RU2800308C1 - Way to relieve visual fatigue during shift work - Google Patents

Abstract

FIELD: medicine, occupational health.

SUBSTANCE: invention can be used to relieve visual fatigue during visually intense work, including when working with monitors, microscopes, etc. The eyes are exposed to diffusely reflected laser radiation in the red region of the spectrum with a power density (2–4)⋅10^-6 W/cm² for 3–4 minutes before the start of the work shift in a course of 7–9 sessions.

EFFECT: method ensures the restoration of vision function in people whose work is associated with visual analyzer strain and non-standard work schedule.

1 cl, 3 ex, 1 tbl

Description

The invention relates to medicine, namely to occupational health, and can be used to relieve visual fatigue during visually intense work, including when working with monitors, microscopes, etc.

The organ of vision in the process of intense visual labor loses functional activity. Workers complain of lacrimation, pain in the eyes, burning, "sand" in the eyes. Reduced light sensitivity, which characterizes visual fatigue. Such professions, where visual fatigue develops especially significantly, include PC users, vehicle drivers, assemblers of small parts, jewelers, etc.

A method is known for relieving visual fatigue during high-precision work (RU 1425898 C1), according to which, after 4 hours of performing work associated with eye strain, the eyes are exposed to diffusely reflected radiation of a helium-neon laser with a power density of 12⋅10 ^-7 W/cm ² for 1.5-2 minutes. EFFECT: method allows to remove visual fatigue and prevent functional disorders of the retina during high-precision work with daily use during a 5-day working week.

However, there are professions with a shift work schedule - day, night, morning, evening, with days off between shifts of 1-2 days, in which it is not possible to carry out the impact daily with a course of 5 sessions. Clinical observations have shown that with a shift work schedule, this method does not have the desired effect, since laser radiation has a cumulative effect, that is, there is an accumulation of the functional effect of the action with daily use, but during shift work, when the procedures are carried out every other day or two days later, the cumulative effect is lost, there is no accumulation of the effect. The functional state of the organ of vision after a two-day break in the procedures returns to its original state or even worsens.

The technical result of the claimed invention is the removal of visual fatigue in people whose work is associated with the tension of the visual analyzer and shift work schedule.

The claimed technical result is achieved in a method for relieving visual fatigue during a shift work schedule, according to which the eyes are exposed to diffusely reflected laser radiation in the red region of the spectrum with a power density of (2-4)⋅10 ^-6 W / cm ² for 3-4 minutes before the start of the work shift with a course of 7-9 sessions.

Exposure to diffusely reflected laser radiation in the red region of the spectrum with a power density of (2-4)⋅10 ^-6 W / cm ² for 3-4 minutes before the start of the shift is optimal for relieving visual fatigue during a shift work schedule, helping to reduce the time of dark adaptation and restore the functional activity of the retina of the eye.

The method is carried out, for example, as follows. The procedure is carried out before the start of the shift. The patient in the sitting position is tightly pressed against the edges of the tube and looks into the cavity of the device, illuminated by diffusely reflected laser radiation in the red region of the spectrum (wavelength 0.63-0.68 μm) with a power density of 2-4⋅10 ^-6 W/cm ² . The procedure time is 3-4 minutes. The course is 7-9 sessions.

The method is confirmed by the following examples.

1. Patient Sh., age 43, work experience 22 years, working conditions belong to the 3.1 class of working conditions in terms of sensory load (load on the visual analyzer). Schedule - 12 hours: morning, evening, day off. Complaints about decreased visual acuity by the end of the working day, lacrimation, burning, pain in the eyes, headaches, poor sleep. Objectively: object discrimination in the dark after 3 minutes of dark adaptation on the ADM adaptometer (Technical description and operating instructions for the ADM adaptometer) is 43 s, which indicates the development of visual fatigue. The patient underwent a course of prophylactic action on the eyes of laser radiation in the red region of the spectrum, with a power density of 4⋅10 ^-6 W/cm ² for 3 minutes. After the first session, the time of dark adaptation decreased to 28 s, the percentage of restoration of the functional activity of the retina was 35%. Complaints have not changed. After 7 sessions, the dark adaptation time decreased to 21 s, the percentage of recovery was 51%. After 5 days of recovery, i.e. 5 days after the end of the course of radiation to the eyes, the adaptation time was 18 s, the percentage of recovery was 58%. Complaints are gone. Sleep improved, headaches and eye pain disappeared. There is a cumulative (accumulative) effect from the action, because recovery rate is on the rise.

2. Patient S., age 42, work experience 20 years, working conditions belong to the 3.1 class of working conditions in terms of sensory load (load on the visual analyzer). Schedule - 12 hours: morning, evening, day off. Complaints of lacrimation, burning, eye pain, headaches, poor sleep. Objectively: object discrimination in the dark after 3 minutes of dark adaptation on the ADM adaptometer is 35 s, which indicates the development of visual fatigue. The patient underwent a course of prophylactic effects on the eyes of laser radiation in the red region of the spectrum, with a power density of 2⋅10 ^-6 W/cm ² for 3 minutes. After the first session, the time of dark adaptation decreased to 23 s, the percentage of restoration of the functional activity of the retina was 34%. Complaints have not changed. After 9 sessions, the dark adaptation time decreased to 18 s, the percentage of recovery was 48%. After 5 days of recovery, i.e. 5 days after the end of the prophylactic course, the adaptation time was 16 s, the percentage of recovery was 54%. There are no complaints.

3. Patient E., age 54, work experience 32 years, working conditions belong to class 3.1 of working conditions in terms of sensory load (load on the visual analyzer). Schedule - 12 hours: morning, evening, day off. Complaints of discomfort in the eyes, "sand in the eyes", blurred vision, tearing, burning, double vision, pain in the forehead and temples, pain in the eyes, headaches, poor sleep, weakness, lethargy. Objectively: object discrimination in the dark after 3 minutes of dark adaptation on the ADM adaptometer is 48 s, which indicates the development of visual fatigue. The patient underwent a course of prophylactic action on the eyes of laser radiation in the red region of the spectrum, with a power density of 4⋅10 ^-6 W/cm ² for 4 minutes. After one session of action, the time of dark adaptation decreased to 37 s, the percentage of restoration of the functional activity of the retina was 23%. Complaints have not changed. After 9 sessions of action, the time of dark adaptation decreased to 25 s, the percentage of recovery was 48%. Sleep improved, weakness, lethargy disappeared. After 5 days of recovery i.e. 5 days after the end of the action on the eyes, the adaptation time was 23 s, the percentage of recovery was 52%. There were no complaints from the patient.

According to the claimed method and according to patent No. 1425898, preventive measures were taken to relieve visual fatigue in 48 workers with a shift work schedule. Representatives of the surveyed group work according to the schedule for 12 hours, in the morning, in the evening, day off. All employees were divided into two groups of 24 people comparable in age and length of service.

The table shows the data of examination of patients before and after preventive measures.

After a course of preventive measures according to the claimed method, the percentage of restoration of the functional activity of the retina in terms of dark adaptation time was 59.4% versus 41.5% when carrying out prevention according to the prototype. The time of dark adaptation is 47% longer in the prevention of the prototype in comparison with the claimed method. An even greater difference is observed after the end of exposure to radiation, after 5 days of the recovery period. In the group where exposure was carried out according to the claimed method, the percentage of improvement in the function of light sensitivity increased to 65.2, while in those examined in the exposure group according to the known method, the percentage decreased to 26.2. At the same time, the adaptation time is 116% longer in the prototype in comparison with the claimed method. The adaptation time decreases, i.e. light sensitivity increases, which indicates the restoration of the functional activity of the retina, the removal of visual fatigue. Examined according to the claimed method, there is a decrease in the time of dark adaptation during the entire observation period, which indicates the cumulative properties of laser radiation, while in the group examined according to the prototype, the effect of exposure persists for a short time, 5 days after the end of exposure, the effect decreases.

The use of the claimed method ensures the restoration of the function of vision in people whose work is associated with the tension of the visual analyzer and a non-standard work schedule.

Claims (1)

A method for relieving visual fatigue during a shift work schedule, which consists in exposing the eyes to diffusely reflected laser radiation in the red region of the spectrum with a power density of (2-4)⋅10 ^-6 W/cm ² for 3-4 minutes before the start of the work shift with a course of 7-9 sessions.