RU1797884C - Artificial implanted valve for adjustment of intraocular pressure - Google Patents

Abstract

Use: for regulating intraocular pressure in the treatment of glaucoma of various etiologies. SUMMARY OF THE INVENTION: In a device comprising a disk-shaped body with a dome and a hollow rod, the needle is aligned with it, the hollow rod is made of a material having the effect of double shape memory, and a triangular-shaped through slot is made on its side surface. 2 ill.

Description

The invention relates to medicine, in particular to ophthalmology, and can be used to regulate intraocular pressure in the treatment of glaucoma of various etiologies.

The purpose of the invention is to reduce trauma by increasing fixation reliability.

In FIG. Figure 1 shows an artificial implantable valve for regulating hot pressure in the eye; in FIG. 2 - the same, in a cold state.

An artificial implantable valve for regulating intraocular pressure comprises a disk-shaped body 1 with a dome 2 on one side and a hollow shaft 3 on the other hand, the floor of the needle 4 is located coaxially with the hollow shaft 3, in the upper part of which there is a stop collar 5, which prevents the needle from getting into the eye cavity. The hollow rod 3 is concentrically blocked in the lumen of the hollow needle 4 and is made of a material having the effect of double shape memory, moreover, in the working (hot) state (at a temperature of 37-38 ° C), a through slot 6 of triangular shape is made on its side surface (see Fig. 1), the cylinder is divided into two identical parts 7, 8, and in the idle state (at a temperature below 20-25 ° C, i.e. in the cold state), the hollow rod 3 takes the form of a truncated cone 9 (see Fig. 2), where the same parts 7, 8 of the cylinder are brought together along the cut line 10. Hollow rod 3 g is firmly connected to the hollow crown (not shown in the figure) at the top of the triangular slot 6, i.e. where the integrity of the rod is not violated by this slot. In the receiving device of the disk-shaped case 1, a unidirectional slotted valve is fixed (not shown in the figure). providing drainage of intraocular fluid from the eye when intraocular pressure increases. On the other side of the disk-shaped body 1, an annular base of a hollow crown is attached, in which at least

WITH

one hole (not shown in Fig.) through which the intraocular fluid drains.

The proposed artificial implantable valve for regulating intraocular pressure is installed in the eye as follows. After instillation anesthesia with 1/4% dikoin solution and retrobulbar and subconjunctival injection of novocaine 2%, the sclera in the ciliary body area is punctured with the pointed end of the cannula A, 2-4 mm indent from the limbus. In this case, the pointed end of the needle 4 is in the subciliary space, and the lower surface of the rim 5 (thrust shoulder) of the hollow needle 4 is on the surface of the ocular block. Then, the disk-shaped body 1 with the cooled hollow shaft 3 is inserted into the hollow needle 4 to a temperature of 15-20 ° C and the hollow crown, and the lower surface of the disk-shaped body 1 is on the surface of the ocular block. The hollow rod 3 in a cooled state (inoperative) has the shape of a truncated cone 9, i.e. identical parts of the cylinder 7 and 8 are brought together along the cutout line 10, while the hollow shaft 3 is easily inserted into the hollow needle 4. They are held for 20-30 seconds and these halves 7 and 7 under the influence of the human body temperature (temperature of the eye block) 37-38 ° С 8 extend and form a cylinder with a lateral through slot 6 of a triangular shape. The halves 7 and 8 fit snugly against the inner lateral surface of the hollow needle 4, without accidentally falling out during sudden movements of the device from the hollow needle 4 and free movement.

With prolonged use of this device, fibrin and other semi-liquid components of intraocular moisture will be deposited in the lumen of the needle. During preventive cleaning of the drainage paths, the device is cooled by instillation into the eye with physiological saline, cooled to a temperature below 20-25 ° C, parts 7 and 8 of the hollow rod 3 are closed in

cut lines 10 and the hollow shaft 3 takes the form of a truncated cone 9, which provides easy removal of the valve from the lumen of the hollow needle 4,

The use of this artificial implantable valve to regulate intraocular pressure ensures reliable fixation of the valve device in the cavity of the hollow needle, reliability, durability, and easy removal is possible when the drainage pathways are clogged with fibrin and other semi-liquid components of intraocular moisture, i.e. reduces the likelihood of overgrowth of the drainage gaps of the device by making a hollow rod from a material having a double shape memory effect, which allows changing the shape of the hollow rod depending on the properties.

embedded in the material itself. The slot provides a large interval of variation in the diameter of the hollow shaft and guarantees both a tight fit of the valve with the needle and free removal of this valve.

Removing the device is not traumatic, the scars around the cannula will not bleed. This device can be used for a long time to treat glaucoma, in which surgical intervention is ineffective. The probability of accidental loss during sudden movements is excluded.

Claims (1)

SUMMARY OF THE INVENTION An artificial implantable valve for regulating intraocular pressure, comprising a disk-shaped body with a dome on one side and a hollow shaft on the other hand, coaxially with the needle floor, characterized in that, in order to reduce injuries due to increased fixation reliability, the hollow the rod is made of a material having the effect of a double shape memory, and a triangular-shaped through slot is made on its lateral surface. Phage g