Model of the deposition of aerosol particles in the respiratory tract of the rat. II. Hygroscopic particle deposition.

Background: Rats are frequently used to study the pharmacological and toxicological effects of inhaled aerosol particles. The deposition behavior of aerosol particles in airways is affected by their hygroscopic properties, which accordingly influence the results of such studies.

Method: A recently published nonhygroscopic aerosol particle deposition model for rat airways was extended with equations for hygroscopic particle growth in humid air and with a model to mimic the temperature and relative humidity conditions in the rat airways transformed from the upper human airways.

Long-term responses of canine lungs to acidic particles.

Sixteen beagle dogs were housed in four large chambers under minimum restraint. They were exposed for 16 months to clean air and individual baseline data of markers were obtained. For 13 months, eight dogs were further exposed to clean air and eight dogs for 6 h/d to 1-microm MMAD (mass median aerodynamic diameter) acidic sulfate particles carrying 25 micromol H(+) m(-3) into their lungs.

Derivation of the density and refractive index of organic matter and elemental carbon from closure between physical and chemical aerosol properties.

Information on the density (rho) and refractive index m (=n-ik) of elemental carbon (ECa) and organic matter (OMa), the main carbon components of atmospheric aerosols, has frequently been obtained from closure calculations between physical and chemical aerosol properties. However, this approach has suffered from large uncertainties since there were more unknown (or poorly known) parameters than defining equations. In this study, we propose a method that avoids this ambiguity mainly by considering both optical and mass closure and by expressing the three ECa parameters (rho(ECa), n(ECa), k(ECa)) by a single (unknown) parameter.

Particle clearance from the airways of subjects with bronchial hyperresponsiveness and with chronic obstructive pulmonary disease.

The aim of this study was to determine particle clearance and retention from non-alveolated airways of 14 healthy subjects (HS), 10 subjects with asymptomatic bronchial hyperresponsiveness (BHR), and 23 patients with chronic obstructive pulmonary disease (COPD). Monodisperse iron oxide particles of 1.6 micro m geometric and 3.

Association studies of lung function in mice.

Chronic obstructive pulmonary disease (COPD) is the fourth leading cause of death worldwide and an accelerating decline of lung function is the earliest and a major indicator of the onset of COPD. Therefore it has become necessary to understand the genetic basis of this complex physiological trait in order to determine the potential susceptibility factors of this disease. REINHARD et al (2005) performed the genome wide linkage analysis study with inbred mice having extremely divergent lung function (C3H/HeJ versus JF1/Msf) and identified multiple Quantitative Trait Loci (QTLs) on mouse chromosomes (mCh) 5, 15, 17, and 19 with Logarithm of odd (LOD) scores > or = 4.

Model for the deposition of aerosol particles in the respiratory tract of the rat. I. Nonhygroscopic particle deposition.

Rats are used to test the toxicological and pharmacological effects of aerosol particles on the organism. For estimates of the delivered aerosol dose, lung deposition models provide a valuable tool. Here a previously developed deposition model for nonhygroscopic and hygroscopic aerosol particles in the lungs of man (Ferron et al.

Aging and induced senescence as factors in the pathogenesis of lung emphysema.

Classically, the development of emphysema in chronic obstructive pulmonary disease is believed to involve inflammation induced by cigarette smoke and leukocyte activation, including oxidant-antioxidant and protease-antiprotease imbalances. While there is substantial evidence for this, additional aspects have been suggested by a number of clinical and experimental observations. Smokers exhibit signs of premature aging, particularly obvious in the skin.

Postnatal lung function in the developing rat.

Little is known about lung function during early stages of postnatal maturation, although the complex structural changes associated with developing rat lung are well studied. We therefore analyzed corresponding functional (lung volume, respiratory mechanics, intrapulmonary gas mixing, and gas exchange) and structural (alveolar surface area, mean linear intercept length, and alveolar septal thickness) changes of the developing rat lung at 7-90 days. Total lung capacity (TLC) increased from 1.

Deposition, retention, and translocation of ultrafine particles from the central airways and lung periphery.

Rationale: Little is known about clearance of ultrafine carbon particles from the different regions of the human lung. These particles may accumulate and present a health hazard because of their high surface area.

Objectives: Technetium Tc 99m ((99m)Tc)-radiolabeled 100-nm-diameter carbon particles were inhaled by healthy nonsmokers, asymptomatic smokers, and by patients with chronic obstructive pulmonary disease (COPD).

Candidate genes controlling pulmonary function in mice: transcript profiling and predicted protein structure.

Impaired development and reduced lung capacity are risk factors of asthma and chronic obstructive pulmonary disease. Previously, our genomewide linkage analysis of C3H/HeJ (C3H) and JF1/Msf (JF1) mouse strains identified quantitative trait loci (QTLs) associated with the complex traits of dead space volume (Vd), total lung capacity (TLC), lung compliance (CL), and diffusing capacity for CO (D(CO)). We assessed positional candidate genes by comparing C3H with JF1 lung transcript levels by microarray and by comparing C3H, BALB/cByJ, C57BL/6J, A/J, PWD/PhJ, and JF1 strains, using exon sequencing to predict protein structure.

Expression of p57-Kip2 in monocytes and macrophages.

The p57-Kip2 gene encodes a cyclin-dependent kinase inhibitor and hence this gene has received much attention in the study of malignancy. We have analysed expression of this gene in human monocytes and macrophages. In comparison to CD14++ monocytes, p57-Kip2 expression was higher in both CD14+16+ monocytes and alveolar macrophages.

Distribution pattern of inhaled ultrafine gold particles in the rat lung.

The role of alveolar macrophages in the fate of ultrafine particles in the lung was investigated. Male Wistar-Kyoto rats were exposed to ultrafine gold particles, generated by a spark generator, for 6 h at a concentration of 88 microg/m3 (4 x 10(6)/cm3, 16 nm modal mobility diameter). Up to 7 days, the animals were serially sacrificed, and lavaged cells and lung tissues were examined by transmission electron microscopy.

Dose-controlled exposure of A549 epithelial cells at the air-liquid interface to airborne ultrafine carbonaceous particles.

The geometry of commercially available perfusion chambers designed for harbouring three membrane-based cell cultures was modified for reliable and dose-controlled air-liquid interface (ALI) exposures. Confluent A549 epithelial cells grown on membranes were integrated in the chamber system and supplied with medium from the chamber bottom. Cell viability was not impaired by the conditions of ALI exposure without particles.

Motion and twisting of magnetic particles ingested by alveolar macrophages in the human lung: effect of smoking and disease.

Background: Magnetic microparticles being ingested by alveolar macrophages can be used as a monitor for intracellular phagosome motions and cytoskeletal mechanical properties. These studies can be performed in the human lung after voluntary inhalation. The influence of cigarette smoking and lung diseases on cytoskeleton dependent functions was studied.

Mucociliary and long-term particle clearance in airways of patients with immotile cilia.

Spherical monodisperse ferromagnetic iron oxide particles of 1.9 microm geometric and 4.2 microm aerodynamic diameter were inhaled by seven patients with primary ciliary dyskinesia (PCD) using the shallow bolus technique, and compared to 13 healthy non-smokers (NS) from a previous study.

Oxymetazoline inhibits proinflammatory reactions: effect on arachidonic acid-derived metabolites.

The nasal decongestant oxymetazoline effectively reduces rhinitis symptoms. We hypothesized that oxymetazoline affects arachidonic acid-derived metabolites concerning inflammatory and oxidative stress-dependent reactions. The ability of oxymetazoline to model pro- and anti-inflammatory and oxidative stress responses was evaluated in cell-free systems, including 5-lipoxygenase (5-LO) as proinflammatory, 15-lipoxygenase (15-LO) as anti-inflammatory enzymes, and oxidation of methionine by agglomerates of ultrafine carbon particles (UCPs), indicating oxidative stress.

Deposition of inhaled particles in the human respiratory tract and consequences for regional targeting in respiratory drug delivery.

Particle behavior in the human respiratory tract is well understood and can be used to (1) estimate particle deposition in all regions of the respiratory tract for any aerosol respired at any pattern, and (2) optimize targeting of all regions of the respiratory tract in respiratory drug delivery. Extrathoracic and alveolar regions can effectively be targeted with mono- and polydisperse aerosols respired steadily. Effective targeting of the bronchial region can only be achieved with bolus inhalations.

Oxidative stress and lipid mediators induced in alveolar macrophages by ultrafine particles.

In ambient aerosols, ultrafine particles (UFP) and their agglomerates are considered to be major factors contributing to adverse health effects. Reactivity of agglomerated UFP of elemental carbon (EC), Printex 90, Printex G, and diesel exhaust particles (DEP) was evaluated by the capacity of particles to oxidize methionine in a cell-free in vitro system for determination of their innate oxidative potential and by alveolar macrophages (AMs) to determine production of arachidonic acid (AA), including formation of prostaglandin E2 (PGE2), leukotriene B4 (LTB4), reactive oxygen species (ROS), and oxidative stress marker 8-isoprostane. EC exhibiting high oxidative potential induced generation of AA, PGE2, LTB4, and 8-isoprostane in canine and human AMs.

Cardiovascular responses in unrestrained WKY rats to inhaled ultrafine carbon particles.

Based on epidemiologic observations, the issue of adverse health effects of inhaled ultrafine particles (UFP) is currently under intensive discussion. We therefore examined cardiovascular effects of UFP in a controlled animal exposure on young, healthy WKY rats. Short-term exposure (24 h) to carbon UFPs (38 nm, 180 microg m (-3)), generated by spark discharging, induced a mild but consistent increase in heart rate (18 bpm, 4.

Effect of magnetic bead agglomeration on Cytomagnetometric measurements.

Magnetic twisting cytometry (MTC) is a novel tool to measure cytoskeleton-associated cell functions by the use of ferromagnetic microbeads. Magnetic beads are either incorporated by living cells by phagocytic processes or attached to integrin receptors to the cell membrane. The magnetic beads are magnetized and aligned in a strong magnetic field pulse.

Mucociliary and long-term particle clearance in the airways of healthy nonsmoker subjects.

Spherical monodisperse ferromagnetic iron oxide particles of 1.9-microm geometric and 4.2-microm aerodynamic diameter were inhaled by 13 healthy nonsmoking subjects using the shallow bolus technique.

Influence of inflammatory mechanisms on the redox balance in interstitial lung diseases.

This study investigated the hypothesis that inflammatory, regulatory and antioxidant systems control the redox balance in interstitial lung diseases. Spontaneous mRNA expression of inflammatory cytokines and redox-active enzymes was examined in bronchoalveolar lavage (BAL) cells from patients with idiopathic pulmonary fibrosis (IPF) and sarcoidosis (SARC) using RT-PCR analysis. Pulmonary oxidative stress was characterized by carbonyl-levels in the soluble BAL-fluid protein.

Fate and toxic effects of inhaled ultrafine cadmium oxide particles in the rat lung.

Female Fischer 344 rats were exposed to ultrafine cadmium oxide particles, generated by spark discharging, for 6 h at a concentration of 70 microg Cd/m(3) (1 x 10(6)/cm(3)) (40 nm modal diameter). Lung morphology and quantification of Cd content/concentration by inductively coupled plasma (ICP)-mass spectrometry were performed on days 0, 1, 4, and 7 after exposure. Cd content in the lung on day 0 was 0.