Developing inhaled drugs requires knowledge of lung anatomy, cell biology, respiratory physiology, particle physics, and some plumbing. Although dose makes the poison, in the context of an inhaled drug, the "dose" is not easily defined. This lack of clarity around dose poses issues and challenges in the design of inhalation toxicology programs. To better understand dose, the influence of ventilation is discussed as are the perturbations in pulmonary function observed with inhalation exposure that can affect dose. Methods for determining inhaled drug deposition to arrive at an estimate of lung dose are examined. Equally important to understanding dose are the techniques used to deliver aerosols to animals. With a better understanding of dose and inhalation exposure, species-specific histopathologic lesions, both common background and toxicologically significant lesions, are reviewed. Finally, insight into how regulators synthesize and evaluate these complex findings to assess clinical safety risks is presented.
To determine whether skin puncture blood can be used reliably for CD4 lymphocyte counts, the numbers of the major subsets of lymphocytes were assessed in paired venous and skin puncture blood samples from 22 children and 10 adults. Paired values were highly correlated, with skin puncture values being about 7% higher than venous values for each cell type. Differences were of borderline statistical significance for total lymphocytes and for each subset except CD3 + CD8 + T lymphocytes. Nevertheless, the magnitude of the differences was small and unlikely to be of clinical importance, and it seems that skin puncture samples may be preferable for CD4 counts in children or adults with difficult venous access. ( Clin Pathol 1995;48:1137-1138 Keywords: Lymphocyte subsets, CD4, CD8.The counting of lymphocyte subsets is widely used in the detection and monitoring of immunodeficiency states, and CD4 counts are frequently requested in patients with HIV infection. Flow cytometric analysis of the major subsets requires only a sample volume of <1 ml, and this study was undertaken to determine whether skin puncture (capillary)
Squamous metaplasia is a nonspecific adaptive response to chronic irritation in the larynx and is often diagnosed as a test item-related change in rat inhalation studies. Investigating scientists are frequently asked to assess the adversity of laryngeal squamous metaplasia and to interpret its relevance to human risk. One factor in predicting relevance to human risk is the kinetics (degree and speed) of recovery following the cessation of exposure to the test item. Most reports describing recovery from squamous metaplasia in the rat larynx discuss the more severe end of the spectrum of metaplastic change (moderate to severe) and include relatively long (6 weeks or more) recovery periods. We conducted 2 studies to evaluate the toxicity and recovery from any potential effects of 4-(Chloro-2-methylphenoxy) butyric (MCPB) acid, a herbicide, when administered by inhalation to young male Sprague Dawley rats for 3 to 4 weeks. The studies resulted in minimal to moderate laryngeal squamous metaplasia for which we describe the kinetics of recovery over 1 to 4 weeks. We found that the microscopic change epithelial alteration, which is normally considered to be a precursor in the development of squamous metaplasia, can occur as a transitional stage between squamous and normal epithelium during recovery.
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