制定毒理学关注阈值（iTTC）。

Developing an internal threshold of toxicological concern (iTTC).

机构信息

ARC Arnot Research and Consulting Inc., Toronto, ON, Canada.

Department of Physical and Environmental Sciences, University of Toronto Scarborough, Toronto, ON, Canada.

出版信息

J Expo Sci Environ Epidemiol. 2022 Nov;32(6):877-884. doi: 10.1038/s41370-022-00494-x. Epub 2022 Nov 8.

DOI:10.1038/s41370-022-00494-x

PMID:36347933

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9731903/

Abstract

BACKGROUND

Threshold of Toxicological Concern (TTC) approaches are used for chemical safety assessment and risk-based priority setting for data poor chemicals. TTCs are derived from in vivo No Observed Effect Level (NOEL) datasets involving an external administered dose from a single exposure route, e.g., oral intake rate. Thus, a route-specific TTC can only be compared to a route-specific exposure estimate and such TTCs cannot be used for other exposure scenarios such as aggregate exposures.

OBJECTIVE

Develop and apply a method for deriving internal TTCs (iTTCs) that can be used in chemical assessments for multiple route-specific exposures (e.g., oral, inhalation or dermal) or aggregate exposures.

METHODS

Chemical-specific toxicokinetics (TK) data and models are applied to calculate internal concentrations (whole-body and blood) from the reported administered oral dose NOELs used to derive the Munro TTCs. The new iTTCs are calculated from the 5th percentile of cumulative distributions of internal NOELs and the commonly applied uncertainty factor of 100 to extrapolate animal testing data for applications in human health assessment.

RESULTS

The new iTTCs for whole-body and blood are 0.5 nmol/kg and 0.1 nmol/L, respectively. Because the iTTCs are expressed on a molar basis they are readily converted to chemical mass iTTCs using the molar mass of the chemical of interest. For example, the median molar mass in the dataset is 220 g/mol corresponding to an iTTC of 22 ng/L-blood (22 pg/mL-blood). The iTTCs are considered broadly applicable for many organic chemicals except those that are genotoxic or acetylcholinesterase inhibitors. The new iTTCs can be compared with measured or estimated whole-body or blood exposure concentrations for chemical safety screening and priority-setting.

SIGNIFICANCE

Existing Threshold of Toxicological Concern (TTC) approaches are limited in their applications for route-specific exposure scenarios only and are not suitable for chemical risk and safety assessments under conditions of aggregate exposure. New internal Threshold of Toxicological Concern (iTTC) values are developed to address data gaps in chemical safety estimation for multi-route and aggregate exposures.

摘要

背景

毒理学关注阈值（TTC）方法用于化学安全性评估和基于风险的优先排序，适用于数据不足的化学物质。TTC 是从涉及单一暴露途径（例如口服摄入率）的体内无观察到效应水平（NOEL）数据集中得出的。因此，特定途径的 TTC 只能与特定途径的暴露估计值进行比较，并且此类 TTC 不能用于其他暴露情况，例如总暴露。

目的

开发并应用一种从多途径特异性暴露（例如口服、吸入或皮肤）或总暴露中得出内部 TTC（iTTC）的方法。

方法

应用化学特异性毒代动力学（TK）数据和模型，从用于推导 Munro TTC 的报告口服剂量 NOEL 中计算出全身和血液中的内部浓度。从内部 NOEL 的累积分布的第 5 百分位数和通常应用的 100 倍不确定性因素计算出新的 iTTC，以将动物测试数据外推用于人类健康评估。

结果

全身和血液的新 iTTC 分别为 0.5 nmol/kg 和 0.1 nmol/L。由于 iTTC 是以摩尔为基础表示的，因此可以使用感兴趣的化学物质的摩尔质量将其转换为化学质量 iTTC。例如，在数据集中位数摩尔质量为 220g/mol，对应于血液中的 iTTC 为 22ng/L-血液（22pg/mL-血液）。iTTC 被认为广泛适用于许多有机化学物质，除了那些具有遗传毒性或乙酰胆碱酯酶抑制剂的化学物质。新的 iTTC 可与测量或估计的全身或血液暴露浓度进行比较，用于化学安全性筛选和优先级设置。

意义

现有的毒理学关注阈值（TTC）方法在其应用仅限于特定途径的暴露情况方面受到限制，不适合在总暴露条件下进行化学风险和安全评估。开发新的内部毒理学关注阈值（iTTC）值是为了弥补多途径和总暴露化学安全估算中的数据空白。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9774/9731903/d262a1d2041f/41370_2022_494_Fig1_HTML.jpg

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制定毒理学关注阈值（iTTC）。

Developing an internal threshold of toxicological concern (iTTC).

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

SIGNIFICANCE

背景

目的

方法

结果

意义

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