting portion 14 formed by extending the side surface of the stage portion 12 to the stage lid portion 13 side.
  • the connecting portion 14 is formed to be bendable at the center portion, and the stage lid portion 13 can be closed by overlapping the stage portion 12 from above by bending the connecting portion 14.
  • ribs 13 a and 13 b are provided on the surface facing the set surface 12 b when the lid is closed in order to reinforce the stage lid 13 and stabilize the position of the intraocular lens 2.
  • a guide protrusion 13 c is provided as a guide on the upper side of the plunger 30.
  • FIG. 4 shows a schematic configuration of the positioning member 50.
  • FIG. 4A shows a plan view of the positioning member 50
  • FIG. 4B shows a left side view of the positioning member 50.
  • the positioning member 50 is configured as a separate body from the nozzle main body 10, and has a structure in which a pair of side wall portions 51, 51 are connected by a connecting portion 52. At the lower ends of the respective side wall portions 51, holding portions 53, 53 extending outward and extending are formed.
  • first mounting portions 54 and 54 are formed on the upper end portions of the respective side wall portions 51 and 51 so that the shape seen from above is an arc shape and protrudes upward.
  • first positioning portions 55 and 55 are formed to protrude on the outer peripheral side of the upper end surfaces of the first placement portions 54 and 54. The distance between the inner diameters of the first positioning portions 55 and 55 is set to be slightly larger than the diameter dimension of the lens body 2 a of the intraocular lens 2.
  • a pair of second placement portions 56 and 56 are formed at both ends of the connecting portion 52 in the front-rear direction, and the shape seen from above is a rectangular shape and protrudes upward.
  • the heights of the upper surfaces of the second mounting parts 56 and 56 are equal to the heights of the upper surfaces of the first mounting parts 54 and 54.
  • second positioning portions 57 and 57 that protrude further upward are formed over the entire left and right direction of the second placement portions 56 and 56 on the outer portion of the upper surface of the second placement portions 56 and 56.
  • the distance between the insides of the second positioning portions 57 and 57 is set to be slightly larger than the diameter of the lens body 2 a of the intraocular lens 2.
  • locking claws 58, 58 that slightly protrude in the front-rear direction are formed on the upper ends of the second placement portions 56, 56 over the entire left-right direction.
  • the positioning member 50 is assembled from below the set surface 12b of the nozzle body 10.
  • the set surface 12b of the nozzle body 10 is formed with a set surface through hole 12c that penetrates the set surface 12b in the thickness direction.
  • the outer shape of the set surface through-hole 12c is a substantially similar shape that is slightly larger than the shape of the first mounting portions 54 and 54 and the second mounting portions 56 and 56 of the positioning member 50 as viewed from above.
  • the positioning member 50 is assembled from the lower side of the nozzle body 10, and the first placement portions 54 and 54 and the second placement portions 56 and 56 are fixed in a state of protruding from the set surface 12b.
  • the bottom surface of the outer peripheral portion of the lens body 2a is placed on the upper surfaces of the first placement portions 54 and 54 and the second placement portions 56 and 56.
  • the position of the lens body 2a is restricted with respect to the horizontal direction (the direction horizontal to the set surface 12b) by the first positioning portions 55, 55 and the second positioning portions 57, 57.
  • the positioning member 50 When inserting the intraocular lens 2 into the eyeball, the positioning member 50 is removed from the nozzle body 10. As a result, the first placement portions 54 and 54 and the second placement portions 56 and 56 that supported the lens body 2a of the intraocular lens 2 are retracted from the set surface 12b, and the intraocular lens 2 is on the set surface 12b. Is movably mounted.
  • the distal end portion 10a of the nozzle portion 15 of the nozzle body 10 is inserted into the incision provided in the eye tissue.
  • the distal end portion 10a has an oblique opening shape, it can be easily inserted into the incision.
  • the pressing plate portion 33 of the plunger 30 is pushed into the distal end side of the nozzle body 10.
  • FIG. 5 shows a schematic configuration of the plunger 30 according to the present embodiment.
  • the plunger 30 has a length in the front-rear direction that is slightly larger than the nozzle body 10. And it forms from the action part 31 of the front end side based on a column shape, and the insertion part 32 of the rear end side based on a rectangular rod shape.
  • the action part 31 is comprised including the cylindrical part 31a made into the column shape, and the thin plate-shaped flat part 31b extended in the left-right direction of the cylindrical part 31a.
  • a notch 31d is formed at the tip 31c of the action part 31 which is also the tip of the plunger 30.
  • the notch 31 d is formed in a groove shape that opens upward in the action portion 31 and penetrates in the left-right direction.
  • the groove wall on the tip side of the notch 31 d is formed with an inclined surface that goes upward as it goes to the tip side of the action portion 31.
  • the notch 31d is located on the front side of the optical axis of the intraocular lens 2 housed in the housing part composed of the stage part 12 and the stage lid part 13.
  • the groove 31e is a means for regulating the posture of a part of the support part 2b of the intraocular lens 2 on the lens body 2a side, and the support part 2b when the intraocular lens 2 is moved to the tip 10a of the nozzle part 15. It is also means for restricting the movement of the part.
  • the posture of the support portion 2b of the intraocular lens 2 is the longitudinal direction of the support portion 2b on the outer peripheral surface of the distal end portion 31c, and is also a direction perpendicular to the longitudinal direction of the support portion 2b.
  • a concave portion 31g that is recessed toward the central axis of the cylindrical portion 31a is provided on the right side surface of the tip portion 31c.
  • the recessed part 31g is a recessed part for holding a part of the support part 2b of the intraocular lens 2 different from the part held by the groove 31e.
  • the convex part 31h which protrudes toward the upper side from the outer peripheral surface of the cylindrical part 31a is provided in the outer peripheral surface above the front-end
  • the convex part 31h is a convex part for preventing the support part 2b of the intraocular lens 2 from escaping backward from the cutout part 31d to the cylindrical part 31a. Details of the structure and function of each part of the tip 31c will be described later.
  • the insertion portion 32 has a substantially H-shaped cross section as a whole, and the horizontal and vertical dimensions thereof are set slightly smaller than the through hole 10 c of the nozzle body 10.
  • a disc-shaped pressing plate portion 33 is formed at the rear end of the insertion portion 32 so as to spread in the vertical and horizontal directions.
  • a claw portion 32 a that protrudes toward the upper side of the insertion portion 32 and can be moved up and down by the elasticity of the material of the plunger 30 is formed at a portion of the insertion portion 32 that is ahead of the center in the front-rear direction.
  • claw portion 32a and the locking hole 10e are formed at the positions where the distal end of the action portion 31 is located on the rear side of the lens body 2a of the intraocular lens 2 set on the stage portion 12 in the engaged state.
  • the support portion 2b on the rear side of the main body 2a is set so that the cutout portion 31d can be supported from below.
  • FIG. 6 is an enlarged view showing an outline of the distal end portion 31c of the action portion 31 of the plunger 30 in the present embodiment.
  • 6 (a) is a top view
  • FIG. 6 (b) is a left side view
  • FIG. 6 (c) is a bottom view
  • FIG. 6 (d) is a right side view
  • FIG. 6 (e) is a front view
  • FIG. f) shows a partially enlarged view of the front view of FIG.
  • the groove 31 e in the tip surface 31 f has a predetermined angle from the central axis O with respect to the plane P including the central axis O of the cylindrical portion 31 a and extending in the left-right direction (horizontal direction). Is provided.
  • the plunger 30 when the plunger 30 is pushed into the distal end portion 10 a side of the nozzle body 10 and the intraocular lens 2 moves to the distal end portion 10 a of the nozzle portion 15, a support portion on the rear side of the intraocular lens 2.
  • the posture of the support portion 2b is regulated.
  • the support part 2b on the rear side of the intraocular lens 2 is sandwiched between the groove 31e and the inner wall of the nozzle part 15, so that the movement of the support part 2b is restricted. Thereby, the intraocular lens 2 is suppressed so as not to exhibit an abnormal behavior.
  • the predetermined angle from the central axis O is a groove 31e in which the support portion 2b of the intraocular lens 2 is provided in the distal end surface 31f when the intraocular lens 2 is moved to the distal end portion 10a by the plunger 30. It is determined as appropriate so that it falls within the range.
  • the groove 31e is a V-shaped groove. Further, the width and depth of the groove 31e in the distal end surface 31f can be set as appropriate so that the support portion 2b of the intraocular lens 2 is favorably sandwiched between the groove 31e and the inner wall of the nozzle portion 15.
  • the groove 31e is a groove formed with a uniform width along the side surface of the tip portion 31c. As shown in FIG. 6B, the groove 31e has a predetermined inclination angle with respect to the central axis O of the cylindrical portion 31a.
  • the intraocular lens 2 since the intraocular lens 2 is a three-piece type, it may be set on the set surface 12b of the stage unit 12 so as to be convex upward. When the intraocular lens 2 is set on the setting surface 2b of the stage unit 12 in this way, the intraocular lens 2 is folded when moved to the tip 10a of the nozzle unit 15 by the plunger 30.
  • the base part of the support part 2b of the intraocular lens 2 that is, the part of the support part 2b closer to the lens body 2a is near the lower end of the tip surface 31f of the tip part 31c, as will be described with reference to FIGS. It moves to the position where it contacts.
  • the lower end of the front end surface 31 f is an end portion located on the rear side of the optical axis of the intraocular lens housed in the housing portion constituted by the stage portion 12 and the stage lid portion 13.
  • the groove 31e extends obliquely upward from the vicinity of the lower end of the distal end surface 31f and reaches the cutout portion 31d. Formed as.
  • the root part of the support part 2b of the intraocular lens 2 fits into the groove 31e, and the intraocular lens 2 Since the support portion 2b is sandwiched between the groove 31e and the inner wall of the nozzle portion 15, the behavior of the intraocular lens 2 when being released from the opening of the distal end portion 10a can be stabilized.
  • the one-piece type intraocular lens is set to be convex downward on the set surface 12 b of the stage portion 12.
  • the intraocular lens is set on the set surface 12 b of the stage unit 12 in this way, the support unit for the intraocular lens and the plunger 30 when the one-piece type intraocular lens is moved to the tip end unit 10 a of the nozzle unit 15.
  • the positional relationship with the distal end portion 31c is different from the support portion 2b of the three-piece intraocular lens 2 described above. Therefore, when a one-piece type intraocular lens is used, the position where the groove 31e is provided on the outer peripheral surface of the distal end portion 31c of the plunger 30 and the extending direction may be appropriately changed.
  • the support portion 2b is clamped by the cylindrical portion 31a of the plunger and the inner wall of the nozzle portion 15 when the plunger 30 is pushed in, and the intraocular lens 2 is attached to the distal end portion 10a. May not be released from the opening.
  • the groove 31e by providing the groove 31e, such a phenomenon can be suitably prevented and not only can the behavior of the intraocular lens 2 be stabilized, but also the intraocular lens 2 can be more reliably released into the eye. The effect can also be expected.
  • the support portion 2b of the intraocular lens 2 When the support portion 2b of the intraocular lens 2 is fitted into the groove 31e, a portion of the support portion 2b that is closer to the tip than the portion held by the groove 31e extends to the cutout portion 31d.
  • the support portion 2b extending to the notch portion 31d is bent so as to be accommodated in the notch portion 31d so as not to advance in the rearward direction of the cylindrical portion 31a by the wall portion 31i and the convex portion 31h. Therefore, the convex portion 31h has a function of increasing the possibility that the tip of the support portion 2b is received from the cutout portion 31d into the concave portion 31g described later. For this reason, the support part 2b is accommodated in the notch part 31d in the bent state.
  • the concave portion 31g is provided to escape the tip of the support portion 2b bent in contact with the convex portion 31h or the wall portion 31i in the cutout portion 31d.
  • the concave portion 31g is formed on the side surface of the tip end portion 31c opposite to the side where the groove 31e is provided with respect to the central axis O. Further, as shown in FIGS. 6A and 6C, the side surface of the tip 31c of the recess 31g is recessed toward the central axis O. Thereby, the part extended in the recessed part 31g among the support parts 2b will be in the state accommodated in the clearance gap formed by the recessed part 31g and the inner wall of the nozzle part 15. FIG.
  • FIGS. 7 and 8 show the positional relationship between the support portion 2b of the intraocular lens 2 and the distal end portion 31c of the plunger 30 when the intraocular lens 2 moves to the distal end portion 10a of the nozzle portion 15.
  • FIG. 7 and 8 the nozzle portion 15 is not shown.
  • the lens body 2 a of the intraocular lens 2 is folded according to the shape of the inner wall of the nozzle portion 15.
  • the outer periphery of the rear side of the lens body 2 a abuts on the front end surface 31 f of the front end portion 31 c of the plunger 30, and the support portion 2 b on the rear side of the intraocular lens 2 is a groove 31 e of the front end portion 31 c of the plunger 30. It will be in a state fitted in.
  • the proximal end side of the support portion 2b of the intraocular lens 2 that is, a part on the lens body 2a side is fitted.
  • channel 31e among the support parts 2b is extended to the notch part 31d.
  • the support part 2b extended to the notch part 31d is in contact with the convex part 31h and the wall part 31i.
  • the portion on the tip side from the portion in contact with the convex portion 31h or the wall portion 31i extends into the concave portion 31g while curving in the space surrounded by the notch portion 31d and the inner wall of the nozzle portion 15. Go. If there is no concave portion 31g, the distal end portion of the support portion 2b is sandwiched between the outer peripheral surface of the distal end portion 31c of the plunger 30 and the inner wall of the nozzle portion 15, and the intraocular lens 2 cannot be released into the eye. there is a possibility. On the other hand, in this embodiment, by providing the recessed portion 31g, the tip portion of the support portion 2b is prevented from being sandwiched between the outer peripheral surface of the tip portion 31c of the plunger 30 and the inner wall of the nozzle portion 15. .
  • FIG. 9 shows a partial enlarged view of a cross section in a plane perpendicular to the central axis O when the support portion 2b is fitted in the groove 31e.
  • the support portion 2 b is in contact with the inner surfaces 32, 32 of the groove 31 e and the inner wall 15 a of the nozzle portion 15. Therefore, the support portion 2b is not sandwiched between the outer peripheral surface 31j of the tip portion 31c and the inner wall 15a of the nozzle portion 15 by fitting in the groove 31e. Further, movement of the support portion 2b is restricted so as not to be disengaged from the groove 31e by being sandwiched between spaces between the inner surfaces 32, 32 of the groove 31e and the inner wall 15a of the nozzle portion 15. As a result, the behavior of the lens body 2 connected to the support portion 2b in the nozzle portion 15 is also stabilized.
  • the recess 31g of the distal end portion 31c of the plunger 30 is formed in a V shape in the top view as shown in FIG. 6A, but the distal end of the support portion 2b is If it can be made to extend between the recessed part 31g and the inner wall of the nozzle part 15, the shape of the recessed part 31g can be changed suitably.
  • the support part 2b can be made not to extend to the back side of the cylindrical part 31a, the protrusion shape of the recessed part 31h can be changed suitably.
  • FIG. 10 the schematic of the front-end
  • FIG. 10A in the first modification, a pair of convex portions 31k and 31k projecting from the outer peripheral surface 31j of the tip portion 31c are formed instead of the groove 31e in the above embodiment.
  • the convex portions 31k and 31k extend in parallel to each other from the front end surface 31f to the cutout portion 31d.
  • FIG. 10B shows a cross-sectional view similar to FIG. 9 when the support portion 2 b of the intraocular lens 2 is sandwiched between the convex portions 31 k and 31 k and the inner wall 15 a of the nozzle portion 15.
  • FIG.10 (c) is sectional drawing which shows only the front-end
  • the inner walls 33, 33 of the convex portions 31k, 31k facing each other and the side surface 34 between the convex portions 31k, 31k of the outer peripheral surface 31j of the tip portion 31c are formed. Then, the movement of the support portion 2b is regulated by sandwiching the support portion 2b with the inner wall 15a of the nozzle portion 15 in contact with the support portion 2b. Moreover, since the convex parts 31k and 31k extend from the front end surface 31f to the notch part 31d, the convex parts 31k and 31k regulate the posture of the support part 2b so that the support part 2b extends to the notch part 31d.
  • the shape, height and spacing of the protrusions 31k and 31k, the inclination angle of the inner wall 33 with respect to the outer peripheral surface 31j, the surface shape of the side surface 34, and the like can be changed as appropriate.
  • the support portion 2b is in contact with the inner wall 15a of the nozzle portion 15, the inner walls 33 and 33 of the convex portions 31k and 31k, and the outer peripheral surface 31j of the tip portion 31c. Even in the case where all of these do not come into contact and a slip occurs, the deviation can be allowed as long as it does not interfere with the posture regulation of the support portion 2b.
  • FIG. 11 the schematic of the front-end
  • a rough surface 31m having a roughness higher than that of the surrounding region is formed on the side surface of the tip 31c instead of the groove 31e in the above-described embodiment. Similar to the groove 31e, the rough surface 31m extends from the tip surface 31f to the notch 31d.
  • FIG. 11B is a cross-sectional view similar to FIG. 9 when the support portion 2b of the intraocular lens 2 is sandwiched between the rough surface 31m and the inner wall 15a of the nozzle portion 15.
  • the rough surface 31m plays a role of regulating the posture of the support portion 2b so that the support portion 2b extends to the cutout portion 31d. Further, by making the roughness of the rough surface 31m larger than the surrounding area, the plunger 30 moves the intraocular lens 2 to the tip portion 10a of the nozzle portion 15, and the support portion 2b of the intraocular lens 2 becomes rough.
  • a static frictional force generated between the support portion 2b and the rough surface 31m causes the support portion 2b to move between the outer peripheral surface 31j and the inner wall 15a of the nozzle portion 15. Can be regulated not to move.
  • tip part 31c, the roughness of the rough surface 31m, etc. can be changed suitably.
  • the present invention is not limited to this, and the support portion is upward (that is, an intraocular lens is inserted). Behave in the direction of the optical axis of the intraocular lens when it is set on the instrument) to prevent the optical part of the intraocular lens from tilting forward too much when the intraocular lens is released from the tip of the nozzle. Therefore, it is only necessary that the support portion be restricted in the direction so that the support portion does not move upward.
  • the plunger may be provided with a notch or a protrusion.

Landscapes

  • Health & Medical Sciences (AREA)
  • Ophthalmology & Optometry (AREA)
  • Cardiology (AREA)
  • Oral & Maxillofacial Surgery (AREA)
  • Transplantation (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Vascular Medicine (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Prostheses (AREA)

Abstract

Provided is an insertion instrument whereby it is possible to improve stabilization of the behavior of an intraocular lens. This intraocular lens insertion instrument is provided with: a substantially cylindrical instrument main body having on the leading end thereof an insertion cylinder part for inserting an intraocular lens intraocularly in a folded state, said intraocular lens comprising a lens main body and elongated support parts each with one end connected to the lens main body; a housing part which houses the intraocular lens such that the same can be positioned within the instrument main body; and an intraocular lens pushing member which slides within the instrument main body, moves the intraocular lens to the insertion cylinder part, and pushes the intraocular lens out into the eye. An orientation regulation means for regulating the orientation of at least the one end portion of a support part when the intraocular lens moves in the insertion cylinder part is disposed on the outer periphery face of the leading end part of the intraocular lens pushing member.

Description

眼内レンズの挿入器具Intraocular lens insertion device
 本発明は、眼内レンズの挿入器具に関する。 The present invention relates to an intraocular lens insertion device.
 白内障治療においてヒト混濁水晶体の置換や屈折の補正のために水晶体の代用として挿入される眼内レンズが実用に供されている。白内障治療における眼内レンズ挿入手術においては、例えば角膜の縁に数ミリの切開の創口(切開創)が設けられ、超音波水晶体乳化吸引術などにより水晶体が粉砕されて切開創から取り除かれた後、眼内レンズが挿入及び固定される。 Intraocular lenses that are inserted as a substitute for the lens for the replacement of the human turbid lens and the correction of refraction in the treatment of cataract are being put to practical use. In intraocular lens insertion surgery for cataract treatment, for example, a several millimeter incisional wound (incision) is provided at the edge of the cornea, and the lens is crushed and removed from the incision by ultrasonic phacoemulsification The intraocular lens is inserted and fixed.
 近年においては、眼内レンズを切開創より眼球内に挿入する際に、あらかじめ眼内レンズがカートリッジに装填された挿入器具が用いられる場合が多い。使用者は、器具本体の先端部に設けられた挿入筒部の先端開口を上述の切開創を通じて眼球内に挿し入れると共に、眼内レンズを器具本体内で小さく変形せしめた状態で挿入筒部の先端開口から棒状のプランジャによって押し出すことにより、眼内レンズを眼球内に放出して挿入する。このような挿入器具を用いることにより、水晶体の摘出除去のために形成した切開創を利用して眼内レンズを簡単に眼球内に挿入できるので、手術を簡略化することができ、手術後の乱視の発生や感染症の発生を抑制することができる。 In recent years, when an intraocular lens is inserted into an eyeball through an incision, an insertion device in which the intraocular lens is previously loaded in a cartridge is often used. The user inserts the distal end opening of the insertion tube portion provided at the distal end portion of the instrument body into the eyeball through the above-mentioned incision, and in the state where the intraocular lens is slightly deformed in the instrument body, The intraocular lens is released and inserted into the eyeball by being pushed out from the tip opening by a rod-like plunger. By using such an insertion device, the intraocular lens can be easily inserted into the eyeball using the incision formed for the removal of the crystalline lens. Astigmatism and infection can be suppressed.
 一般に眼内レンズは、レンズ本体とレンズ本体に接続される支持部とを有する。そして、眼内レンズを上記の挿入器具を用いて眼球内に挿入する場合、プランジャが眼内レンズを先端開口側に移動するにつれて、眼内レンズは挿入筒部の内壁形状に合わせて折り畳まれた状態になる。このとき、単にプランジャによって眼内レンズを押し出すだけでは、挿入筒部内で眼内レンズの位置が定まらず、眼内レンズの挙動を安定させることができない。そこで、特許文献1や特許文献2や特許文献3では、プランジャの先端部に挿入筒部内における眼内レンズの挙動を安定させるための構成を設けることが提案されている。 Generally, an intraocular lens has a lens body and a support portion connected to the lens body. When the intraocular lens is inserted into the eyeball using the above insertion instrument, the intraocular lens is folded to match the inner wall shape of the insertion tube portion as the plunger moves the intraocular lens toward the distal opening side. It becomes a state. At this time, if the intraocular lens is simply pushed out by the plunger, the position of the intraocular lens is not determined in the insertion tube portion, and the behavior of the intraocular lens cannot be stabilized. Therefore, in Patent Document 1, Patent Document 2, and Patent Document 3, it is proposed to provide a configuration for stabilizing the behavior of the intraocular lens in the insertion tube portion at the distal end portion of the plunger.
特開2012-50713号公報JP 2012-50713 A 特開平5-103803号公報Japanese Patent Laid-Open No. 5-103803 特開2009-18009号公報JP 2009-18809 A
 しかしながら、特許文献1や特許文献2に示された眼内レンズの挿入器具では、プランジャの先端部に眼内レンズの支持部を受け入れるための構成が設けられているにすぎないためプランジャの先端部が眼内レンズの支持部を受け入れた後も、依然として支持部の位置が変動して眼内レンズが異常な挙動を示す可能性がある。また、特許文献3に示された眼内レンズの挿入器具では、レンズが前に傾いてノズル先端から放出されるという、いわゆる前傾射出を起こす可能性がある。 However, in the intraocular lens insertion device shown in Patent Document 1 or Patent Document 2, the distal end portion of the plunger is merely provided with a configuration for receiving the support portion of the intraocular lens at the distal end portion of the plunger. Even after receiving the support part of the intraocular lens, the position of the support part may still change and the intraocular lens may behave abnormally. In addition, in the intraocular lens insertion device disclosed in Patent Document 3, there is a possibility of causing a so-called forward tilt emission in which the lens is tilted forward and emitted from the nozzle tip.
 本件開示の技術は、上記の事情に鑑みてなされたものであり、その目的とするところは、眼内レンズの挙動をより安定させることができる眼内レンズの挿入器具を実現することである。 The technology disclosed herein has been made in view of the above circumstances, and an object thereof is to realize an intraocular lens insertion device that can further stabilize the behavior of the intraocular lens.
 本件開示の眼内レンズの挿入器具は、レンズ本体とレンズ本体に一端が接続されている長尺の支持部とを有する眼内レンズを折り畳んだ状態で眼内に挿入する挿入筒部を先端に有する略筒状の器具本体と、眼内レンズを器具本体内に配置可能に収納した収納部と、器具本体内を摺動して眼内レンズを挿入筒部に押し出す眼内レンズ押出部材とを備える眼内レンズの挿入器具であって、眼内レンズ押出部材の先端部の外周面に、眼内レンズが挿入筒部に移動したときに、支持部のうち少なくとも一端側の一部の姿勢を規制する姿勢規制手段が設けられている。これにより、眼内レンズを挿入部から眼内に放出する際にIOLが前傾射出にならないような方向に支持部の根元部分の姿勢を規制することで眼内レンズの挙動を安定させ、前傾射出を防止することができる。 The intraocular lens insertion device of the present disclosure has an insertion tube portion that is inserted into the eye in a state in which the intraocular lens having a lens body and a long support portion having one end connected to the lens body is folded at the tip. A substantially cylindrical instrument body, a housing part that accommodates the intraocular lens in an instrument body, and an intraocular lens pushing member that slides within the instrument body and pushes the intraocular lens into the insertion cylinder part. An intraocular lens insertion device comprising: an outer peripheral surface of a distal end portion of an intraocular lens pushing member, and when the intraocular lens is moved to the insertion tube portion, a posture of at least one end side of the support portion is set. Posture regulating means for regulating is provided. This stabilizes the behavior of the intraocular lens by regulating the posture of the base portion of the support part in a direction that prevents the IOL from being forward tilted when the intraocular lens is released into the eye from the insertion part. Tilt ejection can be prevented.
 また、姿勢規制手段は、眼内レンズのノズルから眼内への放出時に、支持部のうち少なくとも一端側の一部が、上方向(すなわち、眼内レンズが収納部に収納された時における当該眼内レンズの光軸の前側方向)に挙動することを規制する。また、眼内レンズ押出部材の先端部は、収納部に収納された眼内レンズの光軸前側に位置する、支持部を収納する切欠部をさらに有し、姿勢規制手段は、先端部の眼内レンズと当接する面の収納部に収納された眼内レンズの光軸後側の位置から切欠部に至る帯状の領域内に設けられている。さらに、姿勢規制手段は、支持部の一部が嵌まる溝であってもよいし、支持部の一部と当接する互いに平行に延びる一対の凸部であってもよいし、支持部の一部との間の摩擦力が大きくなるよう帯状に設けられた粗面であってもよい。 In addition, when the intraocular lens is released from the nozzle into the eye, the posture restricting means is configured such that at least a part of one end side of the support part is upward (that is, the intraocular lens is stored in the storage part. It is controlled to behave in the direction of the front side of the optical axis of the intraocular lens. In addition, the distal end portion of the intraocular lens pushing member further includes a cutout portion for housing the support portion, which is located on the optical axis front side of the intraocular lens housed in the housing portion, and the posture regulating means It is provided in a band-shaped region extending from the position on the rear side of the optical axis of the intraocular lens housed in the housing portion of the surface that comes into contact with the inner lens to the cutout portion. Further, the posture restricting means may be a groove into which a part of the support part is fitted, a pair of convex parts extending in parallel with each other and in contact with a part of the support part, or one of the support parts. It may be a rough surface provided in a strip shape so that the frictional force between the two portions increases.
 さらに、本件開示の眼内レンズの挿入器具において、先端部の外周面に、支持部の一端に対する他端側の一部を受け入れる凹部が設けられている構成としてもよい。これにより、眼内レンズの支持部の先端を凹部に逃がすことで、当該支持部の先端が眼内レンズの押出部材と器具本体の挿入筒部との間で挟まれて眼内レンズが異常な挙動を示すことが好適に防止される。 Furthermore, the intraocular lens insertion device of the present disclosure may be configured such that a concave portion for receiving a part on the other end side with respect to one end of the support portion is provided on the outer peripheral surface of the tip portion. As a result, the tip of the support portion of the intraocular lens is allowed to escape into the recess, so that the tip of the support portion is sandwiched between the pushing member of the intraocular lens and the insertion tube portion of the instrument body, and the intraocular lens is abnormal. The behavior is preferably prevented.
 本件開示の技術によれば、眼内レンズの挙動をより安定させることができる眼内レンズの挿入器具を実現することができる。 According to the technology disclosed herein, an intraocular lens insertion device that can further stabilize the behavior of the intraocular lens can be realized.
一実施形態における眼内レンズの挿入器具の概略構成を示す図である。It is a figure which shows schematic structure of the insertion instrument of the intraocular lens in one Embodiment. 一実施形態における眼内レンズの概略構成を示す図である。It is a figure which shows schematic structure of the intraocular lens in one Embodiment. 一実施形態におけるノズル本体の概略構成を示す図である。It is a figure which shows schematic structure of the nozzle main body in one Embodiment. 一実施形態における位置決め部材の概略構成を示す図である。It is a figure which shows schematic structure of the positioning member in one Embodiment. 一実施形態におけるプランジャの概略構成を示す図である。It is a figure which shows schematic structure of the plunger in one Embodiment. 一実施形態におけるプランジャの先端部の概略構成を示す図である。It is a figure which shows schematic structure of the front-end | tip part of the plunger in one Embodiment. 一実施形態におけるプランジャの先端部と眼内レンズを示す図である。It is a figure which shows the front-end | tip part and intraocular lens of the plunger in one Embodiment. 一実施形態におけるプランジャの先端部と眼内レンズを示す図である。It is a figure which shows the front-end | tip part and intraocular lens of the plunger in one Embodiment. 一実施形態におけるプランジャの先端部と眼内レンズの支持部とノズル部の位置関係を示す断面図である。It is sectional drawing which shows the positional relationship of the front-end | tip part of the plunger in one Embodiment, the support part of an intraocular lens, and a nozzle part. 変形例1におけるプランジャの先端部の概略構成を示す図である。It is a figure which shows schematic structure of the front-end | tip part of the plunger in the modification 1. FIG. 変形例2におけるプランジャの先端部の概略構成を示す図である。It is a figure which shows schematic structure of the front-end | tip part of the plunger in the modification 2.
 以下に、図面を参照して本発明の実施の形態について説明する。 Hereinafter, embodiments of the present invention will be described with reference to the drawings.
 〔実施例〕
 図1に、本実施形態の挿入器具1の概略構成を示す。図1(a)はステージ蓋部13を開蓋した場合の挿入器具1の平面図、図1(b)はステージ蓋部13を閉蓋した場合の挿入器具1の側面図を示している。挿入器具1は、器具本体としてのノズル本体10と、眼内レンズの押出部材としてのプランジャ30と、眼内レンズの収納部としてのステージ部12及びステージ蓋部13を有する。ステージ部12は、ノズル本体10に一体又は別体に設けられる。ノズル本体10にはプランジャ30が挿入されている。ステージ部12には、眼内レンズ2がセットされる。ステージ部12は、ステージ蓋部13と一体に形成されている。図1には、ステージ蓋部13を開けた状態を示す。
〔Example〕
In FIG. 1, schematic structure of the insertion instrument 1 of this embodiment is shown. 1A is a plan view of the insertion instrument 1 when the stage lid 13 is opened, and FIG. 1B is a side view of the insertion instrument 1 when the stage lid 13 is closed. The insertion instrument 1 includes a nozzle body 10 as an instrument body, a plunger 30 as an intraocular lens pushing member, a stage part 12 and a stage lid part 13 as a storage part for an intraocular lens. The stage unit 12 is provided integrally with the nozzle body 10 or separately. A plunger 30 is inserted into the nozzle body 10. The intraocular lens 2 is set on the stage unit 12. The stage unit 12 is formed integrally with the stage lid unit 13. FIG. 1 shows a state in which the stage lid 13 is opened.
 挿入器具1のノズル本体10は、断面略矩形の筒状に形成されており片側の端部は大きく開口し(以下、大きく開口した側を後端部10bという。)、別の側の端部には細く絞られたノズル部15と先端部10aを備える。図1(b)に示すように、先端部10aは斜めに開口している。プランジャ30は、ノズル本体10に挿入され往復運動可能である。 The nozzle body 10 of the insertion instrument 1 is formed in a cylindrical shape having a substantially rectangular cross section, and one end of the insertion tool 1 is greatly open (hereinafter, the side having the large opening is referred to as a rear end 10b), and the end on the other side. Includes a nozzle portion 15 and a tip portion 10a which are narrowed down. As shown in FIG.1 (b), the front-end | tip part 10a is opening diagonally. The plunger 30 is inserted into the nozzle body 10 and can reciprocate.
 以下の説明において、ノズル本体10の後端部10bから先端部10aへ向かう方向を前方向、その逆方向を後方向、図1(a)において紙面手前側を上方向、その逆方向を下方向、図1(b)において紙面手前方向を左方向、その逆方向を右方向とする。また、この場合、上側は後述するレンズ本体2aの光軸前側に、下側はレンズ本体2aの光軸後側に、前側はプランジャ30による押圧方向前側に、後側はプランジャ30による押圧方向後側に相当する。 In the following description, the direction from the rear end 10b of the nozzle body 10 to the front end 10a is the front direction, the opposite direction is the rear direction, the front side of the page in FIG. 1A is the upper direction, and the reverse direction is the lower direction. In FIG. 1B, the front side of the page is the left direction, and the opposite direction is the right direction. In this case, the upper side is the front side of the optical axis of the lens body 2a, which will be described later, the lower side is the rear side of the optical axis of the lens body 2a, the front side is the front side in the pressing direction by the plunger 30, and the rear side is the rear side in the pressing direction by the plunger 30. Corresponds to the side.
 ノズル本体10の後端部10b付近には、板状に迫り出し、使用者がプランジャ30をノズル本体10の先端側に押し込む際に指を掛けるホールド部11が一体的に設けられている。また、ノズル本体10におけるノズル部15の後側には、眼内レンズ2をセットするステージ部12が設けられている。このステージ部12は、ステージ蓋部13を開蓋することでノズル本体10の上側が開放されるようになっている。また、ステージ部12には、ノズル本体10の下側から位置決め部材50が取り付けられている。この位置決め部材50によって、使用前(輸送中)においてもステージ部12内で眼内レンズ2が安定して保持されている。 In the vicinity of the rear end portion 10b of the nozzle body 10, there is integrally provided a holding portion 11 that protrudes in a plate shape and hooks a finger when the user pushes the plunger 30 toward the front end side of the nozzle body 10. A stage portion 12 for setting the intraocular lens 2 is provided on the rear side of the nozzle portion 15 in the nozzle body 10. The stage portion 12 is configured such that the upper side of the nozzle body 10 is opened by opening the stage lid portion 13. Further, a positioning member 50 is attached to the stage portion 12 from the lower side of the nozzle body 10. By this positioning member 50, the intraocular lens 2 is stably held in the stage portion 12 even before use (during transportation).
 すなわち、挿入器具1においては、製造時に、ステージ蓋部13が開蓋し位置決め部材50がステージ部12に取り付けられた状態で、眼内レンズ2がステージ部12に、光軸前側が上になるようにセットされる。そして、ステージ蓋部13を閉蓋させた後出荷され、販売される。そして、使用者はステージ蓋部13を閉蓋したままで位置決め部材50を取り外し、その後プランジャ30をノズル本体10の先端側に押し込む。これにより、プランジャ30によって眼内レンズ2を押圧し、ノズル部15まで移動させた上で、先端部10aより眼内レンズ2を眼球内に放出する。なお、挿入器具1におけるノズル本体10、プランジャ30、位置決め部材50はポリプロピレンなどの樹脂の素材で形成される。ポリプロピレンは医療用機器において実績があり、耐薬品性などの信頼性も高い素材である。 That is, in the insertion instrument 1, the intraocular lens 2 is on the stage unit 12 and the front side of the optical axis is on the upper side in a state where the stage lid unit 13 is opened and the positioning member 50 is attached to the stage unit 12. Is set as Then, after the stage lid 13 is closed, it is shipped and sold. Then, the user removes the positioning member 50 with the stage lid portion 13 closed, and then pushes the plunger 30 into the distal end side of the nozzle body 10. As a result, the intraocular lens 2 is pressed by the plunger 30 and moved to the nozzle part 15, and then the intraocular lens 2 is released into the eyeball from the distal end part 10a. In addition, the nozzle body 10, the plunger 30, and the positioning member 50 in the insertion instrument 1 are formed of a resin material such as polypropylene. Polypropylene is a material with a proven track record in medical equipment and high reliability such as chemical resistance.
 図2は、眼内レンズ2の概略構成を示した図である。図4(a)は平面図、図4(b)は側面図を示す。眼内レンズ2は、いわゆるスリーピース型である。眼内レンズ2は、所定の屈折力を有するレンズ本体2aと、レンズ本体2aに連結された、レンズ本体2aを眼球内で保持するためのヒゲ状の2本の支持部2b、2bとから形成されている。レンズ本体2a及び支持部2bは可撓性の樹脂材料から形成されている。本実施例における挿入器具1内では、2つの支持部2b、2bのうちの一つが、レンズ本体2aの後側、もう一つがレンズ本体の前側に配置されるように、眼内レンズ2がセットされる。 FIG. 2 is a diagram showing a schematic configuration of the intraocular lens 2. 4A is a plan view and FIG. 4B is a side view. The intraocular lens 2 is a so-called three-piece type. The intraocular lens 2 is formed of a lens body 2a having a predetermined refractive power and two beard-shaped support portions 2b, 2b connected to the lens body 2a for holding the lens body 2a in the eyeball. Has been. The lens body 2a and the support portion 2b are made of a flexible resin material. In the insertion instrument 1 according to the present embodiment, the intraocular lens 2 is set so that one of the two support portions 2b and 2b is disposed on the rear side of the lens body 2a and the other is disposed on the front side of the lens body. Is done.
 図3にはノズル本体10の平面図を示す。前述のようにノズル本体10においては、眼内レンズ2はステージ部12にセットされる。そして、その状態でプランジャ30によって眼内レンズ2が押圧されて先端部10aから放出される。なお、ノズル本体10の内部にはノズル本体10の外形の変化に応じて断面形状が変化する貫通孔10cが設けられている。そして、眼内レンズ2が放出される際は、眼内レンズ2は、ノズル本体10内の貫通孔10cの断面形状の変化に応じて変形して折り畳まれた状態となり、患者の眼球に形成された切開創に入り易い形に変形した上で放出される。 FIG. 3 shows a plan view of the nozzle body 10. As described above, in the nozzle body 10, the intraocular lens 2 is set on the stage unit 12. In this state, the intraocular lens 2 is pressed by the plunger 30 and released from the distal end portion 10a. In addition, a through hole 10 c whose cross-sectional shape changes according to a change in the outer shape of the nozzle body 10 is provided in the nozzle body 10. When the intraocular lens 2 is released, the intraocular lens 2 is deformed and folded according to a change in the cross-sectional shape of the through hole 10c in the nozzle body 10, and is formed on the patient's eyeball. It is released after being transformed into a shape that is easy to enter an incision.
 また、先端部10aは、ノズル部15の上側の領域が下側の領域より前側になるように斜めにカットされた形状となっている。なお、この先端部10aの斜めにカットされた形状については、左右方向から見て直線的に斜めにカットされていてもよいし、外側に膨らみを持つように、すなわち曲面形状となるように斜めにカットされていてもよい。 Further, the tip portion 10a has a shape cut obliquely so that the upper region of the nozzle portion 15 is in front of the lower region. Note that the shape of the tip portion 10a that is obliquely cut may be linearly obliquely cut when viewed from the left-right direction, or may have a bulge outward, that is, a curved shape. It may be cut into
 ステージ部12には、眼内レンズ2のレンズ本体2aの径より僅かに大きな幅を有するステージ溝12aが形成されている。ステージ溝12aの前後方向の寸法は、眼内レンズ2の両側に延びる支持部2b、2bを含む最大幅寸法よりも大きく設定されている。また、ステージ溝12aの底面によってセット面12bが形成されている。セット面12bの上下方向位置は、ノズル本体10の貫通孔10cの底面の高さ位置よりも上方に設定されており、セット面12bと貫通孔10cの底面とは底部斜面10dによって連結されている。 A stage groove 12 a having a width slightly larger than the diameter of the lens body 2 a of the intraocular lens 2 is formed in the stage portion 12. The dimension in the front-rear direction of the stage groove 12 a is set to be larger than the maximum width dimension including the support portions 2 b and 2 b extending on both sides of the intraocular lens 2. A set surface 12b is formed by the bottom surface of the stage groove 12a. The vertical position of the set surface 12b is set higher than the height position of the bottom surface of the through hole 10c of the nozzle body 10, and the set surface 12b and the bottom surface of the through hole 10c are connected by a bottom slope 10d. .
 ステージ部12とステージ蓋部13とは一体に形成されている。ステージ蓋部13はステージ部12と同等の前後方向の寸法を有している。ステージ蓋部13は、ステージ部12の側面がステージ蓋部13側に延出して形成された薄板状の連結部14によって連結されている。連結部14は中央部で屈曲可能に形成されており、ステージ蓋部13は、連結部14を屈曲させることでステージ部12に上側から重なり閉蓋することができる。 The stage portion 12 and the stage lid portion 13 are integrally formed. The stage lid portion 13 has the same size in the front-rear direction as the stage portion 12. The stage lid portion 13 is connected by a thin plate-like connecting portion 14 formed by extending the side surface of the stage portion 12 to the stage lid portion 13 side. The connecting portion 14 is formed to be bendable at the center portion, and the stage lid portion 13 can be closed by overlapping the stage portion 12 from above by bending the connecting portion 14.
 ステージ蓋部13において、閉蓋時にセット面12bと対向する面には、ステージ蓋部13を補強し、眼内レンズ2の位置を安定させるためにリブ13a及び13bが設けられている。また、プランジャ30の上側のガイドとして案内突起13cが設けられている。 In the stage lid 13, ribs 13 a and 13 b are provided on the surface facing the set surface 12 b when the lid is closed in order to reinforce the stage lid 13 and stabilize the position of the intraocular lens 2. A guide protrusion 13 c is provided as a guide on the upper side of the plunger 30.
 ステージ部12のセット面12bの下側には、位置決め部材50が取外し可能に設けられている。図4に、位置決め部材50の概略構成を示す。図4(a)は位置決め部材50の平面図を示し、図4(b)は位置決め部材50の左側面図を示している。位置決め部材50はノズル本体10と別体として構成されており、一対の側壁部51、51が連結部52で連結された構造とされている。それぞれの側壁部51の下端には、外側に向けて延出して広がる保持部53、53が形成されている。 A positioning member 50 is detachably provided below the set surface 12b of the stage portion 12. FIG. 4 shows a schematic configuration of the positioning member 50. FIG. 4A shows a plan view of the positioning member 50, and FIG. 4B shows a left side view of the positioning member 50. The positioning member 50 is configured as a separate body from the nozzle main body 10, and has a structure in which a pair of side wall portions 51, 51 are connected by a connecting portion 52. At the lower ends of the respective side wall portions 51, holding portions 53, 53 extending outward and extending are formed.
 そして、それぞれの側壁部51、51の上端部には、上方から見た形状が円弧形状であり上側に突出した一対の第一載置部54、54が形成されている。さらに、第一載置部54、54の上端面における外周側には、第一位置決め部55、55が突出して形成されている。第一位置決め部55、55の内径どうしの距離は、眼内レンズ2のレンズ本体2aの径寸法よりも僅かに大きく設定されている。 Further, a pair of first mounting portions 54 and 54 are formed on the upper end portions of the respective side wall portions 51 and 51 so that the shape seen from above is an arc shape and protrudes upward. Further, first positioning portions 55 and 55 are formed to protrude on the outer peripheral side of the upper end surfaces of the first placement portions 54 and 54. The distance between the inner diameters of the first positioning portions 55 and 55 is set to be slightly larger than the diameter dimension of the lens body 2 a of the intraocular lens 2.
 また、連結部52の前後方向の両端には、上方から見た形状が矩形状であり上側に突出した一対の第二載置部56、56が形成されている。第二載置部56、56の上面の高さは、第一載置部54、54の上面の高さと同等になっている。さらに、第二載置部56、56の上面において外側の部分には、第二載置部56、56の左右方向の全体にわたって上側にさらに突出する第二位置決め部57、57が形成されている。第二位置決め部57、57の内側どうしの離隔は、眼内レンズ2のレンズ本体2aの径寸法よりも僅かに大きく設定されている。加えて、第二載置部56、56の上端部には左右方向の全体にわたり、前後方向に僅かに突出した係止爪58、58が形成されている。 Further, a pair of second placement portions 56 and 56 are formed at both ends of the connecting portion 52 in the front-rear direction, and the shape seen from above is a rectangular shape and protrudes upward. The heights of the upper surfaces of the second mounting parts 56 and 56 are equal to the heights of the upper surfaces of the first mounting parts 54 and 54. Furthermore, second positioning portions 57 and 57 that protrude further upward are formed over the entire left and right direction of the second placement portions 56 and 56 on the outer portion of the upper surface of the second placement portions 56 and 56. . The distance between the insides of the second positioning portions 57 and 57 is set to be slightly larger than the diameter of the lens body 2 a of the intraocular lens 2. In addition, locking claws 58, 58 that slightly protrude in the front-rear direction are formed on the upper ends of the second placement portions 56, 56 over the entire left-right direction.
 上記の位置決め部材50は、ノズル本体10のセット面12bの下側から組み付けられる。ノズル本体10のセット面12bには、厚さ方向にセット面12bを貫通するセット面貫通孔12cが形成されている。セット面貫通孔12cの外形は、位置決め部材50の第一載置部54、54及び第二載置部56、56を上側から見た形状に対し僅かに大きな略相似形状とされている。そして、位置決め部材50がノズル本体10に取り付けられる際には、第一載置部54、54及び第二載置部56、56が、セット面12bの下側からセット面貫通孔12cに挿入され、セット面12bの上側に突出する。 The positioning member 50 is assembled from below the set surface 12b of the nozzle body 10. The set surface 12b of the nozzle body 10 is formed with a set surface through hole 12c that penetrates the set surface 12b in the thickness direction. The outer shape of the set surface through-hole 12c is a substantially similar shape that is slightly larger than the shape of the first mounting portions 54 and 54 and the second mounting portions 56 and 56 of the positioning member 50 as viewed from above. When the positioning member 50 is attached to the nozzle body 10, the first placement portions 54 and 54 and the second placement portions 56 and 56 are inserted into the set surface through hole 12c from the lower side of the set surface 12b. , Protruding above the set surface 12b.
 その際、第二位置決め部57、57に設けられた係止爪58、58がセット面貫通孔12cを介してセット面12bに突出し、セット面12bの上面に係止される。このことによって、位置決め部材50がノズル本体10の下側から組み付けられ、第一載置部54、54及び第二載置部56、56がセット面12bから突出した状態で固定される。そして、眼内レンズ2がセット面12bにセットされる際には、レンズ本体2aの外周部底面が、第一載置部54、54及び第二載置部56、56の上面に載置される。また、レンズ本体2aは第一位置決め部55、55及び第二位置決め部57、57によって水平方向(セット面12bに水平な方向)に対して位置規制される。 At that time, the locking claws 58, 58 provided in the second positioning portions 57, 57 project to the set surface 12b through the set surface through hole 12c and are locked to the upper surface of the set surface 12b. Accordingly, the positioning member 50 is assembled from the lower side of the nozzle body 10, and the first placement portions 54 and 54 and the second placement portions 56 and 56 are fixed in a state of protruding from the set surface 12b. When the intraocular lens 2 is set on the setting surface 12b, the bottom surface of the outer peripheral portion of the lens body 2a is placed on the upper surfaces of the first placement portions 54 and 54 and the second placement portions 56 and 56. The Further, the position of the lens body 2a is restricted with respect to the horizontal direction (the direction horizontal to the set surface 12b) by the first positioning portions 55, 55 and the second positioning portions 57, 57.
 眼内レンズ2を眼球内に挿入する際は、位置決め部材50をノズル本体10から取り外す。これにより、眼内レンズ2のレンズ本体2aを支持していた第一載置部54、54および第二載置部56、56がセット面12bから後退し、眼内レンズ2がセット面12b上に移動可能に載置される。 When inserting the intraocular lens 2 into the eyeball, the positioning member 50 is removed from the nozzle body 10. As a result, the first placement portions 54 and 54 and the second placement portions 56 and 56 that supported the lens body 2a of the intraocular lens 2 are retracted from the set surface 12b, and the intraocular lens 2 is on the set surface 12b. Is movably mounted.
 続いて、眼組織に設けた切開創に、ノズル本体10のノズル部15における先端部10aを挿入する。ここにおいて、先端部10aは斜めの開口形状を有しているので、切開創への挿入を容易に行なうことができる。そして、切開創にノズル部15を挿入した後に、プランジャ30の押圧板部33をノズル本体10の先端側に押し込む。これにより、セット面12aにセットされた眼内レンズ2のレンズ本体2a外周にプランジャ30の作用部31の先端が当接し、プランジャ30によって眼内レンズ2が先端部10aに向けて案内される。 Subsequently, the distal end portion 10a of the nozzle portion 15 of the nozzle body 10 is inserted into the incision provided in the eye tissue. Here, since the distal end portion 10a has an oblique opening shape, it can be easily inserted into the incision. Then, after inserting the nozzle portion 15 into the incision, the pressing plate portion 33 of the plunger 30 is pushed into the distal end side of the nozzle body 10. Thereby, the front-end | tip of the action part 31 of the plunger 30 contact | abuts to the lens body 2a outer periphery of the intraocular lens 2 set to the setting surface 12a, and the intraocular lens 2 is guided toward the front-end | tip part 10a by the plunger 30.
 図5に、本実施形態に係るプランジャ30の概略構成を示す。プランジャ30は、ノズル本体10よりもやや大きな前後方向長さを有している。そして、円柱形状を基本とした先端側の作用部31と、矩形ロッド形状を基本とした後端側の挿通部32とから形成されている。そして、作用部31は、円柱形状とされた円柱部31aと、円柱部31aの左右方向に広がる薄板状の扁平部31bとを含んで構成されている。 FIG. 5 shows a schematic configuration of the plunger 30 according to the present embodiment. The plunger 30 has a length in the front-rear direction that is slightly larger than the nozzle body 10. And it forms from the action part 31 of the front end side based on a column shape, and the insertion part 32 of the rear end side based on a rectangular rod shape. And the action part 31 is comprised including the cylindrical part 31a made into the column shape, and the thin plate-shaped flat part 31b extended in the left-right direction of the cylindrical part 31a.
 プランジャ30の先端部でもある作用部31の先端部31cには、切欠部31dが形成されている。この切欠部31dは、図5から分かるように、作用部31の上方向に開口し左右方向に貫通する溝状に形成されている。また、図5(b)から分かるように、切欠部31dの先端側の溝壁は作用部31の先端側に行くに連れて上方に向かう傾斜面で形成されている。なお、切欠部31dは、ステージ部12及びステージ蓋部13とで構成される収納部に収納された眼内レンズ2の光軸前側に位置する。 A notch 31d is formed at the tip 31c of the action part 31 which is also the tip of the plunger 30. As can be seen from FIG. 5, the notch 31 d is formed in a groove shape that opens upward in the action portion 31 and penetrates in the left-right direction. Further, as can be seen from FIG. 5B, the groove wall on the tip side of the notch 31 d is formed with an inclined surface that goes upward as it goes to the tip side of the action portion 31. The notch 31d is located on the front side of the optical axis of the intraocular lens 2 housed in the housing part composed of the stage part 12 and the stage lid part 13.
 そして、先端部31cの左側面には、先端部31cの先端面31fから切欠部31dに至る溝31eが設けられている。溝31eは、眼内レンズ2の支持部2bのうちレンズ本体2a側の一部の姿勢を規制する手段であり、眼内レンズ2をノズル部15の先端10aに移動させたときに支持部2bの当該一部の移動を規制する手段でもある。ここで、眼内レンズ2の支持部2bの姿勢とは、先端部31cの外周面における、支持部2bの長手方向であり、支持部2bの長手方向とは垂直な方向でもある。 And the groove | channel 31e which extends from the front end surface 31f of the front-end | tip part 31c to the notch part 31d is provided in the left side surface of the front-end | tip part 31c. The groove 31e is a means for regulating the posture of a part of the support part 2b of the intraocular lens 2 on the lens body 2a side, and the support part 2b when the intraocular lens 2 is moved to the tip 10a of the nozzle part 15. It is also means for restricting the movement of the part. Here, the posture of the support portion 2b of the intraocular lens 2 is the longitudinal direction of the support portion 2b on the outer peripheral surface of the distal end portion 31c, and is also a direction perpendicular to the longitudinal direction of the support portion 2b.
 さらに、先端部31cの右側面には円柱部31aの中心軸に向かって窪む凹部31gが設けられている。凹部31gは、眼内レンズ2の支持部2bのうち溝31eによって保持されている部分とは別の一部を保持するための凹部である。また、先端部31cの上側の外周面には、円柱部31aの外周面から上側に向けて突出する凸部31hが設けられている。凸部31hは、眼内レンズ2の支持部2bが切欠部31dから円柱部31aの後方向に逃げることを防止するための凸部である。先端部31cの各部の構造や機能の詳細については後述する。 Furthermore, a concave portion 31g that is recessed toward the central axis of the cylindrical portion 31a is provided on the right side surface of the tip portion 31c. The recessed part 31g is a recessed part for holding a part of the support part 2b of the intraocular lens 2 different from the part held by the groove 31e. Moreover, the convex part 31h which protrudes toward the upper side from the outer peripheral surface of the cylindrical part 31a is provided in the outer peripheral surface above the front-end | tip part 31c. The convex part 31h is a convex part for preventing the support part 2b of the intraocular lens 2 from escaping backward from the cutout part 31d to the cylindrical part 31a. Details of the structure and function of each part of the tip 31c will be described later.
 挿通部32は、全体的に概略H字状の断面を有しており、その左右方向及び上下方向の寸法は、ノズル本体10の貫通孔10cよりも僅かに小さく設定されている。また、挿通部32の後端には、上下左右方向に広がる円板状の押圧板部33が形成されている。 The insertion portion 32 has a substantially H-shaped cross section as a whole, and the horizontal and vertical dimensions thereof are set slightly smaller than the through hole 10 c of the nozzle body 10. In addition, a disc-shaped pressing plate portion 33 is formed at the rear end of the insertion portion 32 so as to spread in the vertical and horizontal directions.
 挿通部32の前後方向の中央より先側の部分には、挿通部32の上側に向けて突出し、プランジャ30の素材の弾性により上下に移動可能な爪部32aが形成されている。そして、プランジャ30がノズル本体10に挿入された際には、ノズル本体10の上面において厚さ方向に設けられた図3に示す係止孔10eと爪部32aが係合し、このことにより初期状態におけるノズル本体10とプランジャ30との相対位置が決定される。なお、爪部32aと係止孔10eの形成位置は、係合状態において、作用部31の先端が、ステージ部12にセットされた眼内レンズ2のレンズ本体2aの後側に位置し、レンズ本体2aの後側の支持部2bを切欠部31dが下方から支持可能な場所に位置するよう設定されている。 A claw portion 32 a that protrudes toward the upper side of the insertion portion 32 and can be moved up and down by the elasticity of the material of the plunger 30 is formed at a portion of the insertion portion 32 that is ahead of the center in the front-rear direction. When the plunger 30 is inserted into the nozzle body 10, the locking hole 10 e shown in FIG. 3 provided in the thickness direction on the upper surface of the nozzle body 10 and the claw portion 32 a engage with each other. The relative position between the nozzle body 10 and the plunger 30 in the state is determined. It should be noted that the claw portion 32a and the locking hole 10e are formed at the positions where the distal end of the action portion 31 is located on the rear side of the lens body 2a of the intraocular lens 2 set on the stage portion 12 in the engaged state. The support portion 2b on the rear side of the main body 2a is set so that the cutout portion 31d can be supported from below.
 図6は、本実施形態におけるプランジャ30の作用部31の先端部31cの概略を示す拡大図である。図6(a)は上面図、図6(b)は左側面図、図6(c)は底面図、図6(d)は右側面図、図6(e)は正面図、図6(f)は図6(e)の正面図の一部拡大図をそれぞれ示す。図6(f)に示すように、先端面31fにおいて溝31eは、円柱部31aの中心軸Oを含み左右方向(水平方向)に広がる平面Pに対して中心軸Oから所定の角度をなす方向に設けられている。 FIG. 6 is an enlarged view showing an outline of the distal end portion 31c of the action portion 31 of the plunger 30 in the present embodiment. 6 (a) is a top view, FIG. 6 (b) is a left side view, FIG. 6 (c) is a bottom view, FIG. 6 (d) is a right side view, FIG. 6 (e) is a front view, and FIG. f) shows a partially enlarged view of the front view of FIG. As shown in FIG. 6 (f), the groove 31 e in the tip surface 31 f has a predetermined angle from the central axis O with respect to the plane P including the central axis O of the cylindrical portion 31 a and extending in the left-right direction (horizontal direction). Is provided.
 後述するように、プランジャ30がノズル本体10の先端部10a側に押し込まれて、眼内レンズ2がノズル部15の先端部10aに移動する際に、眼内レンズ2の後方向側の支持部2bが溝31eに嵌まることで、支持部2bの姿勢が規制される。また、眼内レンズ2の後方向側の支持部2bは、溝31eとノズル部15の内壁とで挟まれることで、支持部2bの移動が規制される。これにより、眼内レンズ2は異常な挙動を示さないよう抑制される。したがって、上記の中心軸Oからの所定の角度とは、プランジャ30により眼内レンズ2を先端部10aに移動するときに、眼内レンズ2の支持部2bが先端面31fに設けられた溝31eに収まるように適宜決定される。本実施形態において、溝31eはV字形の溝である。また、先端面31fにおける溝31eの幅や深さは、眼内レンズ2の支持部2bが溝31eとノズル部15の内壁とで良好に挟まれるように適宜設定することができる。 As will be described later, when the plunger 30 is pushed into the distal end portion 10 a side of the nozzle body 10 and the intraocular lens 2 moves to the distal end portion 10 a of the nozzle portion 15, a support portion on the rear side of the intraocular lens 2. By fitting 2b into the groove 31e, the posture of the support portion 2b is regulated. Further, the support part 2b on the rear side of the intraocular lens 2 is sandwiched between the groove 31e and the inner wall of the nozzle part 15, so that the movement of the support part 2b is restricted. Thereby, the intraocular lens 2 is suppressed so as not to exhibit an abnormal behavior. Therefore, the predetermined angle from the central axis O is a groove 31e in which the support portion 2b of the intraocular lens 2 is provided in the distal end surface 31f when the intraocular lens 2 is moved to the distal end portion 10a by the plunger 30. It is determined as appropriate so that it falls within the range. In the present embodiment, the groove 31e is a V-shaped groove. Further, the width and depth of the groove 31e in the distal end surface 31f can be set as appropriate so that the support portion 2b of the intraocular lens 2 is favorably sandwiched between the groove 31e and the inner wall of the nozzle portion 15.
 また、図6(b)及び図6(c)に示すように、本実施形態では、溝31eは、先端部31cの側面に沿って一様な幅で形成された溝である。図6(b)に示すように、溝31eは、円柱部31aの中心軸Oに対して所定の傾斜角度を有する。本実施形態では、眼内レンズ2は、スリーピース型であるため、ステージ部12のセット面12bには上に凸となるようにセットされる場合がある。このように眼内レンズ2がステージ部12のセット面2bにセットされる場合は、眼内レンズ2は、プランジャ30によりノズル部15の先端部10aに移動されると折り畳まれた状態となり、このとき眼内レンズ2の支持部2bの根元部分、すなわち支持部2bのうちレンズ本体2aに近い側の部分は、図7及び図8で説明するように、先端部31cの先端面31fの下端近傍に当接する位置に移動する。ここで先端面31fの下端とは、ステージ部12及びステージ蓋部13とで構成される収納部に収納された眼内レンズの光軸後側に位置する端部である。 Further, as shown in FIGS. 6B and 6C, in this embodiment, the groove 31e is a groove formed with a uniform width along the side surface of the tip portion 31c. As shown in FIG. 6B, the groove 31e has a predetermined inclination angle with respect to the central axis O of the cylindrical portion 31a. In this embodiment, since the intraocular lens 2 is a three-piece type, it may be set on the set surface 12b of the stage unit 12 so as to be convex upward. When the intraocular lens 2 is set on the setting surface 2b of the stage unit 12 in this way, the intraocular lens 2 is folded when moved to the tip 10a of the nozzle unit 15 by the plunger 30. Sometimes, the base part of the support part 2b of the intraocular lens 2, that is, the part of the support part 2b closer to the lens body 2a is near the lower end of the tip surface 31f of the tip part 31c, as will be described with reference to FIGS. It moves to the position where it contacts. Here, the lower end of the front end surface 31 f is an end portion located on the rear side of the optical axis of the intraocular lens housed in the housing portion constituted by the stage portion 12 and the stage lid portion 13.
 したがって、本実施形態では、図6(b)に示すように、プランジャ30の先端部31cの外周面において、溝31eは、先端面31fの下端近傍から斜め上方に延びて切欠部31dに至る溝として形成される。本実施形態では、プランジャ30を押し込んで眼内レンズ2を挿入筒部の先端に移動する際に、眼内レンズ2の支持部2bの根元部分が、溝31eに嵌まり、眼内レンズ2の支持部2bが溝31eとノズル部15の内壁とで挟まれることにより、先端部10aの開口から放出する際の眼内レンズ2の挙動を安定させることができる。なお、スリーピース型の眼内レンズ2の代わりに、いわゆるワンピース型の眼内レンズを用いる場合、ワンピース型の眼内レンズはステージ部12のセット面12bには下に凸になるようにセットされる場合がある。このように眼内レンズがステージ部12のセット面12bにセットされる場合は、ワンピース型の眼内レンズがノズル部15の先端部10aに移動されたときの眼内レンズの支持部とプランジャ30の先端部31cとの位置関係は上記のスリーピース型の眼内レンズ2の支持部2bとは異なる。したがって、ワンピース型の眼内レンズを用いる場合は、プランジャ30の先端部31cの外周面における溝31eが設けられる位置や延びる方向を適宜変更すればよい。 Therefore, in the present embodiment, as shown in FIG. 6B, on the outer peripheral surface of the distal end portion 31c of the plunger 30, the groove 31e extends obliquely upward from the vicinity of the lower end of the distal end surface 31f and reaches the cutout portion 31d. Formed as. In this embodiment, when pushing the plunger 30 and moving the intraocular lens 2 to the distal end of the insertion tube part, the root part of the support part 2b of the intraocular lens 2 fits into the groove 31e, and the intraocular lens 2 Since the support portion 2b is sandwiched between the groove 31e and the inner wall of the nozzle portion 15, the behavior of the intraocular lens 2 when being released from the opening of the distal end portion 10a can be stabilized. When a so-called one-piece type intraocular lens is used instead of the three-piece type intraocular lens 2, the one-piece type intraocular lens is set to be convex downward on the set surface 12 b of the stage portion 12. There is a case. When the intraocular lens is set on the set surface 12 b of the stage unit 12 in this way, the support unit for the intraocular lens and the plunger 30 when the one-piece type intraocular lens is moved to the tip end unit 10 a of the nozzle unit 15. The positional relationship with the distal end portion 31c is different from the support portion 2b of the three-piece intraocular lens 2 described above. Therefore, when a one-piece type intraocular lens is used, the position where the groove 31e is provided on the outer peripheral surface of the distal end portion 31c of the plunger 30 and the extending direction may be appropriately changed.
 仮に円柱部31aに溝31eが設けられていないとした場合、プランジャ30を押し込むときに支持部2bがプランジャの円柱部31aとノズル部15の内壁とで締め付けられ、眼内レンズ2を先端部10aの開口から放出できない可能性がある。しかし、本実施形態では溝31eを設けることで、そのような現象を好適に防止し、眼内レンズ2の挙動を安定させるだけでなく、眼内レンズ2をより確実に眼内に放出できるという効果も期待できる。 If the groove 31e is not provided in the cylindrical portion 31a, the support portion 2b is clamped by the cylindrical portion 31a of the plunger and the inner wall of the nozzle portion 15 when the plunger 30 is pushed in, and the intraocular lens 2 is attached to the distal end portion 10a. May not be released from the opening. However, in the present embodiment, by providing the groove 31e, such a phenomenon can be suitably prevented and not only can the behavior of the intraocular lens 2 be stabilized, but also the intraocular lens 2 can be more reliably released into the eye. The effect can also be expected.
 眼内レンズ2の支持部2bが溝31eに嵌まると、支持部2bのうち溝31eに保持された部分よりも先端側の部分は、切欠部31dに延びていく。切欠部31dに延びた支持部2bは、壁部31i及び凸部31hによって円柱部31aの後方向に進行しないように切欠部31d内に収まるように屈曲する。したがって、凸部31hは、支持部2bの先端が切欠部31dから後述する凹部31gに受け入れられる可能性を高める機能を有する。このため、支持部2bは屈曲した状態で切欠部31d内に収納される。 When the support portion 2b of the intraocular lens 2 is fitted into the groove 31e, a portion of the support portion 2b that is closer to the tip than the portion held by the groove 31e extends to the cutout portion 31d. The support portion 2b extending to the notch portion 31d is bent so as to be accommodated in the notch portion 31d so as not to advance in the rearward direction of the cylindrical portion 31a by the wall portion 31i and the convex portion 31h. Therefore, the convex portion 31h has a function of increasing the possibility that the tip of the support portion 2b is received from the cutout portion 31d into the concave portion 31g described later. For this reason, the support part 2b is accommodated in the notch part 31d in the bent state.
 凹部31gは、切欠部31d内において凸部31hや壁部31iに当接して屈曲した支持部2bの先端を逃がすために設けられている。凹部31gは、先端部31cにおいて、中心軸Oに対して溝31eが設けられている側とは反対側の側面に形成されている。また、図6(a)及び図6(c)に示すように、凹部31gは、先端部31cの側面が中心軸Oに向かって窪んでいる。これにより、支持部2bのうち凹部31g内に延びた部分は、凹部31gとノズル部15の内壁とにより形成される隙間に収納された状態となる。 The concave portion 31g is provided to escape the tip of the support portion 2b bent in contact with the convex portion 31h or the wall portion 31i in the cutout portion 31d. The concave portion 31g is formed on the side surface of the tip end portion 31c opposite to the side where the groove 31e is provided with respect to the central axis O. Further, as shown in FIGS. 6A and 6C, the side surface of the tip 31c of the recess 31g is recessed toward the central axis O. Thereby, the part extended in the recessed part 31g among the support parts 2b will be in the state accommodated in the clearance gap formed by the recessed part 31g and the inner wall of the nozzle part 15. FIG.
 次に、図7及び図8に、眼内レンズ2がノズル部15の先端部10aに移動したときの、眼内レンズ2の支持部2bとプランジャ30の先端部31cの位置関係を示す。なお、図7及び図8において、ノズル部15は図示を省略している。プランジャ30の押し込みにより眼内レンズ2がノズル部15の先端部10aに移動すると、眼内レンズ2のレンズ本体2aは、ノズル部15の内壁の形状に合わせて折り畳まれていく。また、レンズ本体2aの後方向側の外周が、プランジャ30の先端部31cの先端面31fに当接し、眼内レンズ2の後方向側の支持部2bは、プランジャ30の先端部31cの溝31eに嵌まった状態となる。 Next, FIGS. 7 and 8 show the positional relationship between the support portion 2b of the intraocular lens 2 and the distal end portion 31c of the plunger 30 when the intraocular lens 2 moves to the distal end portion 10a of the nozzle portion 15. FIG. 7 and 8, the nozzle portion 15 is not shown. When the intraocular lens 2 moves to the distal end portion 10 a of the nozzle portion 15 by pushing the plunger 30, the lens body 2 a of the intraocular lens 2 is folded according to the shape of the inner wall of the nozzle portion 15. The outer periphery of the rear side of the lens body 2 a abuts on the front end surface 31 f of the front end portion 31 c of the plunger 30, and the support portion 2 b on the rear side of the intraocular lens 2 is a groove 31 e of the front end portion 31 c of the plunger 30. It will be in a state fitted in.
 図7に示すように、先端部31cの溝31eに沿って、眼内レンズ2の支持部2bの基端側、すなわちレンズ本体2a側の一部が嵌まる。また、支持部2bのうち溝31eに嵌まっている部分から先端側の部分は、切欠部31dに延びている。図8に示すように、切欠部31dに延びた支持部2bは、凸部31hや壁部31iに当接している。支持部2bのうち、凸部31hや壁部31iに当接している部分から先端側の部分は、切欠部31dとノズル部15の内壁とで囲まれる空間内で湾曲しつつ凹部31gに延びていく。仮に、凹部31gがない場合、支持部2bの先端部は、プランジャ30の先端部31cの外周面とノズル部15の内壁との間に挟み込まれてしまい、眼内レンズ2を眼内に放出できない可能性がある。これに対し、本実施形態では、凹部31gを設けることで、支持部2bの先端部がプランジャ30の先端部31cの外周面とノズル部15の内壁との間に挟み込まれることを防止している。 As shown in FIG. 7, along the groove 31e of the distal end portion 31c, the proximal end side of the support portion 2b of the intraocular lens 2, that is, a part on the lens body 2a side is fitted. Moreover, the part of the front end side from the part fitted in the groove | channel 31e among the support parts 2b is extended to the notch part 31d. As shown in FIG. 8, the support part 2b extended to the notch part 31d is in contact with the convex part 31h and the wall part 31i. Of the support portion 2b, the portion on the tip side from the portion in contact with the convex portion 31h or the wall portion 31i extends into the concave portion 31g while curving in the space surrounded by the notch portion 31d and the inner wall of the nozzle portion 15. Go. If there is no concave portion 31g, the distal end portion of the support portion 2b is sandwiched between the outer peripheral surface of the distal end portion 31c of the plunger 30 and the inner wall of the nozzle portion 15, and the intraocular lens 2 cannot be released into the eye. there is a possibility. On the other hand, in this embodiment, by providing the recessed portion 31g, the tip portion of the support portion 2b is prevented from being sandwiched between the outer peripheral surface of the tip portion 31c of the plunger 30 and the inner wall of the nozzle portion 15. .
 図9には、支持部2bが溝31eに嵌まっているときの中心軸Oに垂直な平面における断面の部分拡大図を示す。図9に示すように、支持部2bは溝31eの内面32、32及びノズル部15の内壁15aに当接している。したがって、支持部2bは溝31eに嵌まることで先端部31cの外周面31jとノズル部15の内壁15aとの間に挟まれることがない。また、支持部2bは、溝31eの内面32、32とノズル部15の内壁15aとの間の空間に挟まれることで、溝31eから外れないように移動が規制される。この結果、支持部2bに接続されているレンズ本体2のノズル部15内における挙動も安定する。 FIG. 9 shows a partial enlarged view of a cross section in a plane perpendicular to the central axis O when the support portion 2b is fitted in the groove 31e. As shown in FIG. 9, the support portion 2 b is in contact with the inner surfaces 32, 32 of the groove 31 e and the inner wall 15 a of the nozzle portion 15. Therefore, the support portion 2b is not sandwiched between the outer peripheral surface 31j of the tip portion 31c and the inner wall 15a of the nozzle portion 15 by fitting in the groove 31e. Further, movement of the support portion 2b is restricted so as not to be disengaged from the groove 31e by being sandwiched between spaces between the inner surfaces 32, 32 of the groove 31e and the inner wall 15a of the nozzle portion 15. As a result, the behavior of the lens body 2 connected to the support portion 2b in the nozzle portion 15 is also stabilized.
 以上が本実施形態に関する説明であるが、上記の挿入部などの構成は、上記の実施形態に限定されるものではなく、本発明の技術的思想と同一性を失わない範囲内において種々の変更が可能である。例えば、上記の説明では、プランジャ30の先端部31cの凹部31gは、図6(a)に示すように、その上面図においてV字形となるように形成されているが、支持部2bの先端が凹部31gとノズル部15の内壁との間に延びるようにすることができれば、凹部31gの形状は適宜変更することができる。また、凸部31hについても、支持部2bが円柱部31aの後方向側に延びないようにすることができれば、凹部31hの突起形状は適宜変更することができる。また、以下に説明する変形例と上記の実施形態とを適宜組み合わせてプランジャ30の先端部31cを構成してもよい。 The above is the description of the present embodiment, but the configuration of the insertion portion and the like is not limited to the above-described embodiment, and various modifications can be made within the scope that does not lose the technical idea of the present invention. Is possible. For example, in the above description, the recess 31g of the distal end portion 31c of the plunger 30 is formed in a V shape in the top view as shown in FIG. 6A, but the distal end of the support portion 2b is If it can be made to extend between the recessed part 31g and the inner wall of the nozzle part 15, the shape of the recessed part 31g can be changed suitably. Moreover, also about the convex part 31h, if the support part 2b can be made not to extend to the back side of the cylindrical part 31a, the protrusion shape of the recessed part 31h can be changed suitably. Moreover, you may comprise the front-end | tip part 31c of the plunger 30 combining the modification demonstrated below and said embodiment suitably.
 以下に上記の実施形態の変形例を2例示す。なお、以下の説明において各構成要素は、上記の実施形態における構成要素に対応するものについては、同一の符号を付し、特に言及しない限りその説明を省略する。 The following are two examples of modifications of the above embodiment. In the following description, components corresponding to the components in the above-described embodiment are denoted by the same reference numerals, and the description thereof is omitted unless otherwise specified.
 〔変形例1〕
 図10に、変形例1におけるプランジャ30の先端部31cの概略図を示す。図10(a)に示すように、変形例1では、上記の実施形態における溝31eの代わりに、先端部31cの外周面31jから突出する一対の凸部31k、31kが形成されている。また、凸部31k、31kは、先端面31fから切欠部31dに至るまで、互いに平行に延びている。図10(b)は、眼内レンズ2の支持部2bが凸部31k、31kとノズル部15の内壁15aとの間で挟まれたときの、図9と同様の断面図を示す。図10(c)は、図10(b)における先端部31cのみを示す断面図である。
[Modification 1]
In FIG. 10, the schematic of the front-end | tip part 31c of the plunger 30 in the modification 1 is shown. As shown in FIG. 10A, in the first modification, a pair of convex portions 31k and 31k projecting from the outer peripheral surface 31j of the tip portion 31c are formed instead of the groove 31e in the above embodiment. The convex portions 31k and 31k extend in parallel to each other from the front end surface 31f to the cutout portion 31d. FIG. 10B shows a cross-sectional view similar to FIG. 9 when the support portion 2 b of the intraocular lens 2 is sandwiched between the convex portions 31 k and 31 k and the inner wall 15 a of the nozzle portion 15. FIG.10 (c) is sectional drawing which shows only the front-end | tip part 31c in FIG.10 (b).
 図10(b)及び図10(c)からわかるように、凸部31k、31kの互いに向き合う内壁33、33と先端部31cの外周面31jのうち凸部31k、31kの間の側面34とが、支持部2bに当接してノズル部15の内壁15aとで支持部2bを挟むことで、支持部2bの移動を規制する。また、凸部31k、31kは先端面31fから切欠部31dに至るまで延びているので、凸部31k、31kは支持部2bが切欠部31dに延びるように支持部2bの姿勢を規制する。なお、凸部31k、31kの形状や高さや離間する間隔、内壁33の外周面31jに対する傾斜角、側面34の面形状などは適宜変更することができる。また、上記の説明では、支持部2bがノズル部15の内壁15a、凸部31k、31kの内壁33、33、先端部31cの外周面31jのいずれにも当接しているが、支持部2bがこれらすべてに当接せずすれが生じる場合でも、支持部2bの姿勢規制に支障を与えない範囲であれば当該ずれは許容できる。 As can be seen from FIGS. 10B and 10C, the inner walls 33, 33 of the convex portions 31k, 31k facing each other and the side surface 34 between the convex portions 31k, 31k of the outer peripheral surface 31j of the tip portion 31c are formed. Then, the movement of the support portion 2b is regulated by sandwiching the support portion 2b with the inner wall 15a of the nozzle portion 15 in contact with the support portion 2b. Moreover, since the convex parts 31k and 31k extend from the front end surface 31f to the notch part 31d, the convex parts 31k and 31k regulate the posture of the support part 2b so that the support part 2b extends to the notch part 31d. Note that the shape, height and spacing of the protrusions 31k and 31k, the inclination angle of the inner wall 33 with respect to the outer peripheral surface 31j, the surface shape of the side surface 34, and the like can be changed as appropriate. In the above description, the support portion 2b is in contact with the inner wall 15a of the nozzle portion 15, the inner walls 33 and 33 of the convex portions 31k and 31k, and the outer peripheral surface 31j of the tip portion 31c. Even in the case where all of these do not come into contact and a slip occurs, the deviation can be allowed as long as it does not interfere with the posture regulation of the support portion 2b.
 〔変形例2〕
 図11に、変形例2におけるプランジャの先端部の概略図を示す。図11(a)に示すように、変形例2では、上記の実施形態における溝31eの代わりに先端部31cの側面において周囲の領域よりも粗度が大きい粗面31mが形成されている。粗面31mは、溝31eと同様に、先端面31fから切欠部31dに至るまで延びている。また、図11(b)は、眼内レンズ2の支持部2bが粗面31mとノズル部15の内壁15aとの間で挟まれたときの、図9と同様の断面図を示す。
[Modification 2]
In FIG. 11, the schematic of the front-end | tip part of the plunger in the modification 2 is shown. As shown in FIG. 11A, in the second modification, a rough surface 31m having a roughness higher than that of the surrounding region is formed on the side surface of the tip 31c instead of the groove 31e in the above-described embodiment. Similar to the groove 31e, the rough surface 31m extends from the tip surface 31f to the notch 31d. FIG. 11B is a cross-sectional view similar to FIG. 9 when the support portion 2b of the intraocular lens 2 is sandwiched between the rough surface 31m and the inner wall 15a of the nozzle portion 15.
 変形例2では、粗面31mが、支持部2bが切欠部31dに延びるように支持部2bの姿勢を規制する役割を果たす。また、粗面31mの粗度を周囲の領域よりも大きくすることで、プランジャ30が眼内レンズ2をノズル部15の先端部10aに移動して、眼内レンズ2の支持部2bが粗面31mとノズル部15の内壁15aとの間で挟まれたときに、支持部2bと粗面31mの間に生じる静止摩擦力により、支持部2bが外周面31jとノズル部15の内壁15aの間を移動しないように規制することができる。なお、先端部31cの外周面31jにおける粗面31mを設ける範囲や粗面31mの粗度などは適宜変更することができる。 In Modification 2, the rough surface 31m plays a role of regulating the posture of the support portion 2b so that the support portion 2b extends to the cutout portion 31d. Further, by making the roughness of the rough surface 31m larger than the surrounding area, the plunger 30 moves the intraocular lens 2 to the tip portion 10a of the nozzle portion 15, and the support portion 2b of the intraocular lens 2 becomes rough. When the support portion 2b is sandwiched between 31m and the inner wall 15a of the nozzle portion 15, a static frictional force generated between the support portion 2b and the rough surface 31m causes the support portion 2b to move between the outer peripheral surface 31j and the inner wall 15a of the nozzle portion 15. Can be regulated not to move. In addition, the range which provides the rough surface 31m in the outer peripheral surface 31j of the front-end | tip part 31c, the roughness of the rough surface 31m, etc. can be changed suitably.
 なお、上述の3つの実施例では、支持部の一部を溝に収納する例で説明したが、本発明はこれに限定されるものではなく、支持部が上方向(すなわち眼内レンズが挿入器具にセットされた時における当該眼内レンズの光軸前側方向)に挙動して、眼内レンズがノズル先端から放出される時に眼内レンズの光学部が過度に前傾になることを防ぐことが重要であるので、支持部が上方向に挙動しないように、その方向にのみ挙動を規制する構造であればよく、例えばプランジャに切り欠きや突起などを設けてもよい。 In the above-described three embodiments, an example in which a part of the support portion is housed in the groove has been described. However, the present invention is not limited to this, and the support portion is upward (that is, an intraocular lens is inserted). Behave in the direction of the optical axis of the intraocular lens when it is set on the instrument) to prevent the optical part of the intraocular lens from tilting forward too much when the intraocular lens is released from the tip of the nozzle. Therefore, it is only necessary that the support portion be restricted in the direction so that the support portion does not move upward. For example, the plunger may be provided with a notch or a protrusion.
1  挿入器具
2  眼内レンズ
2a  レンズ本体
2b  支持部
10  ノズル本体
15  ノズル部
30  プランジャ
31a  円柱部
31c  プランジャの先端部
31d  切欠部
31e  溝
31f  先端面
31g  凹部
31h、31k  凸部
31i  壁部
31j  先端部の外周面
31m  粗面
DESCRIPTION OF SYMBOLS 1 Insertion instrument 2 Intraocular lens 2a Lens main body 2b Support part 10 Nozzle main body 15 Nozzle part 30 Plunger 31a Columnar part 31c Plunger tip part 31d Notch part 31e Groove 31f Tip surface 31g Concave part 31h, 31k Convex part 31i Wall part 31j Tip part Outer peripheral surface of 31m rough surface

Claims (7)

  1.  レンズ本体と前記レンズ本体に一端が接続されている長尺の支持部とを有する眼内レンズを折り畳んだ状態で眼内に挿入する挿入筒部を先端に有する略筒状の器具本体と、
     前記眼内レンズを前記器具本体内に配置可能に収納した収納部と、
     前記器具本体内を摺動して前記眼内レンズを前記挿入筒部に移動させ、眼内に押し出す眼内レンズ押出部材と、
    を備える眼内レンズの挿入器具であって、
     前記眼内レンズ押出部材の先端部の外周面に、前記眼内レンズが前記挿入筒部に移動したときに、前記支持部のうち少なくとも前記一端側の一部の姿勢を規制する姿勢規制手段が設けられている
    ことを特徴とする眼内レンズの挿入器具。
    A substantially cylindrical instrument body having an insertion tube portion inserted into the eye in a folded state of an intraocular lens having a lens body and a long support portion having one end connected to the lens body; and
    A storage section for storing the intraocular lens in the instrument body so as to be disposed;
    An intraocular lens pushing member that slides within the instrument body to move the intraocular lens to the insertion tube and pushes it into the eye;
    An intraocular lens insertion device comprising:
    A posture regulating means for regulating a posture of at least a part of the one end side of the support portion when the intraocular lens moves to the insertion tube portion on the outer peripheral surface of the distal end portion of the intraocular lens pushing member. An insertion device for an intraocular lens, which is provided.
  2.  前記姿勢規制手段は、前記収納部に収納された前記眼内レンズの光軸前側方向に、前記支持部のうち少なくとも前記一端側の一部が挙動することを規制する、ことを特徴とする請求項1に記載の眼内レンズの挿入器具。 The posture regulating means regulates that at least a part of the one end side of the support portion behaves in the optical axis front side direction of the intraocular lens housed in the housing portion. Item 2. An intraocular lens insertion device according to Item 1.
  3.  前記眼内レンズ押出部材の前記先端部は、前記収納部に収納された前記眼内レンズの光軸前側に位置する、前記支持部を収納する切欠部をさらに有し、
     前記姿勢規制手段は、前記先端部の前記眼内レンズと当接する面の前記収納部に収納された前記眼内レンズの光軸後側の位置から前記切欠部に至る帯状の領域内に設けられている
    ことを特徴とする請求項1または請求項2に記載の眼内レンズの挿入器具。
    The distal end portion of the intraocular lens pushing member further has a cutout portion for housing the support portion, which is located on the optical axis front side of the intraocular lens housed in the housing portion,
    The posture restricting means is provided in a band-shaped region extending from a position on the rear side of the optical axis of the intraocular lens accommodated in the accommodating portion of a surface of the distal end portion that contacts the intraocular lens to the notch portion. The intraocular lens insertion device according to claim 1 or 2, wherein the intraocular lens insertion device is provided.
  4.  前記姿勢規制手段は、前記支持部の前記一部が嵌まる溝であることを特徴とする請求項1から請求項3のいずれか1項に記載の眼内レンズの挿入器具。 The intraocular lens insertion device according to any one of claims 1 to 3, wherein the posture regulating means is a groove into which the part of the support portion is fitted.
  5.  前記姿勢規制手段は、前記支持部の前記一部と当接する互いに平行に延びる一対の凸部であることを特徴とする請求項1から請求項4のいずれか1項に記載の眼内レンズの挿入器具。 5. The intraocular lens according to claim 1, wherein the posture regulating means is a pair of convex portions extending in parallel with each other and contacting the part of the support portion. Insertion instrument.
  6.  前記姿勢規制手段は、前記支持部の前記一部との間の摩擦力が大きくなるよう帯状に設けられた粗面であることを特徴とする請求項1から請求項5のいずれか1項に記載の眼内レンズの挿入器具。 The said attitude | position control means is a rough surface provided in strip | belt shape so that the frictional force between the said part of the said support parts may become large, The any one of Claims 1-5 characterized by the above-mentioned. The intraocular lens insertion device as described.
  7.  前記先端部の外周面に、前記支持部の前記一端に対する他端側の一部を受け入れる凹部が設けられていることを特徴とする請求項1から請求項6のいずれか1項に記載の眼内レンズの挿入器具。 The eye according to any one of claims 1 to 6, wherein a concave portion for receiving a part of the other end side with respect to the one end of the support portion is provided on an outer peripheral surface of the tip portion. Inner lens insertion device.
PCT/JP2014/082462 2013-12-09 2014-12-08 Intraocular lens insertion instrument WO2015087846A1 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2015552447A JP6575761B2 (en) 2013-12-09 2014-12-08 Intraocular lens insertion device

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2013254152 2013-12-09
JP2013-254152 2013-12-09

Publications (1)

Publication Number Publication Date
WO2015087846A1 true WO2015087846A1 (en) 2015-06-18

Family

ID=53371149

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2014/082462 WO2015087846A1 (en) 2013-12-09 2014-12-08 Intraocular lens insertion instrument

Country Status (2)

Country Link
JP (1) JP6575761B2 (en)
WO (1) WO2015087846A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020054641A1 (en) * 2018-09-10 2020-03-19 興和株式会社 Intraocular lens insertion instrument

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH11506357A (en) * 1995-03-14 1999-06-08 スター・サージカル・カンパニー,インコーポレイテッド Deformable intraocular lens injection device
JP2012050713A (en) * 2010-09-01 2012-03-15 Nidek Co Ltd Intraocular lens injection instrument
JP2012105736A (en) * 2010-11-15 2012-06-07 Nidek Co Ltd Intraocular lens insertion instrument

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5697962B2 (en) * 2010-12-14 2015-04-08 興和株式会社 Intraocular lens insertion device

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH11506357A (en) * 1995-03-14 1999-06-08 スター・サージカル・カンパニー,インコーポレイテッド Deformable intraocular lens injection device
JP2012050713A (en) * 2010-09-01 2012-03-15 Nidek Co Ltd Intraocular lens injection instrument
JP2012105736A (en) * 2010-11-15 2012-06-07 Nidek Co Ltd Intraocular lens insertion instrument

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020054641A1 (en) * 2018-09-10 2020-03-19 興和株式会社 Intraocular lens insertion instrument
CN112654333A (en) * 2018-09-10 2021-04-13 兴和株式会社 Intraocular lens insertion device
JPWO2020054641A1 (en) * 2018-09-10 2021-08-30 興和株式会社 Intraocular lens insertion device
JP7062780B2 (en) 2018-09-10 2022-05-06 興和株式会社 Intraocular lens insertion device
EP3851075A4 (en) * 2018-09-10 2022-06-15 Kowa Company, Ltd. Intraocular lens insertion instrument

Also Published As

Publication number Publication date
JP6575761B2 (en) 2019-09-18
JPWO2015087846A1 (en) 2017-03-16

Similar Documents

Publication Publication Date Title
WO2015012312A1 (en) Intraocular lens-inserting instrument
JP5697962B2 (en) Intraocular lens insertion device
JP6753966B2 (en) Intraocular lens insertion device
JP6258865B2 (en) Intraocular lens insertion device
JP6099628B2 (en) Intraocular lens insertion device
WO2016195095A1 (en) Intraocular lens insertion tool
KR102131470B1 (en) Intraocular lens insertion tool, and positioning member provided in intraocular lens insertion tool
JP2013244186A (en) Intraocular lens insertion instrument
JP6614615B2 (en) Intraocular lens insertion device
JP6627267B2 (en) Intraocular lens insertion device
JP6575761B2 (en) Intraocular lens insertion device
JP2014147612A (en) Insertion instrument for intraocular lens
JPWO2016167000A1 (en) Intraocular lens insertion device
JP6524588B2 (en) Intraocular lens insertion device
WO2017030139A1 (en) Intraocular lens inserting instrument
WO2020054641A1 (en) Intraocular lens insertion instrument
WO2016017772A1 (en) Intraocular lens insertion instrument
WO2016080497A1 (en) Intraocular lens insertion tool
JP6601945B2 (en) Intraocular lens insertion device
JP2018198748A (en) Intraocular lens insertion instrument

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 14869718

Country of ref document: EP

Kind code of ref document: A1

ENP Entry into the national phase

Ref document number: 2015552447

Country of ref document: JP

Kind code of ref document: A

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 14869718

Country of ref document: EP

Kind code of ref document: A1