CN213822020U - Laminating formula amniotic membrane mirror - Google Patents

Abstract

The utility model discloses a laminating formula amniocentoscope relates to a medical instrument, including annular laminating portion, the amniocentesis in laminating portion on, laminating portion lower surface paste and lean on the eye table, laminating portion pastes and moves with the eyeball when pasting on the eye table. Compared with the prior art, the utility model discloses can hug closely the eye surface and move along with the eyeball activity when can letting the amniocentesis mirror wear for a long time, let the amniocentesis on the amniocentesis mirror be in the treatment position all the time, solved the amniocentesis mirror skew that the amniocentesis mirror can't cause along with the eyeball.

Description

Laminating formula amniotic membrane mirror

Technical Field

The utility model relates to a medical instrument, in particular to a amniocentoscope.

Background

The amnion is the contact part of the fetal membrane and amniotic fluid, is differentiated from trophoblasts, has a thickness of 0.02-0.05 mm, is semitransparent, and has toughness, no blood vessel, no nerve and no lymphatic vessel. The amnion is divided into five layers: epithelial cell layer, basement membrane, parenchymal layer, fibroblast layer, and sponge layer. The amnion has the functions of promoting epithelial repair, inhibiting scar formation, inhibiting cornea neovascularization, inhibiting immunoreaction and the like, so that the amnion covering operation and the amnion transplantation operation are widely applied to treating ocular surface diseases and obtain good clinical curative effect. However, the means for fixing the amnion in the amnion covering operation which is clinically applied at present is mainly surgical suture, which inevitably traumatizes the ocular surface, and because the amnion is thin and is easy to break and perforate, multiple operations are often needed to achieve the treatment purpose.

The applicant's prior application, "cn201620957026. x," amnioscope "," CN201610740372.7, "amnioscope and preservation method thereof," has disclosed a device for fixing an amniotic membrane to an eyelid and a preservation method of the amniotic membrane without an operation, and the amnioscopes disclosed in the two patents have various advantages that a doctor can conveniently operate, a patient has no pain when wearing the amnioscope, and the amnioscope can be replaced at any time according to the dissolution condition and recovery condition of the amniotic membrane of the patient. However, the amniocentoscope still has some problems in practical use, because the amniocentoscope in the application is a medical apparatus and needs to be worn for a long time in the treatment process, the wearing time is usually between two weeks and four weeks, the amniocentoscope cannot be always kept at the same position for such a long time, and especially when the eyeball rotates, especially greatly rotates, the amniocentoscope may have position slippage and dislocation (during the treatment process, the eyeball of a patient may have unconscious large-amplitude rotation, and during the whole treatment process, the eyeball has relatively frequent large-amplitude rotation). The shift of the amnioscope does not affect the treatment effect if the ocular surface injury is near the cornea, but when the ocular surface injury is in the sclera or the far position of the sclera, the shift of the amnioscope may cause the amnion to be unable to cover the wound, and at the moment, a good sanitary environment is needed to allow the doctor to correct the position of the amnioscope again. Therefore, the problem that the amniocentoscope is fixed on the ocular surface for a long time is very necessary.

SUMMERY OF THE UTILITY MODEL

The utility model discloses not enough to among the prior art, provide a laminating formula amniocentesis mirror, can let the amniocentesis mirror hug closely the eye surface and move along with the eyeball activity when wearing for a long time, let the amniocentesis on the amniocentesis mirror be in the treatment position all the time, solved the unable amniocentesis mirror skew that causes along with the eyeball of amniocentesis in the past.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve: the utility model provides a laminating formula amniocentesis mirror, includes annular laminating portion, the amnion is fixed laminating portion on, laminating portion lower surface paste and lean on the ocular surface, laminating portion pastes and moves with the eyeball when pasting at the ocular surface.

Preferably, in the above technical scheme, a cross section from the inner circular edge to the outer circular edge of the attaching portion is arc-shaped and is adapted to the radian of the eye surface, and the curvature radius of the attaching portion is smaller than or equal to that of the sclera.

Preferably, in the above technical scheme, the attaching portion is made of a soft material and is deformed under stress.

Preferably, in the above technical solution, the attaching portion has a notch.

Preferably, in the above technical solution, the amnion is fixed to the upper surface of the attaching portion, the lower surface of the attaching portion, or the inner circular sidewall of the attaching portion.

Preferably, in the above technical scheme, the amnion is fixed by tissue glue.

Preferably, in the above technical solution, the attaching portion is made of silicone hydrogel.

In the above technical solution, preferably, the attaching portion is an upper layer and a lower layer, and the amnion is fixed between the upper layer and the lower layer.

Preferably, in the technical scheme, the upper layer is made of a hard material and does not deform under stress; the lower layer is made of soft materials and deforms under stress.

Preferably, in the above aspect, the inner circle portion of the attaching portion may completely expose the cornea.

The principle of the contact lens attached to the eyeball is that the curvature radius of the lens is smaller than that of the cornea, the lens is attached to the cornea and is fixed, and meanwhile, the surface tension of liquid between the lens and the cornea is used for further fixing. Because the amniocentoscope in the application needs to completely expose the cornea, because the curvature radius of the joint part is smaller than or equal to that of the sclera, the joint part is fixedly attached to the sclera, and the closer the curvature radius of the joint part and the curvature radius of the sclera are, the better the joint part and the sclera are. Because the amniocentoscope external diameter in this application will be bigger than conventional contact lens, its fixed eyelid down that leans on entirely, and laminating portion mainly plays fixed spacing effect, again because all need carry out the dropping liquid treatment to the eye many times basically every day in the treatment process of this application amniocentoscope, can deposit the liquid that can be sufficient between laminating portion and the sclera and lubricate.

The amniocentoscope in the application needs to be worn for a long time, and the air permeability of the joint part is very important, so that the important material for manufacturing the joint part in the application is silicon hydrogel or other known high-air permeability non-toxic materials. Because the fitting part can be regarded as tightly attached to the ocular surface, the fitting part needs to be provided with a gap to drain the inner diameter ocular surface area and remove pus generated in the inner diameter ocular surface area, which is very important in the early stage of wearing. In order to reduce the long-time compression of the attaching portion on the sclera, the attaching portion not only needs to have a curvature radius as close as possible to that of the sclera, but also needs to have a soft material on the contact surface between the attaching portion and the sclera.

The deformation is not deformed when the stress in this application means that normal adult presses hard, when gripping, laminating portion upper strata is indeformable or only for the deformation that the unaided eye can't perceive. The forced deformation in the present application means that the fit portion or the lower layer of the fit portion is significantly deformed when pressed by a normal adult.

Compared with the prior art, the utility model discloses can hug closely the eye surface and move along with the eyeball activity when can letting the amniocentesis mirror wear for a long time, let the amniocentesis on the amniocentesis mirror be in the treatment position all the time, solved the amniocentesis mirror skew that the amniocentesis mirror can't cause along with the eyeball.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic side view of embodiment 1 of the present invention.

Fig. 3 is a schematic top view of embodiment 1 of the present invention.

Detailed Description

Example 1: as shown in fig. 1 to 3, a fitting type amniocentesis mirror comprises an annular fitting part 1, wherein the fitting part is provided with a notch 2, and the surface of the eye in the skylight area of the fitting part 1 can be more smoothly drained of pus, liquid and air. The lower surface of the attaching part 1 is attached to the ocular surface, and the attaching part 1 moves along with the eyeball when attached to the ocular surface. The section from the inner circle edge to the outer circle edge of the joint part 1 is arc-shaped and is adaptive to the radian of the eye surface, and the curvature radius of the joint part 1 is smaller than or equal to that of the sclera. The inner circle of the fitting part 1 can completely expose the cornea. The attaching part 1 is made of silicon hydrogel and deforms under stress. The amnion is fixed on the upper surface of the attaching part 1 through tissue glue.

The amnion is arranged on the upper surface of the attaching part 1, so that the amnion does not influence the contact between the attaching part 1 and the ocular surface, and gaps are generated between the amnion and the attaching part and between the amnion and the ocular surface. Furthermore, on the premise of not influencing the performance of the attaching part 1 close to the eyeball, a plurality of small holes can be formed in the attaching part 1 to help the eye surface covered under the attaching part to ventilate. Theoretically, the ocular surface wound should be in the skylight area of the fitting part 1, and the upper fitting part 1 should not be in direct contact with the ocular surface wound. The amniocentesis lens in the embodiment can be used as a prefabricated amniocentesis lens, and the amniocentesis lens in the embodiment can be stored for days to years under different storage conditions.

Example 2: in example 2, compared with example 1, the amnion is fixed on the lower surface of the attaching portion by tissue glue, and no gap is generated between the amnion and the attaching portion and between the amnion and the ocular surface.

Example 3: compared with the embodiment 1, the amnion is fixed on the inner circular side wall of the attaching portion through tissue glue, no gap is generated between the amnion and the attaching portion and between the amnion and the ocular surface, and the amnion does not influence the contact between the attaching portion and the ocular surface.

Example 4: in example 4, compared with example 1, the bonded part has no notch, and ventilation, pus discharge and liquid discharge are all performed by covering the skylight area of the bonded part with the amnion.

Example 5: the utility model provides a laminating formula amniocentesis mirror, includes annular laminating portion, laminating portion breach has, can let the regional ocular surface pus discharge, flowing back in laminating portion skylight and take a breath more smoothly through the breach. The lower surface of the attaching part is attached to the ocular surface, and the attaching part moves along with the eyeball when attached to the ocular surface. The section from the inner circle edge to the outer circle edge of the joint part is arc-shaped and is adaptive to the radian of the eye surface, and the curvature radius of the joint part is smaller than or equal to that of the sclera. The inner circular portion of the fit portion may completely expose the cornea. The attaching part is an upper layer and a lower layer, and the amnion is fixed between the upper layer and the lower layer. The upper layer is made of a hard material, can be a PMMA material, and is not deformed under stress; the lower layer is made of soft material, can be silicon hydrogel and deforms under stress. The upper layer is mainly used for fixing the amnion on the lower layer, and the upper layer does not need to cover the lower layer completely.

Example 6: in example 6, compared with example 5, the bonded part has no notch, and ventilation, pus discharge and liquid discharge are all performed by covering the skylight area of the bonded part with the amnion.

Example 7: example 7 compared with example 5, the material is made of soft material, can be silicon hydrogel, and is deformed under stress; the lower layer is made of soft material, can be silicon hydrogel and deforms under stress. The upper layer completely covers the lower layer.

The attached amniocentesis lens in the embodiments 1 to 7 can be mainly used as a prefabricated amniocentesis lens without being installed before an operation, in particular to the technical schemes of the embodiments 5 to 7. Meanwhile, the fitting part in the embodiments 1 to 7 can be in various models with different sizes, and the material can be other known high-permeability non-toxic materials, so that the fitting part is suitable for different users and positions of the affected parts of the ocular surface.

Claims (10)

1. The utility model provides a laminating formula amniocentesis mirror, characterized in that, includes annular laminating portion, and the amnion is fixed laminating portion on, laminating portion lower surface paste and lean on the ocular surface, laminating portion pastes and moves with the eyeball when pasting at the ocular surface.

2. The conformable amniocentoscope according to claim 1, wherein the cross section from the inner circle to the outer circle of the conformable region is curved to conform to the curvature of the ocular surface, and the radius of curvature of the conformable region is less than or equal to the radius of curvature of the sclera.

3. A laminated amniocentesis mirror as claimed in claim 1 or 2, wherein the laminated portion is made of a soft material and is deformed by a force.

4. A laminated amniocentesis mirror according to claim 3, wherein the laminated portion has a notch.

5. The bonded amniocentoscope according to claim 1 or 4, wherein the amniocentesis membrane is fixed on the upper surface of the bonding portion, the lower surface of the bonding portion, or the inner circular sidewall of the bonding portion.

6. A laminated amniocentoscope according to claim 5, wherein the amniotic membrane is fixed by tissue glue.

7. A conformable amniocentoscope according to claim 1 or 4, wherein the conformable portion is made of silicone hydrogel.

8. The conformable amniocentoscope according to claim 2, wherein the conformable portion comprises an upper layer and a lower layer, and the amniotic membrane is secured between the upper layer and the lower layer.

9. A laminated amniocentesis mirror as claimed in claim 8, wherein said upper layer is made of a hard material and is not deformed by a force; the lower layer is made of soft materials and deforms under stress.

10. A conformable amnioscope as claimed in claim 1, wherein the inner circular portion of the conformable portion is adapted to fully expose the cornea.

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