Utility of In Vitro Bioactivity as a Lower Bound Estimate of In Vivo Adverse Effect Levels and in Risk-Based Prioritization.

Use of high-throughput, in vitro bioactivity data in setting a point-of-departure (POD) has the potential to accelerate the pace of human health safety evaluation by informing screening-level assessments. The primary objective of this work was to compare PODs based on high-throughput predictions of bioactivity, exposure predictions, and traditional hazard information for 448 chemicals. PODs derived from new approach methodologies (NAMs) were obtained for this comparison using the 50th (PODNAM, 50) and the 95th (PODNAM, 95) percentile credible interval estimates for the steady-state plasma concentration used in in vitro to in vivo extrapolation of administered equivalent doses.

Recommendations for harmonization of data collection and analysis of developmental neurotoxicity endpoints in regulatory guideline studies: Proceedings of workshops presented at Society of Toxicology and joint Teratology Society and Neurobehavioral Teratology Society meetings.

The potential for developmental neurotoxicity (DNT) of environmental chemicals may be evaluated using specific test guidelines from the US Environmental Protection Agency or the Organisation for Economic Cooperation and Development (OECD). These guidelines generate neurobehavioral, neuropathological, and morphometric data that are evaluated by regulatory agencies globally. Data from these DNT guideline studies, or the more recent OECD extended one-generation reproductive toxicity guideline, play a pivotal role in children's health risk assessment in different world areas.

Expanding the test set: Chemicals with potential to disrupt mammalian brain development.

High-throughput test methods including molecular, cellular, and alternative species-based assays that examine critical events of normal brain development are being developed for detection of developmental neurotoxicants. As new assays are developed, a "training set" of chemicals is used to evaluate the relevance of individual assays for specific endpoints. Different training sets are necessary for each assay that would comprise a developmental neurotoxicity test battery.

Evaluation of the ToxRTool's ability to rate the reliability of toxicological data for human health hazard assessments.

Regulatory agencies often utilize results from peer reviewed publications for hazard assessments. A problem in doing so is the lack of well-accepted tools to objectively, efficiently and systematically assess the quality of published toxicological studies. Herein, we evaluated the publicly available software-based ToxRTool (Toxicological data Reliability assessment Tool) for use in human health hazard assessments.

A proposal to facilitate weight-of-evidence assessments: Harmonization of Neurodevelopmental Environmental Epidemiology Studies (HONEES).

The ability to conduct weight-of-evidence assessments to inform the evaluation of potential environmental neurotoxicants is limited by lack of comparability of study methods, data analysis, and reporting. There is a need to establish consensus guidelines for conducting, analyzing, and reporting neurodevelopmental environmental epidemiologic studies, while recognizing that consistency is likewise needed for epidemiology studies examining other health outcomes. This paper proposes a set of considerations to be used by the scientific community at-large as a tool for systematically evaluating the quality of proposed and/or published studies in terms of their value for weight-of-evidence assessments.

The use of developmental neurotoxicity data in pesticide risk assessments.

Following the passage of the Food Quality Protection Act, which mandated an increased focus on evaluating the potential toxicity of pesticides to children, the number of guideline developmental neurotoxicity (DNT) studies (OPPTS 870.6300) submitted to the U.S.

Statistical power in the analyses of brain weight measures in pesticide neurotoxicity testing and the relationship between brain and body weight.

Few investigations have examined statistical power in studies of pesticide exposure effects on rat brain weight. Using data from developmental neurotoxicity studies conducted by four different laboratories, we evaluated statistical power to detect changes in rat brain weight and examined the relationship between brain and body weight in several age groups. All power calculations assumed an alpha value of 0.

A retrospective performance assessment of the developmental neurotoxicity study in support of OECD test guideline 426.

Objective: We conducted a review of the history and performance of developmental neurotoxicity (DNT) testing in support of the finalization and implementation of Organisation of Economic Co-operation and Development (OECD) DNT test guideline 426 (TG 426).

Information Sources And Analysis: In this review we summarize extensive scientific efforts that form the foundation for this testing paradigm, including basic neurotoxicology research, interlaboratory collaborative studies, expert workshops, and validation studies, and we address the relevance, applicability, and use of the DNT study in risk assessment.

Conclusions: The OECD DNT guideline represents the best available science for assessing the potential for DNT in human health risk assessment, and data generated with this protocol are relevant and reliable for the assessment of these end points.

Determining normal variability in a developmental neurotoxicity test: a report from the ILSI Research Foundation/Risk Science Institute expert working group on neurodevelopmental endpoints.

With the implementation of the Food Quality Protection Act in 1996, more detailed evaluations of possible health effects of pesticides on developing organisms have been required. As a result, considerable developmental neurotoxicity (DNT) data have been generated on a variety of endpoints, including developmental changes in motor activity, auditory startle habituation, and various learning and memory parameters. One issue in interpreting these data is the level of variability for the measures used in these studies: excessive variability can obscure treatment-related effects, or conversely, small but statistically significant changes could be viewed as treatment related, when they might in fact be within the normal range.

A qualitative retrospective analysis of positive control data in developmental neurotoxicity studies.

Testing for neurodevelopmental effects commonly involves both functional and neuropathological assessments in offspring during and following maternal exposure. The use of positive controls in neurotoxicity screening has been advocated by numerous expert groups. Evaluation of positive control data allows evaluation of laboratory proficiency in detecting changes in the structure and function of the developing nervous system and comparison of the sensitivity of assessments in different studies and laboratories.

Neuroendocrine responses to intravenous infusion of physostigmine in patients with Alzheimer disease.

We have reported that physostigmine, a reversible cholinesterase inhibitor, enhances verbal memory in patients with Alzheimer disease (AD). To elucidate the mechanism of cognition enhancement, plasma hormones were measured during high-dose acute and low-dose chronic steady-state intravenous infusions of physostigmine in nine subjects with AD. High-dose hormone responses were measured during and for 24 h after the infusion of physostigmine 1-1.

Food and Drug Administration Proposed Guidelines for Neurotoxicological Testing of Food Chemicals.

The fact that some chemicals may adversely affect the nervous system is certainly not a new concept in regulatory toxicology. In 1982, the FDA issued testing guidelines for the safety evaluation of proposed direct food and color additives which included the assessment of nervous system toxicity as part of the general toxicological profile. However, these guidelines provide only broad and nonspecific recommendations as to how this assessment may best be carried out.

Clinical pharmacokinetics of arecoline in subjects with Alzheimer's disease.

Objective: To study the pharmacokinetics and pharmacodynamics of intravenously administered arecoline in subjects with Alzheimer's disease.

Methods: Plasma arecoline concentrations were measured during and after high-dose (i.e.

Differential response to the cholinergic agonist arecoline among different cognitive modalities in Alzheimer's disease.

Nine patients with possible or probable dementia of the Alzheimer type were tested on nine cognitive tests prior to (two times) and during continuous intravenous administration of five different doses of the muscarinic cholinergic agonist arecoline (1, 4, 16, 28, and 40 mg/day). The present analysis examined whether improvement on cognitive testing for each patient during arecoline treatment was most likely to occur at the same dose for all tests or whether different test scores improved at different doses of arecoline. Results indicated there were significant differences among tests in the dose at which most patients showed improved cognitive performance.

Clinical pharmacokinetics of physostigmine in patients with Alzheimer's disease.

Objective: To study the pharmacokinetic and pharmacodynamic properties of physostigmine in subjects with Alzheimer's disease.

Methods: Plasma physostigmine concentration and butyrylcholinesterase inhibition were measured in blood samples collected during and after a single high-dose (1 to 1.5 mg for 45 to 60 minutes) and a sustained low-dose steady-state intravenous infusion in nine subjects with Alzheimer's disease.

Treatment of Alzheimer disease by continuous intravenous infusion of physostigmine.

Physostigmine, a reversible and nonselective cholinesterase inhibitor, administered by steady-state, continuous intravenous infusion to carefully selected subjects with mild-moderate Alzheimer disease, produced significant but modest improvement in memory in five of nine subjects. Drug dosing was limited by the occurrence of adverse effects. Apparent tolerance to adverse effects was observed in two subjects when the dose of physostigmine was escalated slowly over at least 2 weeks.

Neuroendocrine responses to intravenous infusion of arecoline in patients with Alzheimer's disease.

We have reported that arecoline, a muscarinic receptor agonist replicably enhanced verbal memory in five of nine subjects with Alzheimer's disease (AD). To investigate the mechanism of cognitive improvement, circulating hormone measurements were made during high-dose acute and low-dose chronic intravenous (i.v.

Memory improvement without toxicity during chronic, low dose intravenous arecoline in Alzheimer's disease.

Arecoline, a cholinergic agonist, administered at low doses by continuous intravenous infusion for up to 2 weeks, significantly and replicably improved memory in five of nine subjects with mild-moderate Alzheimer's disease. During dose finding, performance on a verbal memory task improved with an inverted U-shaped relation to dose. Six of nine subjects were classified as responders.

Individual trajectories of cognitive decline in patients with dementia of the Alzheimer type.

The course of decline was studied in 16 patients with probable or definite dementia of the Alzheimer type (DAT) over 2.7 to 6.8 years from first to last evaluation.

Effects of acute infusion of the muscarinic cholinergic agonist arecoline on verbal memory and visuo-spatial function in dementia of the Alzheimer type.

1. Treatment of patients with dementia of the Alzheimer type (DAT) with arecoline, a muscarinic cholinergic receptor agonist, reportedly improves performance on a picture recognition memory task, but not on other memory measures. To examine further possible performance improvements following arecoline treatment, patients with DAT were treated with a 30 min intravenous infusion of arecoline (5 mg).

Effects of long-term continuous infusion of the muscarinic cholinergic agonist arecoline on verbal memory in dementia of the Alzheimer type.

Alzheimer's disease (AD) is accompanied by depletion of cholinergic markers in the central nervous system. In an attempt to improve cognitive function in AD, arecoline (a muscarinic cholinergic receptor agonist) was given to patients with probable or possible AD in a two-phase design, and verbal memory function was examined. First, escalating doses of arecoline, range .

Repeated exposure to diisopropylfluorophosphate (DFP) produces increased sensitivity to cholinergic antagonists in discrimination retention and reversal.

This experiment examined the effects of repeated exposure to diisopropylfluorophosphate (DFP), an organophosphate anticholinesterase, on the retention and reversal of a visual discrimination and on the number of muscarinic receptors in the brain. Rats were trained in a serial reversal procedure. After achieving stable performance, the rats were divided into two groups.

Long-term effects of cholinergic agonists on memory.

Animal models provide important information about strategies that can be used to assess the effects of chronic exposure to drugs or other compounds. Furthermore, when used in conjunction with analyses designed to utilize the many advantages of animal models to examine learning and memory, these kinds of experiments can have significant ramifications for assessing the mnemonic effects of chronic drug use in people. Finally, given that aging is accompanied by significant deterioration of neurochemical systems, which may compromise the functions of those systems, the results from the experiments with DFP predict that changes in learning and memory abilities that are not apparent in young individuals may begin to surface as those individuals age or may appear following any other kind of insult to their nervous system.

Neurotoxicology dose/response assessment for several cholinesterase inhibitors: use of uncertainty factors.

Dose/response assessment for non-carcinogenic endpoints typically uses the Acceptable Daily Intake (ADI) or Reference Dose (RfD) approach, in which a dose believed to cause no toxic effect is divided by a number of safety or uncertainty factors (e.g., to control for variability and cross-species extrapolation), in order to estimate a dose presumed to have no adverse effects in humans.

Hippocampal and amygdaloid involvement in working memory for nonspatial stimuli.

Hippocampal lesions in rats lead to an impairment of performance in spatial delayed conditional discriminations. The effect of such lesions on nonspatial tasks is controversial. In monkeys, both the hippocampus and the amygdala are involved in nonspatial delayed conditional discriminations.