RU2153288C1 - Method for predicting diagnostic value of instrumental examination methods in cases of cerebrovascular diseases - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves evaluating cost, safety, informativity representing the combination of nature, completeness, accuracy, specificity and sensitivity of received information. Quantitative estimation of the cited criteria and prognosis of diagnostic value of instrumental examination methods like rheoencephalography, ultrasonic duplex blood vessel scanning, nuclear magnetic resonance, X-ray computer diagnosis are carried out. Score sum being less than 8, instrumental examination methods application is predicted as inefficient. The value being greater than 10, efficient application of the methods is predicted. EFFECT: enhanced effectiveness of diagnosis; low costs. 2 tbl

Description

 The invention relates to medicine, namely to functional diagnostics, and can be used to predict the success of the application of instrumental research methods.

 It is known that in assessing the diagnostic value of various research methods there are several approaches. According to one of them, the safety of diagnostic procedures is evaluated [2]. According to another estimate the economic effect of the application [1, 4-7]. The third approach takes into account the need to assess the specificity and sensitivity of the results obtained by the method [3]; or the volume and nature of the information received [1]. However, taking into account each factor separately does not fully determine the feasibility of using the diagnostic method.

 The purpose of the invention is to increase the reliability of diagnostics while reducing material and time costs for examination due to the most rational use and exclusion of uninformative diagnostic methods from the diagnostic process.

 This goal is achieved by the fact that, along with the traditional assessment of cost, security and information content, which represents a combination of the nature, completeness, accuracy, specificity and sensitivity of the information received, a quantitative assessment of the indicated criteria is carried out and the diagnostic value of instrumental research methods is predicted.

 The technical result that is obtained by carrying out the invention is achieved by calculating the total points in arbitrary units. The assessment is carried out as follows: the higher the total score, the higher the diagnostic value of the method for a particular disease. If the sum is 8 or less points, then the application is ineffective, if 9 - 10, then the method is effectively used as a screening, if more than 10, then its effectiveness is certainly high.

 METHOD FOR EVALUATING DIAGNOSTIC VALUE OF INSTRUMENTAL METHODS OF RESEARCH.

1. Choose a method
2. Rate security
a) safe - 3
b) conditionally safe - in the literature there is no data on the harmful effects on the health of the patient - 2
c) affects the health of the patient - 1
3. Cost-effectiveness
determined by the amount of capital investments (the order of the amount in US dollars) - up to 10,000 - 3, up to 100,000 - 2, up to 500,000 - 1, more than 500,000 - 0.

4. Information content consists of:
nature of information: 2 - anatomical (structural) and functional, 1 - only anatomy or only function;
completeness of information: 2 - gives direct and indirect signs,
1 - only indirect, 0 - does not;
accuracy of information: 2 - does not coincide with the data of direct methods, 1 - does not completely, 0 - there are no similar direct signs, or does not coincide;
specificity: 2 - high, 1 - medium, 0 - low;
Sensitivity: 2 - high, 1 - medium, 0 - low.

 To evaluate the diagnostic value of instrumental methods in this way provide the basis for the results of our studies. A retrospective analysis of 45 case histories of patients with cerebrovascular disease was performed. We compared rheoencephalography (REG), ultrasound duplex scanning of the vessels of the head and neck (USDS), nuclear magnetic resonance (NMR) and X-ray computed tomography (CT). Each patient was quantified by the above criteria and predicted the diagnostic value of instrumental research methods. The main criterion for effectiveness was the influence of the results of the study on the final diagnosis and determination of the tactics of a clinician.

 EXAMPLE 1. Analysis of the diagnostic value of methods for ischemic stroke (see table. 1).

 EXAMPLE 2. Analysis of diagnostic value in hemorrhagic stroke (see table. 2).

 Studying the effectiveness of the methods, we found that the methods with the highest cost (NMR and RKT) have the most informative value in identifying cerebrovascular pathology. Rheography at a low price has a low information content. The most optimal in the diagnosis of cerebrovascular diseases seems to be the use of ultrasound scanning - with the information content practically not inferior to NMR and CT, its price is relatively low.

 The invention relates to methods for obtaining reliable and complete diagnostic information as soon as possible by selecting clinically significant, economically viable, highly informative research methods.

Claims (1)

 A method for predicting the diagnostic value of instrumental research methods in cerebrovascular diseases, including evaluating each method in terms of volume and nature, characterized in that rheoencephalography (REG), ultrasound duplex scanning of blood vessels (UEDS), nuclear magnetic resonance (NMR) are compared as instrumental research methods, X-ray computer diagnostics (RCT), each method is evaluated on the basis of safety, cost, nature of information, completeness of information, accuracy of information mation, specificity, sensitivity, and the total score of less than 8 and - predict inefficiency instrumentally studies with 9 - 10 points predict use as a screening method, and more than 10 points - predict its performance.

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