Personal exposure to ultrafine particles and oxidative DNA damage.Exposure in ultrafine particles (UFPs) from vehicle exhaust has been related to risk of cardiovascular and pulmonary disease and cancer, even though exposure assessment is difficult. We studied personal exposure in terms of number concentrations of UFPs in the breathing zone, using portable instruments in six 18-hr periods in 15 healthy nonsmoking non·smok·ing adj. 1. Not engaging in the smoking of tobacco: nonsmoking passengers. 2. Designated or reserved for nonsmokers: the nonsmoking section of a restaurant. subjects. Exposure contrasts of outdoor pollution were achieved by bicycling in traffic for 5 days and in the laboratory for 1 day. Oxidative DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. damage was assessed as strand breaks and oxidized oxidized having been modified by the process of oxidation. oxidized cellulose see absorbable cellulose. purines in mononuclear mononuclear /mono·nu·cle·ar/ (-noo´kle-er) 1. having but one nucleus. 2. a cell having a single nucleus, especially a monocyte of the blood or tissues. mon·o·nu·cle·ar adj. cells isolated from venous blood venous blood n. Abbr. v Blood that has passed through the capillaries of various tissues other than the lungs, is found in the veins, in the right chambers of the heart, and in pulmonary arteries, and is usually dark red as a result of a the morning after exposure measurement. Cumulated outdoor and cumulated indoor exposures to UFPs each were independent significant predictors of the level of purine oxidation in DNA but not of strand breaks. Ambient air concentrations of particulate matter particulate matter n. Abbr. PM Material suspended in the air in the form of minute solid particles or liquid droplets, especially when considered as an atmospheric pollutant. Noun 1. with an aerodynamic diameter Drug particles for pulmonary delivery are typically characterized by aerodynamic diameter rather than geometric diameter. The velocity at which the drug settles is proportional to the aerodynamic diameter, da. of [less than or equal to] 10 [micro]m ([PM.sub.10]), nitrous oxide nitrous oxide or nitrogen (I) oxide, chemical compound, N2O, a colorless gas with a sweetish taste and odor. Its density is 1.977 grams per liter at STP. It is soluble in water, alcohol, ether, and other solvents. , nitrogen dioxide nitrogen dioxide n. A poisonous brown gas, NO2, often found in smog and automobile exhaust fumes and synthesized for use as a nitrating agent, a catalyst, and an oxidizing agent. Noun 1. , carbon monoxide carbon monoxide, chemical compound, CO, a colorless, odorless, tasteless, extremely poisonous gas that is less dense than air under ordinary conditions. It is very slightly soluble in water and burns in air with a characteristic blue flame, producing carbon dioxide; , and/or number concentration of UFPs at urban background or busy street monitoring stations was not a significant predictor of DNA damage, although personal UFP UFP United Federation of Planets (Star Trek) UFP Union des Forces Progressistes (French: Union of the Forces Progressists, Quebec provincial party) UFP URL Filtering Protocol exposure was correlated with urban background concentrations of CO and N[O.sub.2], particularly during bicycling in traffic. The results indicate that biologic effects of UFPs occur at modest exposure, such as that occurring in traffic, which supports the relationship of UFPs and the adverse health effects of air pollution. Key words: comet assay The Single Cell Gel Electrophoresis assay (also known as comet assay) is an uncomplicated and sensitive technique for the detection of DNA damage at the level of the individual cell. It was fist described by Singh et al. in 1988. , exposure, oxidative DNA damage, personal, traffic, ultrafine particles. Environ Health Perspect 113:1485-1490 (2005). doi:10.1289/ehp.7562 available via http://dx.doi.org/ [Online 31 May 2005] ********** Epidemiologic studies have associated exposure to ambient air particulate matter (PM) with pulmonary and cardiovascular diseases and cancer (Brunekreef and Holgate 2002; Pope et al. 2002). To date, the majority of studies have dealt with the relationship between health outcomes and the ambient levels of [PM.sub.10] and [PM.sub.2.5], which are the mass of particles with a aerodynamic diameters [less than or equal to] 10 and 2.5 [micro]m, respectively. Recently, however, interest has focused on the ultrafine particle (UFP) fraction with a diameter [less than or equal to] 100 nm, which are abundant in numbers in numbered parts; as, a book published in numbers. See also: Number but contribute little to particle mass. Mechanistically, UFPs are important because of the adverse health effects caused by their high alveolar alveolar /al·ve·o·lar/ (al-ve´o-lar) [L. alveolaris ] pertaining to an alveolus. al·ve·o·lar adj. Relating to an alveolus. deposition fraction, large surface area, chemical composition, ability to induce inflammation, and potential to translocate trans·lo·cate v. 1. To change from one place or one position to another; to displace. 2. To transfer a chromosomal segment to a new position; to cause to undergo translocation. to the circulation (Donaldson et al. 2001; Donaldson and Tran 2002; Nemmar et al. 2002, 2004; Schins et al. 2004). Vehicle emissions, particularly those related to diesel engines, are a major source of ambient UFPs, which penetrate to the indoor environment (Franck et al. 2003; Levy et al. 2002). A few epidemiologic studies have associated daily changes in number concentrations of UFPs measured at a single urban background monitoring station with daily cardiovascular and pulmonary mortality as well as lung function or use of medicine among patients with asthma (Ibald-Mulli et al. 2002; Penttinen et al. 2001; Peters et al. 1997; von Klot et al. 2002; Wichmann et al. 2000). However, the relationship between number concentrations in urban background and personal exposure to UFPs is not known, and direct links between ambient UFPs and health effects have not been established. Because people spend around 90% of their time indoors (Jenkins et al. 1992), it is widely recognized that a significant proportion of personal exposure to particles occurs in the indoor environment. Indoor UFPs consist of a combination of ambient particles that readily penetrate buildings and infiltrate indoor air (Franck et al. 2003; Levy et al. 2002; Long et al. 2001a; Ozkaynak et al. 1996) and nonambient particles generated indoors during the daily activities of home occupants. Major indoor sources of UFPs include smoking, cooking, candle burning, and other combustion-related processes as well as chemical reactions This is the 18th episode of television drama Men in Trees. It originally aired on June 25, 2007 on the TV2 network in New Zealand as a continuation of season 1. Recap Marin and Cash have a stew cook off, she admits his is better than hers. between, for example, terpenes terpenes (terˑ·pēnz), n.pl a large-sized group of unsaturated hydrocarbons with the empirical formula (C5H8)n. and ozone (Abt et al. 2000; Dennekamp et al. 2001; Levy et al. 2000; Long et al. 2000; Ozkaynak et al. 1996). Personal monitors can be used to measure individual exposure. By means of biomarkers based on putative mechanisms of action, exposure can be related to biologic effects, allowing substantiation of causal relationships and identification of relevant sources and exposure scenarios. The mechanisms of action of adverse health effects of PM are based on experimental studies thought to involve induction of inflammation and oxidative stress oxidative stress, n an imbalance of the prooxidant antioxidant ratio in which too few antioxidants are produced or ingested or too many oxidizing agents are produced. (Donaldson et al. 2001; Donaldson and Tran 2002; Knaapen et al. 2004; Schins et al. 2004). The generation of oxidative stress may involve radicals and soluble transition metals on the surface of UFPs and activation of production of reactive oxygen species reactive oxygen species, n molecules and ions of oxygen that have an unpaired electron, thus rendering them extremely reactive. Many cellular structures are susceptible to attack by ROS contributing to cancer, heart disease, and cerebrovascular disease. in macrophages Macrophages White blood cells whose job is to destroy invading microorganisms. Listeria monocytogenes avoids being killed and can multiply within the macrophage. , granulocytes Granulocytes White blood cells. Mentioned in: Blood Donation and Registry granulocytes (granˑ·y , and target cells as well as redox redox (rē`dŏks): see oxidation and reduction. cycling of quinone quinone Any member of a class of cyclic organic compounds comprising a six-membered unsaturated ring (see saturation) to which two oxygen atoms are bonded as carbonyl groups (−C=O; see functional group). metabolites Metabolites Substances produced by metabolism or by a metabolic process. Mentioned in: Interactions of polyaromatic hydrocarbons. In this context UFPs appear more potent than fine or coarse particles per unit mass (Brown et al. 2000, 2001). Experimental studies in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. and in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. point to DNA oxidation The introduction to this article provides insufficient context for those unfamiliar with the subject matter. Please help [ improve the introduction] to meet Wikipedia's layout standards. You can discuss the issue on the talk page. as an important target of UFPs and fine-fraction PM (Brown et al. 2000, 2001; Dybdahl et al. 2003; Knaapen et al. 2004; Risom et al. 2003a; Schins et al. 2002). Recently, we have shown significant relationships between individual exposure to [PM.sub.2.5], assessed as mass collected on filters over 48 hr, and biomarkers of oxidative damage to DNA bases in terms of 8-oxodeoxyguanosine (8-oxodG), proteins, and lipids among healthy subjects (Sorensen et al. 2003a, 2003b, 2003c). However, this exposure measurement cannot discriminate between indoor and outdoor exposure, and ambient [PM.sub.2.5] mass is influenced by long-range transport of nitrate- and sulfate-based fine particles Fine particles are an air pollutant mainly produced by cars running on diesel. Other sources are the combustion of fossil fuels in power plants and various industrial processes. (Ruuskanen et al. 2001). Because UFPs are ubiquitous, even in indoor environments, exposure is unavoidable, and only levels of exposure can be compared. In the present cross-over study, time-resolved personal exposure to traffic- and indoor-related UFPs was assessed by portable equipment and related to oxidative DNA damage in mononuclear blood cells blood cells, n.pl the formed elements of the blood, including red cells (erythrocytes), white cells (leukocytes), and platelets (thrombocytes). blood cells See erythrocyte and leukocyte. Platelets are classed separately. on 6 different days in 15 subjects after low-intensity bicycling exercise in traffic or indoors. Measurements with outdoor bicycling were repeated on 5 days in order to have variation in outdoor exposure for each individual due to differences in traffic density and meteorologic me·te·or·ol·o·gy n. The science that deals with the phenomena of the atmosphere, especially weather and weather conditions. [French météorologie, from Greek conditions. The control of outdoor exposure and the wide gradient for each subject allowed study of dose-response relationship The Dose-response relationship describes the change in effect on an organism caused by differing levels of exposure (or doses) to a stressor (usually a chemical). This may apply to individuals (eg: a small amount has no observable effect, a large amount is fatal), or to populations and comparison of the contribution of outdoor exposure and indoor exposure. We also assessed personal exposure and DNA damage in relation to ambient concentrations of air pollutants measured at two curbside monitoring stations on busy streets and at one urban background station. Materials and Methods Personal monitoring. Fifteen healthy nonsmoking subjects, 10 males (25.3 [+ or -] 3.5 mean years of age, [+ or -] SD) and 5 females (25.4 [+ or -] 1.5 years) participated in the study after giving informed consent. The local ethics committee ethics committee A multidisciplinary hospital body composed of a broad spectrum of personnel–eg, physicians, nurses, social workers, priests, and others, which addresses the moral and ethical issues within the hospital. See DNR, Institutional review board. approved the study. In a cross-over design cross-over design Clinical research A clinical trial design in which Pts receive, in sequence, the treatment–or the control, and then, after a specified time, are switched to the control–or treatment. See Crossover. with subjects serving as their own control, personal exposure to UFPs was measured for 18 hr on weekdays six times for each person in the period from March through June 2003. Two subjects were studied simultaneously on each occasion. Condensation particle counters (TSI TSI Total Solar Irradiance (sum solar light in energy per unit of time) TSI Trading Standards Institute (UK) TSI Transportation Safety Institute (US DOT) 3007; TSI, St. Paul, MN, USA) with continuous measurement of the number concentrations of UFPs (10-100 nm) were carried in backpacks with the inlet tube placed in the breathing zone. The instruments were equipped with external batteries, and the subjects were trained to supply them with 2-propanol every 8 hr. The instruments count particles optically after they have grown in size in an atmosphere saturated with 2-propanol, which must be supplied at 8-hr intervals. Time series of 1 min average concentrations were logged during each day. For practical reasons the sampling was interrupted during the night. Two data sets were lost because of technical errors. Exposure was referred to as number concentration of UFPs per milliliter milliliter /mil·li·li·ter/ (mL) (-le?ter) one thousandth (10-3) of a liter. mil·li·li·ter n. Abbr. . Cumulated exposure was defined as average concentration multiplied by time with minute as time unit; that is, the unit of cumulated exposure was minutes x UFPs per milliliter (for convenience, tables and figures display units of 106 minutes x UFPs/mL). The particle counters were validated by showing strong correlations in measurements (both instruments: r > 0.999, n = 13) when compared with a TSI 3010 stationary particle counter (TSI) on aerosols of NaCl in 10-20 nm size ranges from 20 to 200 nm and the regression lines going through the origin. Comparison of the two employed TSI 3007 instruments showed a constant difference in counting efficiency of 8.9%, which was corrected for. With this correction the two instruments also gave identical results when carried by different subjects that bicycled the exposure route together (data not shown). Five of the 6 days of exposure measurement included bicycling in central Copenhagen on a 20-km predefined route during morning and/or afternoon rush hours. The mean bicycling time was 93 [+ or -] 15 min. This allowed study of dose-response relationships associated with variations in outdoor exposure for each individual due to differences in traffic density and meteorologic conditions. One exposure measurement day included the same workload at the same intensity on an ergometer ergometer /er·gom·e·ter/ (er-gom´e-ter) a dynamometer. bicycle ergometer an apparatus for measuring the muscular, metabolic, and respiratory effects of exercise. bicycle in a room at the Panum Institute (Copenhagen, Denmark) with air intake away from streets and minimal number concentrations of UFPs. The relationship between heart rate and workload was established for each subject from an ergometer bicycle test, and the average workloads during traffic bicycling on each of the 5 days were calculated from the average heart rates measured during traffic bicycling. Increased pulmonary ventilation pulmonary ventilation n. The total volume of gas per minute inspired or expired. will increase the deposition possibility of UFPs dependent on the breathing pattern (Daigle et al. 2003). A conservative estimate is achieved by assuming proportionality between increased pulmonary ventilation and increased deposition (D) of UFPs. Because pulmonary ventilation during moderate dynamic exercise increases linearly with work intensity (P), the increased UFP deposition during traffic bicycling compared with UFP deposition during rest or light exercise (P = 60 W) can be found as: D(traffic bicycling)/D(60 W) = P(traffic bicycling)/60 W. Individual values of increased pulmonary deposition of UFPs during traffic bicycling were estimated, and cumulated personal traffic exposure was adjusted. The average estimated increase in deposition was a factor of 1.43 [+ or -] 0.37) (n = 67). The subjects kept a diary for recording periods of bicycling, other outdoor activities, and indoor time and activities, including exposure to cooking fumes fumes odorous gases and other volatile materials; inhalation of irritating fumes causes coughing and, if sufficiently severe, irreversible pulmonary edema. , burning candles, and environmental tobacco smoke environmental tobacco smoke (ETS/passive smoke), n the gaseous by-product of burning tobacco products, including but not limited to commercially manufactured cigarettes and cigars; contains toxic elements harmful to the health of adults and children . The subjects were asked to keep the latter exposures at the lowest possible level. The distribution of time spent on outdoor and indoor activities is shown in Table 1. Determination of oxidative DNA damage. In the morning after each exposure measurement day, mononuclear blood cells were isolated from venous blood samples in Vacutainer CPT CPT See: Carriage Paid To tubes with sodium heparin tubes (Becton Dickinson and Company, Rutherford, NJ, USA) and centrifuged at 1,650 x g for 20 min at room temperature. The cell layer was obtained and washed in cold RPMI RPMI Rapid Prototyping & Manufacturing Institute RPMI Roswell Park Memorial Institute RPMI Royal Park Memorial Institute (culture medium) medium from Gibco (Grand Island, NY, USA) and centrifuged at 400 x g for 15 min at 4[degrees]C. Most of the supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. was removed, and the pellet was resuspended in cold preservation medium with volume-percent as follows: 40% RPMI, 50% fetal bovine serum Fetal bovine serum ( or foetal bovine serum) is serum taken from the fetuses of cows. Fetal Bovine Serum (or FBS) is the most widely used serum in the culturing of cells. In some papers the expression foetal calf serum is used. (Gibco), and 10% dimethyl sulfoxide dimethyl sulfoxide (DMSO) Colourless, nearly odourless liquid organic compound. It mixes in all proportions with water, ethanol, and most organic solvents and dissolves a wide variety of compounds (but not aliphatic hydrocarbons). (AppliChem, Darmstadt, Germany). The samples were stored at -80[degrees]C for later analysis. Oxidative DNA damage was determined by single-cell gel electrophoresis (comet assay) as strand breaks and base damage in terms of sites sensitive to formamidopyrimidine glycosylase (FPG FPG Fasting plasma glucose, see there ), which cleaves DNA at sites of oxidized purines and mainly detects 8-oxodG (Collins et al. 1997; Sorensen et al. 2003d). Briefly, cells were thawed on ice, embedded in 0.75% low-melting-point agarose agarose more highly purified form of agar with similar uses to agar and widely used in the separation of nucleic acid fragments. (Sigma, Copenhagen, Denmark) on Gelbond films (BioWhittaker Molecular Applications, Rockland, ME, USA), and lysed for a minimum of 1 hr at 4[degrees]C (2.5 M NaCl; 0.1 M EDTA EDTA: see chelating agents. ; 10 mM Tris, base pH 10; 1% Triton X-100). The gel-embedded nuclei were washed 3 x 5 min in cold buffer (40 mM HEPES HEPES N-2-Hydroxyethylpiperazine-N'-2-Ethanesulfonic Acid , 0.1 M KCl, 0.5 mM EDTA, 0.2 mg/mL bovine serum albumin serum albumin n. See seralbumin. , pH 8) to remove the lysis lysis /ly·sis/ (li´sis) 1. destruction or decomposition, as of a cell or other substance, under influence of a specific agent. 2. mobilization of an organ by division of restraining adhesions. 3. solution. The FPG-sensitive sites were detected by incubation of the agarose-embedded nuclei with 1 [micro]g/mL FPG protein (kindly provided by A. Collins, University of Olso, Oslo, Sweden) for 45 min at 37[degrees]C. The nuclei were subsequently treated in alkaline solution (300 mM NaOH, 1 mM EDTA, pH > 13) for 40 min and electrophoresed in the same solution at 4[degrees]C for 20 min at 25 V and 300 mA. The level of DNA damage in each sample was scored in 100 nuclei according to a five-class system (range of score is 0-400). The net level of FPG-sensitive sites was obtained as the difference in score between samples incubated with FPG protein and buffer. This score was translated into lesions per [10.sup.6] base pairs (bp) by means of a calibration curve based on induction of strand breaks by X ray, which has a known yield [European Standards Committee on Oxidative DNA Damage (ESCODD) 2003; Moller et al. 2004a]. We have used a conversion factor of 0.056 Gy equivalents per score, or 0.011 lesions/106 bp per score (assuming that a human diploid cell contains 4 x [10.sup.12] Da DNA, corresponding to 6 x [10.sup.9] bp). All samples from a subject were coded and analyzed simultaneously in duplicate, minimizing effects of interassay variation. The method has been validated in interlaboratory trials and is believed to be free from artifactual ar·ti·fact also ar·te·fact n. 1. An object produced or shaped by human craft, especially a tool, weapon, or ornament of archaeological or historical interest. 2. oxidation problems (ESCODD 2003). Fixed station monitoring. Ambient concentrations of air pollutants were measured on all exposure days at two curbside busy street stations along the bicycling route and at one urban background station on a rooftop at 20 m height approximately 500 m from the start and end of the bicycling route. Ambient air concentrations of nitric oxide nitric oxide or nitrogen monoxide, a colorless gas formed by the combustion of nitrogen and oxygen as given by the reaction: energy + N2 + O2 → 2NO; m.p. −163.6°C;; b.p. −151.8°C;. , nitrogen dioxide, carbon monoxide, and P[M.sub.10] were measured continuously with a 1-hr time resolution by standard methods at all stations under the Danish Air Quality Monitoring Programme (Kemp and Palmgren 2004). The instruments used for P[M.sub.10] measurements were the tapered element oscillating os·cil·late intr.v. os·cil·lat·ed, os·cil·lat·ing, os·cil·lates 1. To swing back and forth with a steady, uninterrupted rhythm. 2. microbalance mi·cro·bal·ance n. A balance designed to weigh very small loads, up to 0.1 gram. Noun 1. microbalance - balance for weighing very small objects balance - a scale for weighing; depends on pull of gravity (series 1400a ambient particulate monitor; Rupprecht & Patashnick, East Greenbush, NY, USA). The instrument was approved by the U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and for P[M.sub.10] ambient particulate monitoring. The mass measurements were performed at 50[degrees]C to stabilize the water content of the particles, but at the same time other volatile compounds, for example, ammonium nitrate and organic volatiles, will be lost. One street station also measured size-fractionated number concentrations of UFPs by a scanning mobility particle sizer (Palmgren et al. 2003). Temperature, relative humidity relative humidity n. The ratio of the amount of water vapor in the air at a specific temperature to the maximum amount that the air could hold at that temperature, expressed as a percentage. , and wind speed were recorded at the urban background station. Statistical analysis. Statistical analysis of DNA damage was carried out by means of mixed-effects models, which allow both random and fixed effects. The subject level was a random factor, and cumulated exposure to UFPs occurring during bicycling, remaining time outdoors and indoors, and monitoring station values were tested as potential predictor variables with fixed effects. The effect of bicycling indoors or outdoors on total exposure to UFPs and DNA damage was also assessed by two-factorial analysis of variance, including subject as factor. The DNA damage and personal exposure variables were cubic root transformed before analysis to achieve normal distributions. Similarly, in another analysis the relationship between personal log-transformed exposure occurring outdoors during bicycling and other activities, or indoors, and 24-hr average monitoring station log-transformed measurements was analyzed by linear mixed-effects models with subject level as random factor. SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. (version 11.0; SPSS Inc., Chicago, IL, USA) was used for analysis. Results Typical 18-hr personal exposure profiles are shown in Figure 1. Peak concentration of indoor UFPs usually coincided with presence of indoor sources such as cooking, burning candles, or environmental tobacco smoke recorded in the subjects' diaries. The exposure during bicycling in traffic was significantly inversely correlated with air temperature and wind speed as well as directly correlated with the measured concentrations of ambient pollutants at both background and street monitoring stations (Table 2). Weaker but significant correlations were found between indoor UFP exposure and air temperature (inverse) and concentrations of N[O.sub.2] (background station) and CO (background station and street station) and between UFP exposure during other outdoor activities and air temperature and CO concentrations (Table 2). [FIGURE 1 OMITTED] In linear mixed-effects models with subjects as a random factor, background monitoring station measurements of ambient temperature and CO concentration, and ambient temperature and N[O.sub.2] concentration at one of the street stations were the only significant predictors of UFP exposure during bicycling in traffic ([R.sup.2] = 0.60 and [R.sup.2] = 0.74, respectively). In contrast, air temperature was the only significant predictor of UFP exposure during other outdoor activities ([R.sup.2] = 0.09), and background concentration of CO was the only significant predictor of indoor UFP exposure ([R.sup.2] = 0.11). Bicycling in traffic increased the cumulated exposure to UFPs significantly, although indoor exposure contributed more because of the much longer time spent indoors (Table 3). After bicycling in traffic the level of oxidative DNA base damage in terms of FPG-sensitive sites was increased 4-fold (p < 0.001) compared with the level measured after bicycling indoors, but there was no effect on DNA strand breaks (Table 3, Figure 2). The level of FPG-sensitive sites (per [10.sup.6] bp) was significantly predicted by the personal cumulated exposure to UFPs with independent contributions from outdoor and indoor observation periods. The regression coefficients of the mixed-effects model of level of DNA damage, including both outdoor and indoor exposures, with subjects as random factor, were estimated as 1.50 x [10.sup.-3] [95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. (CI), 0.59 x [10.sup.-3] to 2.42 x [10.sup.-3]; p = 0.002] for cumulated outdoor exposure and 1.07 x [10.sup.-3] (95% CI, 0.37 x [10.sup.-3] to 1.77 x [10.sup.-3]; p = 0.003) for cumulated indoor exposure. [FIGURE 2 OMITTED] The level of DNA damage and the cumulated exposure were cubic root transformed before the mixed-effects model analysis. The model explained 50.3% ([R.sup.2]) of the variation, and the residuals were randomly and normally distributed as confirmed by nonparametric tests (Runs test and Kolmogorov-Smirnov test). The regression coefficient should in principle describe the dose-response relationship, although they are not easy to interpret in absolute numbers because of the cubic root transformations. The levels of DNA damage were not significantly associated with any 24-hr average concentration of ambient air pollutants measured at a monitoring station (Pearson's r < 0.303). Discussion In this study oxidative DNA base damage in circulating mononuclear blood cells was associated with personal exposure to UFPs, and short-term higher intensity exposure in traffic was associated with elevated levels of damage. Cumulated outdoor and indoor exposures contributed independently to the association, which showed clear dose-response relationships. The level of damage was not associated with ambient concentrations of air pollutants at a monitoring station, although the concentrations of several of these were associated with personal UFP exposure during bicycling, in particular. Oxidative DNA damage is mutagenic mutagenic inducing genetic mutation. and carcinogenic carcinogenic having a capacity for carcinogenesis. per se and may be considered a biomarker of oxidative stress, which is also thought to be involved in cardiovascular and pulmonary disease due to UFPs (Brown et al. 2001; Donaldson et al. 2001; Li et al. 2003; Schins et al. 2004). After indoor bicycling the level of DNA damage was very low and at a level corresponding to well-nourished healthy volunteers with minimum exposures (Moller and Loft 2004). This low level could be assessed with good precision by an X-ray-calibrated visual scoring system, which we find more sensitive than computer-based image analysis (Moller et al. 2004a). The increase in FPG-sensitive sites in DNA of median 0.06 per [10.sup.6] bp in circulating mononuclear cells after outdoor bicycling would require a radiation dose of approximately 0.14 Gy to induce, assuming a yield of 0.43 FPG sites per [10.sup.6] bp/Gy, as found in mice in vivo (Risom et al. 2003b). However, radiation induces many types of DNA damage, and this comparison cannot be used for risk characterization. We have previously found a significant association between oxidative DNA base damage, without changes in strand breaks, and personal exposure to PM in terms of P[M.sub.2.5] measured as mass over 48 hr in young healthy subjects in Copenhagen (Sorensen et al. 2003b). In that study DNA damage was assessed at the end of the monitoring period, similar to the design in the present study. The lack of measurable effects of PM on DNA strand breaks may be due to the very rapid repair by ligases, whereas guanine guanine (gwä`nēn), organic base of the purine family. It was reported (1846) to be in the guano of birds; later (1879–84) it was established as one of the major constituents of nucleic acids. oxidation is repaired relatively slowly by base excision followed by strand nicking, insertion of nucleotide(s) in the gap, and rejoining by ligases (Hoeijmakers 2001; Risom et al. 2003b). Indeed, DNA base oxidation has been found to be much more sensitive than strand breaks to environmental factors, including several types of air pollution, smoking, and antioxidant antioxidant, substance that prevents or slows the breakdown of another substance by oxygen. Synthetic and natural antioxidants are used to slow the deterioration of gasoline and rubber, and such antioxidants as vitamin C (ascorbic acid), butylated hydroxytoluene intervention (Avobge et al. 2005; Moller and Loft 2002, 2004; Moller et al. 2004b; Sorensen et al. 2003d). In a mouse study the level of oxidized guanine in lung DNA was increased, whereas strand breaks were unchanged 1 and 24 hr after inhalation of diesel exhaust particles (Risom et al. 2003a). Similar to our findings for DNA base oxidation in the present and a previous study (Sorensen et al. 2003b), we have also found significant associations between personal exposure to black smoke, measured as reflectance of material collected on P[M.sub.2.5] filters, and oxidation of plasma proteins, and a similar association between the mass of the filter material and lipid peroxidation in plasma, although the latter was significant only among women (Sorensen et al. 2003c). However, the cumulated exposure measurement in the previous studies did not allow assessment of effects of UFPs and distinction between outdoor and indoor sources (Sorensen et al. 2003b, 2003c). Staying outdoors in traffic, particularly during bicycling, provided higher intensity of exposure for limited periods of time, whereas staying indoors provided prolonged periods of generally low-intensity exposure, although with some activity-related peaks. Vehicle exhaust is the main source of outdoor UFPs, which can penetrate indoors where additional sources include environmental tobacco smoke, cooking, burning of candles, and chemical reactions (Abt et al. 2000; Dennekamp et al. 2001; Levy et al. 2000; Long et al. 2000; Ozkaynak et al. 1996). The parameter estimate of the mixed-effects model describing the level of DNA damage in relation to exposure to UFPs was nominally larger for outdoor than for indoor exposure. This could suggest larger potency of the outdoor UFPs, compared with indoor UFPs, possibly by a factor of 3 considering the cubic root transformations. The personal UFP monitors we used would also measure liquid droplets in the 10-100 nm size range, which could be particularly abundant during, for example, cooking and could have limited toxicologic potential. However, the 95% CIs had considerable overlap, and no firm conclusion can be drawn. Moreover, the particles we measured in numbers indoors or outdoors could not be characterized in other aspects that could have indicated causal components. Nevertheless, diesel exhaust particles have consistently been shown to induce 8-oxodG in experimental animals and in vitro (Brown et al. 2000, 2001; Dybdahl et al. 2003; Knaapen et al. 2004; Risom et al. 2003a; Schins et al. 2002). Moreover, UFPs can be translocated to the circulation upon inhalation and may interact directly with circulating mononuclear cells, possibly explaining the DNA base oxidation found in the present study (Donaldson et al. 2001; Donaldson and Tran 2002; Nemmar et al. 2002, 2004; Schins et al. 2004; Semmler et al. 2004). The toxicity of indoor particles has only been assessed for P[M.sub.2]. and coarse particles with respect to inflammatory potential in vitro, and the potential for inducing DNA damage is unknown, and indoor UFPs have yet to be investigated (Long et al. 2001b; Monn and Becket beck·et n. Nautical A device, such as a looped rope, hook and eye, strap, or grommet, used to hold or fasten loose ropes, spars, or oars in position. [Origin unknown.] Noun 1. 1999; Roponen et al. 2003). Other studies with exposure assessment based on residence or occupation in urban areas also point to an association between ambient air pollution and oxidative DNA damage, for example, in nasal biopsies and leukocytes of subjects in Mexico City or in urine from bus drivers in Copenhagen (Calderon-Garciduenas et al. 1996, 1999; Fortoul et al. 2003, 2004; Loft et al. 1999) Our subjects performed modest exercise in terms of bicycling at moderate speed. This increases internal exposure to UFPs by increasing both ventilation and probably lung deposition, as shown recently (Daigle et al. 2003). We took into account the increased ventilation in our exposure assessment by calculations based on the increases in heart rate at fixed workloads. Without this correction outdoor UFPs would have appeared even more potent with respect to induction of DNA base damage. We did not take into account a possible increase in the fractional deposition during outdoor bicycling caused by a change in the breathing pattern. This may also explain the possible higher potency of outdoor UFPs. Personal exposure to UFPs when bicycling in traffic was inversely related to temperature and wind speed, which is consistent with increased formation through condensation of gases at low temperatures and dispersion by wind. Ambient concentration of UFPs and CO measured at street stations were the strongest predictors of outdoor personal UFP exposure during bicycling, which is consistent with traffic as the major source (Palmgren et al. 2003). Similarly, CO was the strongest predictor measured in urban background. The UFP exposure during other outdoor activities and indoor exposure were less strongly associated with 24-hr monitoring station measurements, and none of the monitoring station measurements was significantly associated with the level of oxidative DNA damage. Compared with direct measurement of personal exposure, monitoring stations measurements are poorer predictors of both exposure and biologic effects. Nevertheless, the significant association between CO concentrations in urban background and personal exposure to indoor UFPs supports that traffic emissions have some contribution to indoor UFPs. This study design, including direct measurement of personal exposure and traffic-related contrasts, has proved promising in demonstrating association between UFPs and biologic effects in terms of oxidative DNA base damage. The results support the importance of UFPs in causing health effects related to generation of oxidative stress by air pollutants. 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X-ray-induced oxidative stress: DNA damage and gene expression of HO-1, ERCC ERCC Excision-Repair Cross-Complementing ERCC Engine(s) Running Crew Change ERCC Electric Reliability Coordinating Council ERCC Excision-Repair, Complementing Defective, in Chinese Hamster 1 and OGG1 in mouse lung. Free Radic Res 37:957-966. Roponen M, Toivola M, Alm S, Nevalainen A, Jussila J, Hirvonen MR. 2003. Inflammatory and cytotoxic cy·to·tox·ic adj. Of, relating to, or producing a toxic effect on cells. cy  to·tox·ic potential of the airborne particle
material assessed by nasal lavage lavage /la·vage/ (lah-vahzh´)1. the irrigation or washing out of an organ, as of the stomach or bowel. 2. to wash out, or irrigate. lav·age n. and cell exposure methods. Inhal Toxicol 15:23-38. Ruuskanen J, Tuch T, Ten Brink H, Peters A, Khlystov A, Mirme A, et al. 2001. Concentrations of ultrafine, fine and P[M.sub.2.5] particles in three European cities. Atmos Environ 35:3729-3738. Schins RP, Duffin R, Hohr D, Knaapen AM, Shi T, Weishaupt C, et al. 2002. Surface modification of quartz inhibits toxicity, particle uptake, and oxidative DNA damage in human lung epithelial cells Epithelial cells Cells that form a thin surface coating on the outside of a body structure. Mentioned in: Corneal Transplantation . Chem Res Toxicol 15:1166-1173. Schins RP, Lightbody JH, Borm P J, Shi T, Donaldson K, Stone V. 2004. Inflammatory effects of coarse and fine particulate matter in relation to chemical and biological constituents. Toxicol Appl Pharmacol 195:1-11. Semmler M, Seitz J, Erbe F, Mayer P, Heyder J, 0berdorster G, et al. 2004. Long-term clearance kinetics of inhaled ultrafine insoluble iridium iridium (ĭrĭd`ēəm), metallic chemical element; symbol Ir; at. no. 77; at. wt. 192.22; m.p. about 2,410°C;; b.p. about 4,130°C;; sp. gr. 22.55 at 20°C;; valence +3 or +4. particles from the rat lung, including transient translocation into secondary organs. Inhal Toxicol 16:453-459. Sorensen M, Autrup H, Hertel D, Wallin H, Knudsen LE, Loft S. 2003b. Personal exposure to P[M.sub.2.5] in an urban environment and biomarkers of genotoxicity Genotoxic substances are a type of carcinogen, specifically those capable of causing genetic mutation and of contributing to the development of tumors. This includes both certain chemical compounds and certain types of radiation. . Cancer Epidemiol Biomarkers Prey 12:191-196. Sorensen M, Autrup H, Moller P, Hertel O, Jensen SS, Vinzents P, et al. 2003a. Linking exposure to environmental pollutants environmental pollutants, n.pl the substances and conditions, including noise, that adversely affect the health and well-being of the people within a community. with biological effects. Mutat Res 544:255-271. Sorensen M, Dragsted LD, Hertel D, Knudsen LE, Loft S. 2003c. Personal P[M.sub.2.5] exposure and markers of oxidative stress in blood. Environ Health Perspect 111:161-106. Sorensen M, Skov H, Autrup H, Hertel D, Loft S. 2003d. Urban benzene exposure and oxidative DNA damage. Sci Total Environ 309:69-80. von Klot S, Wolke G, Tuch T, Heinrich J, Dockery DW, Schwartz J, et al. 2002. Increased asthma medication use in association with ambient fine and ultrafine particles. Eur Respir J 20:691-702. Wichmann HE, Spix C, Tuch T, Wolke G, Peters A, Heinrich J, et al. 2000. Daily mortality and fine and ultrafine particles in Erfurt, Germany. Part I: Role of particle number and particle mass. Res Rep Health Eff Inst 98:5-86. Peter S. Vinzents, (1) Peter Moller, (1) Mette Sorensen, (1) Lisbeth E. Knudsen, (1) Ole Hertel, (2) Finn Palmgren Jensen, (2) Bente Schibye, (3) and Steffen Loft (1) (1) Department of Occupational and Environmental Health, University of Copenhagen The University of Copenhagen (Danish: Københavns Universitet) is the oldest and largest university and research institution in Denmark. , Copenhagen, Denmark; (2) National Environmental Research Institute, Copenhagen, Denmark; (3) National Institute of Occupational Health, Copenhagen, Denmark Address correspondence to P.S. Vinzents, Department of Occupational and Environmental Health, University of Copenhagen, Oster Farimagsgade 5, opg. B, 2. Sal, Postbox 2099, DK-1014, Copenhagen N, Denmark. Telephone: 45-35-32-76-55. E-mail: p.vinzents@pubhealth.ku.dk The study was supported by the Danish Environmental Protection Agency and the Research Centre for Environmental Health under the Danish Ministry of the Interior and Health. The authors declare they have no competing financial interests.
Table 1. Distribution of time (min) as mean [+ or -] SD spent
in traffic, outdoors, and indoors on six occasions in each of
15 healthy subjects.
Time bicycling on Time bicycling
Bicycling (days) designated route elsewhere
In traffic (n = 74) 93 [+ or -] 15 7 [+ or -] 21
Indoors (n = 14) -- 22 [+ or -] 21
Time outdoors
Bicycling (days) not bicycling Time indoors
In traffic (n = 74) 62 [+ or -] 66 751 [+ or -] 65
Indoors (n = 14) 59 [+ or -] 59 837 [+ or -] 62
Table 2. Geometric means (GM) and geometric SDs (GSD) of air pollutants
concentrations, and partial correlation (subject controlled) between
meteorologic conditions and ambient log-transformed concentrations
of air pollutants measured as 24-hr averages at monitoring stations
against personal exposure to UFPs for 15 subjects, each measured
on five or six occasions.
Bicycling on
exposure route
Measure GM (GSD) n (a) (5 occasions)
UFPs (personal exposure)
GM (GSD) n (a) -- 32.4 (b) (1.49) 74
Correlations
Background station
Temperature -- -0.619 *
Wind speed -- -0.516 *
[NO.sub.x] 13.4 (c) (1.61) 73 0.439 *
[NO.sub.2] 11.3 (c) (1.52) 73 0.454 *
CO 273 (c) (1.35) 73 0.651 *
[PM.sub.10] 16.9 (c) (1.53) 75 0.290
Street station 1
UFPs 30.4 (b) (1.38) 75 0.493 *
[NO.sub.x] 72.4 (c) (1.44) 72 0.486 *
[NO.sub.2] 32.1 (c) (1.31) 72 0.394 *
Street station 2
[NO.sub.x] 51.7 (c) (1.76) 74 0.444 *
[NO.sub.2] 24.2 (c) (l.49) 74 0.415 *
CO 788 (c) (1.52) 74 0.556 *
[PM.sub.10] 23.5 (c) (1.48) 75 0.428 *
Other outdoor
activities Indoors
Measure (6 occasions) (6 occasions)
UFPs (personal exposure)
GM (GSD) n (a) 19.6 (b) (1.78) 84 13.4 (b) (1.96) 89
Correlations
Background station
Temperature -0.300 * -0.320 *
Wind speed -0.145 -0.132
N[O.sub.x] 0.207 0.259
N[O.sub.2] 0.237 0.293 *
CO 0.317 * 0.371
[PM.sub.10] 0.126 0.193
Street station 1
UFPs 0.179 0.255
N[O.sub.x] 0.193 0.105
N[O.sub.2] 0.147 0.118
Street station 2
N[O.sub.x] 0.228 0.226
N[O.sub.2] 0.207 0.266
CO 0.289 * 0.311 *
[PM.sub.10] 0.198 0.249
[NO.sub.x], nitrogen oxide.
(a) GM (GSD) number of measurements.
(b) Data are expressed in units of [10.sup.3] UFPs/mL.
(c) Data are expressed as [micro]g/[m.sup.3].
* Significant correlations at the 0.01% level (two-tailed).
Table 3. Median and interquartile range of cumulated exposure to
UFPs and oxidative DNA damage as FPG lesions and strand breaks (SB)
in 15 subjects bicycling in traffic or indoors, on six occasions.
Cumulated exposure to UFPs
([10.sup.6] min x UFPs/mL)
Traffic Remaining Time
Bicycling (days) bicycling time outdoors indoors
In traffic (n = 74) 3.01 (a) 1.54 (a) 10.5 (a)
(2.25-4.44) (0.68-3.28) (5.86-16.7)
Indoors (n = 14) -- 1.42 9.20
(0.52-2.41) (6.15-13.1)
DNA damage (per [10.sup.6] bp)
Bicycling (days) FPG SB
In traffic (n = 74) 0.08 (b) 0.06
(0.04-0.12) (0.03-0.11)
Indoors (n = 14) 0.02 (0-0.04) 0.06
(0.02-0.12)
(a) Total UFP exposure (sum) increased compared
with day with indoor bicycling (p = 0.004).
(b) DNA damage increased compared with day with
indoor bicycling (p = 0.0003).
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