RU2819520C2 - Method for surgical management of prolonged subretinal haemorrhage - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology, and can be used for surgical treatment of prolonged subretinal haemorrhage. That is ensured by subtotal vitrectomy. Retinotomy is performed above the haemorrhage in the lower part of the retina in the region of the equator. Then the flap of the detached retina is turned over and placed on the upper retina. Thereafter, the liquid fraction of the subretinal haemorrhage is evacuated. Blood clot is moved from the subretinal space to the upper retina. Retinal flap is returned to its original position. Tamponade of the vitreal cavity is performed with a solution of a perfluoroorganic compound, on which a clot of subretinal haemorrhage is raised to an iris. Then vitreotome is fragmented at 1500 cuts per minute and dissected fragments are removed. Obtained by using the proposed method, the technical result consists in increasing the efficiency of the performed operation due to the possibility of removing the long existing subretinal fibrin clots, as a result of their lifting to the iris on a solution of a perfluoroorganic compound, and then fragmentation and removal with the help of a vitreotome at a cutting frequency of 1500 per minute.

EFFECT: invention provides higher efficiency of the performed operation due to the possibility of removing long-term extensive subretinal fibrin clots.

1 cl, 1 ex

Description

The invention relates to medicine, namely to ophthalmology, and can be used for surgical treatment of long-term subretinal hemorrhage.

Subretinal hemorrhage is an accumulation of blood between the neurosensory retina and the pigment epithelium. The main causes of subretinal hemorrhage are: an active neovascular membrane against the background of a wet form of age-related macular degeneration, hypertension, diabetes mellitus, and traumatic injuries. With this pathology, there is a sharp decrease in visual acuity, which is associated with hemorrhagic retinal detachment in the macula, the breakdown of hemoglobin with the formation of iron ions and the subsequent deterioration of the morphofunctional state of the retina. In addition, the long-term presence of a fibrin clot under the retina is accompanied by traction of the surrounding tissues and mechanical damage to the photoreceptors. In the future, this can lead to necrosis of the adjacent retina and irreversible loss of visual function.

For a long time, the main treatment for submacular hemorrhages was a conservative method, however, its effectiveness was at a very low level.

There is a known method of treating patients with large submacular hemorrhages [Bressler N.M. et al. Submacular surgery trials (SST) Research Group.Surgery for hemorrhagic choroidal neovascular lesions of age-related macular degeneration: ophthalmic findings: SST report no. 13 // Ophthalmology. -2004. - Vol.111. - P. 1993-2006], including performing subtotal vitrectomy, performing retinotomy over the hemorrhage after removal of the vitreous body, and removing the liquid fraction of blood and its clots from under the retina.

The disadvantage of this known surgical method is that dense fibrin clots are located close to the retina and their removal can lead to its damage and subsequent bleeding into the vitreal cavity.

The present invention solves the problem of creating a new method of surgical treatment of long-existing subretinal hemorrhage.

The technical result obtained when using the proposed method is to increase the efficiency of the operation due to the possibility of removing long-existing extensive fibrin clots located subretinal, as a result of raising them to the iris in a solution of a perfluoroorganic compound, and then fragmenting and removing using a vitreotome at a cutting frequency of 1500 V minute.

This technical result is achieved by the fact that in the method of surgical treatment of long-existing subretinal hemorrhage, including performing subtotal vitrectomy, performing retinotomy over the hemorrhage after removal of the vitreous body and removing the liquid fraction of blood and a blood clot from under the retina in the form of long-existing subretinal hemorrhage, retinotomy is carried out in the lower part of the retina in the equator region, then the flap of the detached retina is turned over and placed on the upper part of the retina, after which the liquid fraction of the subretinal hemorrhage is evacuated, the blood clot in the form of a long-term subretinal hemorrhage is moved from the subretinal space to the area of the upper retina, the retinal flap is returned to the initial position, tamponade of the vitreal cavity is performed with a solution of a perfluoroorganic compound, on which the clot of subretinal hemorrhage is raised to the iris, after which it is fragmented using a vitreotome at a cutting frequency of 1500 per minute and the dissected fragments are removed.

The method of surgical treatment of long-existing subretinal hemorrhage is carried out as follows.

To treat long-term subretinal hemorrhage, subtotal vitrectomy is performed. Then, after removing the vitreous body, a retinotomy is performed above the hemorrhage in the lower part of the retina in the equatorial region. The detached retinal flap is inverted and placed on the upper part of the retina. After this, the liquid fraction of blood and the blood clot are removed from under the retina in the form of a long-existing subretinal hemorrhage. To do this, the evacuation of the liquid fraction of the subretinal hemorrhage is carried out using an extrusion cannula with a silicone tip, and the blood clot in the form of a long-existing subretinal hemorrhage is moved from the subretinal space to the area of the upper retina using retinal tweezers. Return the retinal flap to its original position, using an extrusion cannula with a silicone tip to straighten the returned retinal flap. Tamponade of the vitreal cavity is performed with a solution of a perfluoroorganic compound, on which the clot of subretinal hemorrhage is raised to the iris. Using a vitreotome at a cutting frequency of 1500 per minute, a blood clot is fragmented in the form of a long-standing subretinal hemorrhage and the dissected fragments are removed. The vitreal cavity is washed. The solution of the perfluoroorganic compound is left in the vitreal cavity. In a period of 10 to 14 days, the vitreal cavity is washed and the solution of the perfluoroorganic compound is replaced with silicone. Then laser photocoagulation of the retina is performed at the edge of the retinotomy.

Clinical example.

Patient M. born in 1960 complained of low vision in the right eye, which sharply worsened a month ago against the background of rising blood pressure. The patient has been suffering from arterial hypertension for about 8 years. At her place of residence she underwent a course of conservative treatment of hemophthalmia of the right eye.

An extensive diagnostic examination was carried out, which included determination of best corrected visual acuity (Phoropter 16625B phoropter, Reichert/Leica, USA), tonometry (non-contact tonometer/pachymeter NT-530, NIDEK CO. LTD., Japan), ultrasound biometry (A/V AVISO, Quantel Medical Aviso, France).

When contacting:

VOD = pr. 1.certa; VOS = 1.0.

IOP OD = 16 mm Hg, IOP OS = 18 mm Hg.

Autorefractometry:

OD: K1 = 42.75 ax 99 K2 = 43.50 ax 9°.

OS: K1 = 42.75 x 180 K2 = 42.75 x 90°.

Ultrasound biometry: OD = 24.0 mm; OS = 24.05 mm.

Ocular status:

OD: The eye is calm. The cornea is transparent. The anterior chamber is of medium depth, the moisture is transparent. The iris is normal. The pupil is round, diameter - 3 mm, reaction to light is 2 degrees. Initial opacities in the lens. There are hemorrhages in the vitreous body, posterior detachment of the vitreous body, destruction of the 3rd degree. The fundus of the eye is not ophthalmic.

OS: The eye is calm. The cornea is transparent. The anterior chamber is of medium depth, the moisture is transparent. The iris is normal. The pupil is round, diameter - 3 mm, reaction to light is 2 degrees. Initial opacities in the lens. In the vitreous body there is 1st degree destruction, posterior vitreous detachment. Fundus of the eye: the optic disc is pale pink, the boundaries are clear. The caliber of the arteries is narrowed, the caliber of the venules is widened, Salus 1, 2.

There is dyspigmentation in the macula. In the periphery: no risk factors for retinal detachment.

According to electrophysiological examination: OD is a moderate decrease in the electrical sensitivity of the inner layers of the retina and optic nerve. OS - electrical sensitivity of the inner layers of the retina and optic nerve is within normal limits.

The patient was diagnosed:

OD: Subretinal hemorrhage. Hemophthalmos. Complicated cataract. Posterior vitreous detachment. Destruction of the vitreous body 3 degrees.

OS: Initial cataract. Posterior vitreous detachment. Destruction of the vitreous body 1st degree.

In the right eye, the first stage of the patient was cataract phacoemulsification with implantation of an intraocular lens model Rao 100 c (UK). After 7 days, subtotal vitrectomy was performed.

After removal of hemophthalmos, extensive subretinal hemorrhage was revealed, reaching the middle periphery of the retina; an extensive fibrin clot measuring about 3 optic disc diameters was detected under the macula. After removing the vitreous above the hemorrhage in the lower part of the retina in the equator region, a retinotomy was performed using a vitreotome. The detached retinal flap was then inverted and placed on the superior retina. After which the liquid fraction of the subretinal hemorrhage and the blood clot in the form of a long-term subretinal hemorrhage were evacuated. To remove it, the blood clot was moved from the subretinal space to the area of the upper retina. We returned the retinal flap to its original position and straightened it using retinal tweezers. Tamponade of the vitreal cavity was performed with a solution of a perfluoroorganic compound, in which the clot of subretinal hemorrhage was raised to the iris. Then, using a vitreotome at a cutting frequency of 1500 per minute, it was fragmented and the dissected fragments were removed. The vitreal cavity was washed. The solution of the perfluoroorganic compound was left in the vitreal cavity. The ports have been removed. Sutures on the conjunctiva. After 10 days, the patient had her vitreal cavity washed and the perfluoroorganic compound solution was replaced with silicone. Then laser coagulation of the retina was performed at the retinotomy edge.

2 weeks after surgical treatment, the patient noted an improvement in vision:

Claims (1)

A method of surgical treatment of long-existing subretinal hemorrhage, including performing subtotal vitrectomy, performing retinotomy over the hemorrhage after removal of the vitreous body, and removing from under the retina the liquid fraction of blood and a blood clot in the form of long-existing subretinal hemorrhage, characterized in that the retinotomy is performed in the lower part of the retina in the equator region, then the detached retinal flap is turned over and placed on the upper retina, after which the liquid fraction of the subretinal hemorrhage is evacuated, the blood clot in the form of a long-term subretinal hemorrhage is moved from the subretinal space to the area of the upper retina, the retinal flap is returned to its original position, tamponade of the vitreal cavity is performed with a solution of a perfluoroorganic compound, on which the clot of subretinal hemorrhage is raised to the iris, after which it is fragmented using a vitreotome at a cutting frequency of 1500 per minute and the dissected fragments are removed.