KR20210154606A - Korea Consumer Exposure Model System - Google Patents

Abstract

A Korean-type consumer product exposure evaluation model system according to the present invention comprises: a data storage part comprising a household chemical product DB and a comprehensive exposure evaluation model DB; a comprehensive exposure evaluation model driving part configured with 3 inhalation models, 3 transdermal models, and 1 oral model; an input data control part that performs a role in generating input data to the comprehensive exposure evaluation model driving part and automatically generates input data according to an input content of a system user; a model result output control part that inquires a result of the comprehensive exposure evaluation model driving part and outputs an individual personalized comprehensive exposure information as a graph; an output part that saves and processes export the output result as an external file; and an input part that processes input of the system user. Therefore, the present invention is capable of enabling to induce an intelligent exposure according to a combined use of household chemical products.

Description

Korea Consumer Exposure Model System {Korea Consumer Exposure Model System}

The present invention relates to a Korean consumer product exposure evaluation model system.

As the use and emission of chemical substances increases following the rapid growth of the industry, the harmful effects on human health and the ecosystem in real life due to hazardous chemical substances are also increasing at the same time. Recently, in Korea, as damage from exposure to harmful substances in the process of using products, including general consumer products, has emerged as a risk factor to public health, consumers' desire for safe product use is increasing.

In the case of combined use of household chemical products in daily life, general individuals are exposed to toxic chemicals in a complex manner, and thus receive harm from various toxic substances.

The present invention relates to a Korean consumer product exposure evaluation model system for intelligent exposure according to the combined use of household chemical products that evaluates the total exposure amount for each hazardous substance contained in various products and calculates individual risks.

The Korean consumer product exposure evaluation model system for solving the above problems includes a data storage unit including a household chemical product DB and a comprehensive exposure evaluation model DB; Comprehensive exposure evaluation model driving unit consisting of 3 inhalation models, 3 transdermal models, and 1 oral model; an input data control unit that generates input data to the comprehensive exposure evaluation model driving unit and automatically generates input data according to a system user's input; a model result output control unit that inquires the result of the comprehensive exposure evaluation model driving unit and outputs the individual personalized comprehensive exposure information as a graph; an output unit for exporting and saving the output result as an external file; and an input unit for processing an input of a system user.

According to the present invention, it is possible to induce intelligent exposure according to the combined use of household chemical products by evaluating the total exposure amount for each hazardous substance contained in various products and calculating the individual risk.

1 is a system configuration diagram relating to a personalized comprehensive exposure evaluation model system (S) according to the combined use of household chemical products according to an embodiment of the present invention.
2 is a reference diagram illustrating a household chemical product DB (111).
3 is a reference diagram illustrating a part of product usage data.
4 is a reference diagram illustrating information such as a route exposed while using a product, a space used, and an inhalation rate.
5 is a reference diagram exemplifying information for determining exposure scenarios for each use step and route according to the use form of household chemical products.
6 is a reference diagram illustrating a comprehensive exposure assessment flowchart.
7 is table information illustrating an inhalation exposure algorithm.
8 is table information illustrating a transdermal exposure algorithm.
9 is a block diagram for explaining the entire processing process of the present system.
10 to 15 are reference diagrams illustrating examples of multi-media distribution model result processing.

The specific features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

A personalized comprehensive exposure assessment and system according to the combined use of household chemical products according to an embodiment of the present invention will be described with reference to the drawings.

1 is a system configuration diagram relating to a personalized comprehensive exposure evaluation model system (S) according to the combined use of household chemical products according to an embodiment of the present invention.

As shown in Figure 1, the personalized comprehensive exposure evaluation model system includes a data storage unit 110, an input data control unit 120, a comprehensive exposure evaluation model driving unit 130, a model result output control unit 140, an output unit ( 150) and an input unit 160 .

The data storage unit 110 includes a household chemical product DB 111 and a comprehensive exposure evaluation model DB 112 .

The household chemical product DB 111 is composed of household chemical product data and product use data used by an individual. In the case of household chemical product data, it consists of information such as the name of the chemical product, manufacturer, and ingredients.

2 is a reference diagram illustrating a household chemical product DB (111).

In the case of product usage data in the household chemical product DB (111), it consists of the products used by individuals, the place of use, the amount used, the time of use, the frequency of use, etc. is built

3 is a reference diagram illustrating a part of product usage data.

Among the contents of the data storage unit 110 , the comprehensive exposure evaluation model DB 112 stores and manages the model input data performed by the comprehensive exposure evaluation model driving unit 130 .

The main components of the comprehensive exposure evaluation model DB 112 include chemical properties information, exposure factor information, and exposure scenario information.

The chemical substance characteristic information in the comprehensive exposure evaluation model DB 112 includes information on the physical and chemical characteristics of chemical substances that contain hazards as components in household chemical products.

The exposure coefficient information in the comprehensive exposure evaluation model DB 112 includes information such as the exposure route, space used, and inhalation rate while using the product to which an individual is exposed to chemicals. 4 is a reference diagram illustrating information such as a route exposed while using a product, a space used, and an inhalation rate.

The exposure scenario information in the comprehensive exposure evaluation model DB 112 includes information for determining the exposure scenario for each use step and route according to the type of use of household chemical products.

5 is a reference diagram exemplifying information for determining exposure scenarios for each use stage and route according to the use form of household chemical products.

The input data control unit 120 serves to generate input data to the comprehensive exposure evaluation model driving unit 130 and automatically generates input data according to the input contents of the system user.

The comprehensive exposure evaluation model driving unit 130 is composed of three inhalation models, three transdermal models, and one oral model. The inhalation model is divided into (1) volatilization model and (2) non-volatile model, and the transdermal model consists of (3) immediate contact model, (4) constant velocity contact model, and (5) metastatic model. (7) Oral model corresponds to the case of direct oral ingestion of the product.

Exposure pathways and detailed modules applied to the comprehensive exposure evaluation model driving unit 130 are summarized in Table 1 below, explaining the exposure scenarios of individual models. The exposure evaluation algorithm of the comprehensive exposure evaluation model was evaluated and applied by analyzing the ConsExpo algorithm developed by the National Institute of Environmental Science and RIVM in Europe.

number Model
(Exposure route) detailed model Exposure Scenarios One suction model gasoline model Instant Evaporation Volatile substances are discharged into the room at once 2 constant rate evaporation Volatile substances are emitted at a constant rate for a certain period of time. 3 non-volatile model spray exposure Spraying of non-volatile substances (in the form of aerosols) 4 transdermal model immediate contact one touch to the skin 5 constant speed contact Contact with the skin at a constant rate (e.g. skin contact when spraying) 6 transition movement of substances through direct contact with the skin 7 oral model oral intake Direct ingestion of the product

The comprehensive exposure evaluation model driving unit 130 divides the use stage into preparation for use, during use, and after use according to the product characteristics (use behavior), and applies the subdivided exposure scenario for each exposure path and the corresponding algorithm according to the use stage. , Table 2 below shows examples of application models according to the steps of use.

Product usage behavior use stage Application detailed model jet in use Inhalation Non-Volatilization Model - Spray Exposure (Particle Inhalation) Transdermal Model - Constant Velocity Contact Cleaning after spraying after use Suction volatilization model-constant rate evaporation (vapor exposure) Transdermal Model - Immediate Contact

The comprehensive exposure evaluation model driving unit 130 utilizes the household chemical product DB 111 to use product and product usage information as input data, and the exposure model composed of 7 detailed modules shows the use, product type, and chemical substance of each product group. The total exposure is calculated according to the characteristics.

6 is a reference diagram illustrating a comprehensive exposure assessment flowchart.

Among the exposure scenarios applied to the comprehensive exposure evaluation model driving unit 130, inhalation exposure is when a substance enters the consumer's breathing area in the form of gas, vapor, or airborne particles, which may occur during actual use depending on the product. It may also occur due to evaporation of substances after use (eg solvents in wall paint). Inhalation exposure was divided into a volatile model and a non-volatile model, and volatile substances were classified and applied as substances having a vapor pressure of 0.1 Pa or more.

7 is table information illustrating an inhalation exposure algorithm.

Among the exposure scenarios applied to the comprehensive exposure evaluation model driving unit 130, transdermal exposure occurs through direct skin contact with chemicals included in the product during or after use, and is a model of immediate contact model, constant rate contact model and metastasis model. It consists of detailed models. Skin contact amount refers to the amount of contact material (mg/cm ² ) per unit area of exposed skin, indicating the local exposure amount. For risk assessment of local effects such as skin irritation and sensitization, local exposure is applied. The transdermal exposure is the amount of exposure that takes into account the skin absorption rate, and it means the systemic exposure calculated by applying the transdermal absorption model to the amount of substances absorbed into the blood per body weight (mg/bw kg/d).

8 is table information illustrating a transdermal exposure algorithm.

Among the exposure scenarios applied to the comprehensive exposure evaluation model driving unit 130 , oral exposure is a case of oral exposure through unintentional ingestion while using the product. In the target product group, toothpaste, mouthwash, and dishwashing detergent are products that are expected to be exposed to the oral cavity. The exposure amount is calculated by considering the amount of ingested product per kg body weight and absorption rate. The oral exposure algorithm can be calculated through Equation 1 below.

Input and output data related to the operation of the comprehensive exposure evaluation model driving unit 130 are summarized in Table 3 below.

Material classification Component storage location I/O division chemical products
Product usage information Household chemical product information household chemicals
DB
(111) input Product usage information Exposure information Chemical Properties Information Comprehensive exposure evaluation model
DB
(112) input Exposure factor information Exposure Scenario Information Comprehensive exposure evaluation model results Total exposure by individual (by substance) Comprehensive exposure evaluation model
DB
(112) Print Individual impressions (by route) Individual exposure (by product)

The model result output control unit 140 inquires the result of the comprehensive exposure evaluation model driving unit 130 to output the individual personalized comprehensive exposure information in charts and graphs, and saves the output result as an external file for export processing to the output unit 150 ) plays a role in expressing

The input unit 160 processes a system user's input.

9 is a block diagram for explaining the entire processing process of the present system. Also, FIGS. 10 to 15 are reference diagrams illustrating examples of multi-media distribution model result processing.

Although the above has been described and illustrated in relation to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as such, and deviates from the scope of the technical idea. It will be apparent to those skilled in the art that many changes and modifications may be made to the present invention without reference to the invention. Accordingly, all such suitable alterations and modifications and equivalents are to be considered as being within the scope of the present invention.

Claims (1)

a data storage unit including a household chemical product DB and a comprehensive exposure evaluation model DB;
Comprehensive exposure evaluation model driving unit consisting of 3 inhalation models, 3 transdermal models, and 1 oral model;
an input data control unit that generates input data to the comprehensive exposure evaluation model driving unit and automatically generates input data according to a system user's input;
a model result output control unit that inquires the result of the comprehensive exposure evaluation model driving unit and outputs the individual personalized comprehensive exposure information as a graph;
an output unit for exporting and saving the output result as an external file; and
A Korean-style consumer product exposure evaluation model system including an input unit for processing system user input.

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