RU2198402C2 - Method for diagnostics of diabetes mellitus - Google Patents

Abstract

FIELD: medicine, endocrinology. SUBSTANCE: method for diagnostics of diabetes mellitus includes patient's testing with the help of infrared radiation, moreover, patient's blood serum is tested and penetration coefficient for IR-radiation is determined and at its lower values being below 45.4% ranged 3085-2732 cm^-1 one should diagnose diabetes mellitus. The method is quicker in implementation, more accurate and requires lower time expenses. EFFECT: higher efficiency of diagnostics. 1 ex

Description

 The invention relates to medicine, namely to endocrinology.

 Diabetes mellitus (DM) is an important medical and social problem due to the high, constantly growing prevalence of the disease among all segments of the population, as well as the development of complications that pose a major threat to the lives of diabetes patients (blindness, renal failure, diabetic limb gangrene, myocardial infarction, stroke, etc.). If type 1 diabetes is characterized by acute onset and severe clinical symptoms and its diagnosis is not difficult, then type 2 diabetes, the proportion of which among all patients with diabetes is 80-90%, clinical signs (polyuria, polydipsia, polyphagia, weight loss, itching and fatigue) are detected only in a small number of cases. Therefore, about 9-12 years separate the true onset of diabetes from its diagnosis (MI Harris, R. Klein, TA Welborn, et al. Onset of NIDDM occurs at least 4-5 yr. Before clinical diagnosis // Diabetes Care, 1992, 15, p. 815-819). At the same time, in 10-15% of patients with type 2 diabetes, specific complications are detected already during the initial diagnosis of the disease. Thus, in most cases, diabetes is an accidental finding during a routine follow-up examination or during an examination regarding an upcoming operation.

 Known methods for the diagnosis of diabetes based on the study of fasting blood glucose (Zavadsky P.S. Comparative evaluation of methods for determining blood glucose and their use in epidemiological studies of diabetes mellitus // Problems of Endocrinology, 1978, 4, p.108-119; Balabolkin M.I., Klebanova E.M., Kreminskaya V.M. New classification, criteria for the diagnosis and compensation of diabetes mellitus // Endocrinology, 2000, 5, p.204-209), the disadvantage of which is the determination of only one chemical component of the blood.

 There is also a known method for the study of biological fluids according to the infrared spectrum, which allows you to register the features of the structuring of the aqueous component and, thus, evaluate the biological fluid, such as blood, as a system as a whole (patent of the Russian Federation 2137126, 03/29/1999).

 The prototype of the proposed method, the authors propose a method for rapid diagnosis of hidden forms of diabetes, based on the registration of infrared radiation in the aggregate of acupuncture points located on the lateral surface of the abdomen, on the hands and feet (patent of the Russian Federation 2108741, 04/20/1998).

The method is as follows. After the patient’s adaptation, a thermal imaging study of the skin in the area of the acupuncture points of the anterior abdominal wall, hands and feet with targeted scanning and registration of altered (high or low) infrared radiation is performed for 10-15 minutes. If an increase in infrared glow by 0.5 ^° C or more at one point and a decrease in infrared glow by 0.5 ^° C or more in others is detected, the presence of diabetes, including its hidden forms, is judged. The average examination time for one patient is 20 minutes.

 The disadvantages of the method are the need to know the methods of reflexology and topography of acupuncture points, as well as the complexity (it is required to study infrared radiation at 12 biologically active points - 6 points each on the left and right) and a long period of time (20 minutes).

The authors propose the following method for the diagnosis of diabetes: a study of blood serum using infrared spectroscopy (IR). To do this, a vein is punctured with a dry needle, blood is drawn into a plastic tube in an amount of 3 ml, the blood is centrifuged for 5-7 minutes at 1500 rpm to obtain serum. Serum in an amount of 20 μl is placed in a cuvette of a special device, which is a single-channel infrared spectrum analyzer operating in the wavelength range of infrared radiation from 3500 to 960 cm ^-1 , divided into narrow zones by band-pass filters, the position and number of which are selected based on the features the absorption spectrum of water and the fundamental components of biological fluids, in particular blood. The cycle of one measurement in all zones does not exceed 1 s. The device is paired with a personal computer (PC) type PC 386. The output information of the device is the transmittance (%) of radiation, i.e. the ratio of the luminous flux passing through the cuvette with the test serum to the luminous flux passing through the cuvette with the control liquid at the output of the sensitive photodetector.

The diagnostic criterion for diabetes when using the proposed method is to reduce the transmittance of radiation in the wavelength range of 3085-2732 cm ^-1 below the diagnostic threshold of 45.4%.

 The advantages of the method are the speed of the study and the ability to register the native properties of the totality of the various components of the blood serum that provide biological functions. The latter is due to the ability of the method to evaluate the structural features of the aqueous component of a biological fluid. Thus, the proposed method allows to evaluate the biological fluid as a system as a whole, in contrast to other methods for the diagnosis of diabetes, which measure the amount of an individual blood component (glucose).

 Clinical example.

 Using the IR method, the blood serum of 104 patients with diabetes was studied (type 1 in 52 patients, type 2 in 52 patients; of these, 35 were men, 69 were women) aged 15 to 76 years. The control group consisted of 20 people not suffering from diabetes, comparable with the main group by age and gender.

In the healthy group, the transmittance of radiation in the wavelength range of 3085-2732 cm ^-1 averaged 48.4% and ranged from 45.4-51.4%. In the group of patients with diabetes mellitus, the average transmittance of radiation in the indicated range turned out to be 41.2% and varied from 38.8 to 43.6%. The differences in the transmittance of radiation between the two groups are significant (p <0.001). The data obtained allowed us to conclude that with diabetes there are lower transmission rates of infrared radiation in the wavelength range of 3085-2732 cm ^-1 than in healthy ones. Thus, the transmittance of infrared radiation of blood serum in this range, equal to 45.4%, can be taken as a diagnostic threshold. A decrease in transmittance below the specified threshold is a sign of diabetes, which allows it to be used to diagnose the disease.

 The medical history of 2049 patient M., 66 years old. The patient has overweight (Quetelet index - 34.0), low physical activity, burdened by heredity for diabetes. Irrational nutrition with an excess of saturated fats and simple carbohydrates. No complaints. Due to the high risk of developing diabetes, it was examined for a disease.

Blood serum was studied by the IR method according to the method described above. The obtained transmittance of radiation as a whole did not differ from those in healthy ones, with the exception of the wavelength range of 3085-2732 cm ^-1 , where the transmittance was 42.3% (below 45.4%), which corresponds to the diagnostic criterion for diabetes mellitus.

 Given the results, a routine study of fasting glucose in whole capillary blood was performed. The result - 5.8 mmol / L - exceeded the normal value in healthy people, but did not meet the diagnostic criteria for diabetes, in connection with which a repeated study of the glucose content in capillary blood was carried out. The result obtained (6.0 mmol / L) was also within the boundary values; therefore, an oral glucose tolerance test (PTTG) was conducted with the study of glucose in whole capillary blood according to the method described above. Test results: fasting capillary blood glucose - 5.7 mmol / l; capillary blood glucose 2 hours after glucose loading - 12.0 mmol / l - confirmed the diagnosis of diabetes.

 Thus, the proposed method for the diagnosis of diabetes is less time consuming and higher accuracy compared to existing methods due to the ability to record the total effect of various components of blood serum on the IR spectrum of the aqueous component, which allows the diagnosis of the disease in cases where usually the methods used make it impossible to make a diagnosis.

Claims (1)

A method for diagnosing diabetes mellitus, including examining a patient using infrared radiation, characterized in that the blood serum is examined, the transmittance of infrared radiation is determined, and when the transmittance decreases below 45.4% in the range of 3085-2732 cm ^-1, diabetes is diagnosed.