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Bibliografía
[1.]
I.L. Bernstein, D.I. Bernstein, M. Chan-Yeung, J.L. Malo.
Definition and classification of asthma.
Asthma in the workplace, pp. 1-3
[2.]
American Thoracic Society.
Guidelines for assessing and managing asthma risk at work, school, and recreation, 169 (2004), pp. 873-881
[3.]
O. Vandenplas, J.L. Malo.
Definitions and types of work-related asthma: a nosological approach.
Eur Respir J, 21 (2003), pp. 706-712
[4.]
C.E. Mapp, P. Boschetto, P. Maestrelli, L.M. Fabri.
Occupational asthma.
Am J Respir Crit Care Med, 172 (2005), pp. 280-305
[5.]
S.M. Tarlo.
Workplace irritant exposures: do they produce true occupational asthma?.
Ann Allergy Asthma Immunol, 90 (2003), pp. 19-23
[6.]
M. Chang-Yeung, S. Lam.
Occupational asthma.
Am Rev Respir Dis, 133 (1986), pp. 686-703
[7.]
D.I. Bernstein.
Occupational asthma caused by exposure to low-molecular-weight chemicals.
Immunol Allergy Clin North Am, 23 (2003), pp. 221-234
[8.]
D. Gautrin, I.L. Bernstein, S. Brooks.
Reactive airways dysfunction syndrome or irritant induced asthma.
Asthma in the workplace, pp. 565-593
[9.]
M. Chan-Yeung, J.L. Malo.
Tables of major inducers of occupational asthma.
Asthma in the workplace, pp. 683-720
[10.]
D.I. Bernstein.
Allergic reactions to workplace allergens.
JAMA, 278 (1997), pp. 1907-1913
[11.]
P. Cullinan, A.J. Newman Taylor.
Aetiology of occupational asthma.
Clin Exp Allergy, 27 (1997), pp. 41-46
[12.]
V. Van Kampen, R. Merget, X. Baur.
Occupational airway sensitizers: an overview on the respective literature.
Am J Ind Med, 38 (2000), pp. 164-218
[13.]
C.E. Mapp.
Agents, old and new, causing occupational asthma.
Occup Environ Med, 58 (2001), pp. 354-360
[15.]
Disponible en: www.asmanet.com
[16.]
Disponible en: www.asthme.csst.qc.ca
[17.]
J. Balmes, M. Becklake, P. Blanc, P. Henneberger, K. Kreiss, C.E. Mapp, et al.
American Thoracic Society statement: occupational contribution to the burden of airway disease.
Am J Respir Crit Care Med, 167 (2003), pp. 787-797
[18.]
S.A. Tilles, A. Jerath-Tatum.
Differential diagnosis of occupational asthma.
Immunol Allergy Clin N Am, 23 (2003), pp. 167-176
[19.]
G.R. Contreras, R. Rousseau, M. Chang-Yeung.
Occupational respiratory diseases in British Columbia, Canada in 1991.
Occup Environ Med, 51 (1994), pp. 710-712
[20.]
M.C. Kopferschmitt-Kubler, J. Ameille, E. Popin, A. Calastreng-Crinquand, D. Vervloet, M.C. Bayeux-Dunglas, et al.
Occupational asthma in France: a 1-yr report of the Obsservatoire National de Asthmes Professionels projet.
Eur Respir J, 19 (2002), pp. 84-89
[21.]
X. Muñoz, M.J. Cruz, R. Orriols, C. Bravo, M. Espuga, F. Morell.
Occupational asthma due to persulfate salts. Diagnosis and follow-up.
Chest, 123 (2003), pp. 2124-2129
[22.]
Orriols R, Costa R, Albanell M, Alberti C, Castejón J, Monsó E, et al. Reported occupational respiratory disease in Catalonia. Occup Environ Med. En prensa 2006.
[23.]
S.M. Brooks, M.R. Weiss, I.L. Bernstein.
Reactive airways dysfunction syndrome (RADS): persistent asthma syndrome after high level irritant exposures.
Chest, 88 (1985), pp. 376-384
[24.]
S.M. Tarlo, I. Broder.
Irritant-induced occupational asthma.
Chest, 96 (1989), pp. 297-301
[25.]
E.J. Bardana.
Reactive airway dysfunction syndrome (RADS): fact or fantasy.
Allergy, 54 (1999), pp. 33-35
[26.]
R. Costa, X. Muñoz, B. Avilés, M.E. Drobnic, R. Orriols.
Síndrome de disfunción reactiva de las vías respiratorias. Estudio de 18 casos.
Med Clin (Barc), 11 (2005), pp. 419-426
[27.]
T.D. Matte, R.E. Hoffman, K.D. Rosenman, M. Stanbury.
Surveillance of occupational asthma under the SENSOR model.
Chest, 98 (1990), pp. 173S-178S
[28.]
J.C. McDonald, H.L. Keynes, S.K. Meredith.
Reported incidence of occupational asthma in the United Kingdom 1989-1997.
Occup Environ Med, 57 (2000), pp. 823-829
[30.]
S.K. Meredith, V.M. Taylor, J.C. McDonald, Occupational respiratory disease in the United Kingdom 1989: a report of the British Thoracic Society and the Society of Occupational Medicine by the SWORD project group.
Br J Ind Med, 48 (1991), pp. 292-298
[31.]
K.M. Venables, E.R. Hawkins, R.D. Tee, J.L. Longbottom, A.J. Newman-Taylor.
Smoking, atopy and laboratory animal allergy.
Br J Ind Med, 45 (1988), pp. 667-671
[32.]
J.E. Fish.
Occupational asthma and rhinoconjuntivitis induced by natural rubber latex exposure.
J Allergy Clin Immunol, 110 (2002), pp. 575-581
[33.]
C.E. Mapp, B. Beghe, A. Balboni, G. Zamorani, M. Padoan, L. Jovine, et al.
Association between HLA genes and susceptibility to toluene diisocyanate-induced asthma.
Clin Exp Allergy, 30 (2000), pp. 651-656
[34.]
C. Home, P.J. Quintana, P.A. Keuwn, H. Dimich-Ward, M. Chang- Yeung.
Distribution of DRB1 and DQB1 HLA class alleles in occupational asthma due to western re cedar.
Eur Respir J, 15 (2000), pp. 911-914
[35.]
A.J. Newman-Taylor.
HLA phenotype and exposure in development of occupation asthma.
Ann Allergy Asthma Immunol, 90 (2003), pp. 24-27
[36.]
J. Sastre, O. Vandesplas, H.-S. Park.
Pathogenesis of occupational asthma.
Eur Respir J, 22 (2003), pp. 364-367
[37.]
H. Wan, H.L. Winton, C. Soeller, E.R. Tovey, D.C. Gruenert, P.J. Thompson, et al.
Der p1 facilitates transepithelial allergen delivery by disruption of tight functions.
J Clin Invest, 104 (1999), pp. 123-133
[38.]
R.M. Agius, J. Nee, B. Mc Govern, A. Robertson.
Structure activity hypotheses in occupational asthma caused by low molecular weight substances.
Ann Occup Hyg, 35 (1991), pp. 129-137
[39.]
Newman-Taylor A. Asthma and work: the Colt Lecture, delivered at the Ninth International Symposium on Inhaled Particles, Cambridge, September 2001. Ann Occup Hyg. 2002; 46:563-74.
[40.]
M. Chan-Yeung, J.L. Malo.
Occupational asthma.
N Engl J Med., 333 (1995), pp. 107-112
[41.]
K.M. Venables, M.D. Topping, W. Howe, C.M. Luczynska, R. Hawking, A.J. Newman-Taylor.
Interactions of smoking and atopy in producing specific IgE antibody against a hapten protein conjugate.
BMJ, 290 (1985), pp. 201-204
[42.]
R.E. Biagini, W.J. Moorman, T.R. Lewis, I.L. Bernstein.
Ozone enhancement of platinum asthma in a primate model.
Am Rev Respir Dis, 134 (1986), pp. 719-725
[43.]
H.S. Park, C.S. Hong.
The significance of specific IgG and IgG4 antibodies to a reactive dye in exposed workers.
Clin Exp Allergy, 21 (1991), pp. 357-362
[44.]
P. Maestrelli, M. Saetta, C. Mapp, L.M. Fabri.
Mechanisms of occupational asthma.
Clin Exp Allergy, 27 (1997), pp. 47-54
[45.]
P. Maestrelli, G.F. Del Prete, M. De Carli, M.M. D’Elios, M. Saetta, A. Di Stefano, et al.
CD8 T-cell clones producing interleukin-5 and interferon-gamma in bronchial mucosa of patients with asthma induced by toluene diisocyanate.
Scan J Work Environ Health, 20 (1994), pp. 376-381
[46.]
M. Saetta, A. Di Stefano, P. Maestrelli, N. De Marzo, G.F. Milani, F. Pivirotto, et al.
Airway mucosal inflammation in occupational asthma induced by toluene diisocyanate.
Am Rev Respir Dis, 145 (1992), pp. 160-168
[47.]
A.J. Frew, H. Chan, S. Lam, M. Chan-Yeung.
Bronchial inflammation in asthma due to western red cedar.
Am J Respir Crit Care Med, 151 (1995), pp. 340-344
[48.]
B.W. Day, R. Jin, D.M. Basalyga, J.A. Kramarik, M.H. Karol, et al.
Formation, solvolysis and transcarbamoylation reactions of bil (s-glutathionyl) adducts of 2,4- and 2,6-diisocyanotoluene.
Chem Res Toxicol, 10 (1997), pp. 424-431
[49.]
J. Elms, P.N. Beckett, P. Griffin, A.D. Curran.
Mechanisms of isocyanate sensitization. An in vitro approach.
Toxicol in Vitro, 15 (2001), pp. 631-634
[51.]
P.J. Nicholson, P. Cullinan, A.J. Taylor, P.S. Burge, C. Boyle.
Evidence based guidelines for the prevention, identification and management of occupational asthma.
Occup Environ Med, 62 (2005), pp. 290-299
[52.]
M. Chang-Yeung, J.L. Malo.
Natural history of occupational asthma.
Asthma in the workplace and related disorders, 2nd ed., pp. 129-144
[53.]
J.L. Malo, M. Ghezzo, J. L’Archevêgue, F. Lagier, B. Perrin, A. Cartier.
Is the clinical history a satisfactory mean of diagnosis occupational asthma?.
Am Rev Respir Dis, 143 (1991), pp. 528-532
[54.]
R. Gilbert, J.H. Auchncloss.
Post-test probability of asthma following methacholine challenge.
Chest, 97 (1990), pp. 562-565
[55.]
C.E. Mapp, L. Dal Vecchio, P. Boschetto, N. De Marzo, L.M. Fabbri.
Toluene diisocyanate-induced asthma without airway hyperresponsivenes.
Eur Respir J, 68 (1996), pp. 89-95
[56.]
J. Sastre, M. Fernández-Nieto, A. Novalbos, M. De las Heras, J. Cuesta, S. Quirce.
Need for monitoring nonspecific bronchial hyperresponsiveness before and after isocyanate inhalation challenge.
Chest, 123 (2003), pp. 1276-1279
[57.]
O. Vandenplas, J.P. Delwiche, J. Jamart, R. Van de Weyer.
Increase in nonspecific bronchial hyperresponsiveness as an early marker of bronchial response to occupational agents during inhalation challenges.
Thorax, 51 (1996), pp. 472-478
[58.]
F. Ruëf, P. Thomas, G. Reissig, B. Przybilla.
Natural rubber-latex allergy in patients not intensely exposed.
Allergy, 53 (1998), pp. 445-449
[59.]
R.D. Tee, P. Cullinan, J. Welch, P.S. Burge, A.J. Newman-Taylor.
Specific IgE to isocyanates: a useful diagnostic role in occupational asthma.
J Allergy Clin Immunol, 101 (1998), pp. 709-715
[60.]
S. Burge, G. Moscato, et al.
Physiological assessment: serial measurements of lung function.
Asthma in the workplace, pp. 193-210
[61.]
C. Leroyer, L. Perfetti, C. Trudeau, L’Archevêque, M. Chang-Yeung, J.L. Malo.
Comparison of serial monitoring of peak expiratory flow and FEV1 in the diagnosis of occupational asthma.
Am J Respir Crit Care Med, 158 (1998), pp. 827-832
[62.]
B. Perrin, F. Lagier, J. L’Archeveque, A. Cartier, L.P. Boulet, J. Cote, et al.
Occupational asthma: validity of monitoring of peak expiratory flow rates and non-allergic bronchial responsiveness as compared to specific inhalation challenge.
Eur Respir J, 5 (1992), pp. 40-48
[63.]
W. Anees, P.F. Gannon, V. Huggins, C.F. Pantin, P.S. Burge.
Effect of peak expiratory flow data quantity on diagnostic sensitivity and specificity in occupational asthma.
Eur Respir J, 23 (2004), pp. 730-734
[65.]
A. Cartier, J.L Malo, et al.
Occupational challenge tests.
Asthma in the workplace, pp. 211-233
[66.]
J. Sastre, S. Quirce, A. Novalbos, M. Lluch, C. Bombin, A. Umpierrez.
Occupational asthma induced by cephalosporins.
Eur Respir J, 13 (1999), pp. 1189-1191
[67.]
Y.Y. Hammad, R.J. Rando, H. Abdel-Kader.
Considerations in the design and use of human inhalation challenge delivery systems.
Folia Allergol Immunol Clin, 32 (1985), pp. 37-44
[68.]
O. Vandesplas, J.L. Malo, A. Cartier, G. Perreault, Y. Cloutier.
Closed-circuit methodology for inhalation challenge test with isocianates.
Am Rev Respir Dis, 145 (1992), pp. 582-587
[69.]
R. Orriols, S. Drobnic, X. Muñoz, M.J. Rodrigo, F. Morell.
Asma ocupacional por isocianatos: estudio de 21 pacientes.
Med Clin (Barc), 113 (1999), pp. 659-662
[70.]
A.I. Taivainen, H.O. Tukiainen, E.O. Terho, K.R. Husman.
Powered dust respirator helmets in the prevention of occupational asthma among farmers.
Scand J Work Environ Health, 24 (1998), pp. 503-507
[71.]
Y. Obase, T. Shimoda, K. Mitsuta, H. Matsuse, S. Cono.
Two patients with occupational asthma who returned to work with dust respirators.
Occup Environ Med, 57 (2000), pp. 62-64
[72.]
A. Marabini, A. Siracusa, R. Stopponni, C. Tacconi, G. Abbritti.
Outcome of occupational asthma in patients with continuous exposure: a 3 year longitudinal study during pharmacologic treatment.
Chest, 124 (2003), pp. 2372-2376
[73.]
J.D. Dewitte, M. Chan-Yeung, J.L. Malo.
Medicolegal and compensation aspects of occupational asthma.
Eur Respir J, 7 (1994), pp. 969-980
[74.]
O. Vandesplas, K. Toren, P.D. Blanc.
Health and socioeconomic impact of work-related asthma.
Eur Respir J, 22 (2003), pp. 689-697
[75.]
M. Chan-Yeung.
Assessment of asthma in the workplace. ACCP consensus statement. American College of Chest Physicians.
Chest, 108 (1995), pp. 1084-1117
[76.]
C. Lemière, J.-L. Malo, L. Boulet.
Reactive airways dysfunction syndrome due to chlorine: sequential bronchial biopsies and functional assessment.
Eur Respir J, 10 (1997), pp. 241-244
[77.]
E. Chester, J. Kaimal, C.B. Payne Jr, P.M. Kohn.
Pulmonary injury following exposure to chlorine gas. Possible beneficial effects of steroid treatment.
Chest, 72 (1977), pp. 247-250
[78.]
M. Chan-Yeung, S. Lam, S.M. Kennedy, A. Frew.
Persistent asthma after repeated exposure to high concentrations of gases in pulmills.
Am J Respir Crit Care Med, 149 (1994), pp. 1676-1680
[79.]
L. Bherer, R. Cushman, J.P. Courteau, M. Quevillon, G. Cote, J. Bourbeau, et al.
Survey of construction workers repeatedly exposed to chlorine over a three to six month period in a pulpmill: II. Follow up to affected workers by questionnaire, spirometry, and assessment of bronchial responsiveness 18 to 24 months after exposure ended.
Occup Environ Med, 51 (1994), pp. 225-228
[80.]
D. Gautrin, C. Leroyer, C. Infante-Rivard, H. Ghezzo, J.G. Dufour, D. Girard, et al.
Longitudinal assessment of airway caliber and responsiveness in workers exposed to chlorine.
Am J Respir Crit Care Med, 160 (1999), pp. 1232-1237
[81.]
P.D. Blanc, M. Galbo, P. Hiatt, K.R. Olson.
Morbidity following acute irritant inhalation in a population based study.
JAMA, 266 (1991), pp. 664-669
[83.]
C.A.C. Pickering.
Byssinosis.
Occupational disorders of the lung: recognition, management and prevention, pp. 46-47
[84.]
D. Fishwick, A.M. Fletcher, C.A.C. Pickering, R.M.L. Niven, E.B. Faragher.
Lung function, bronchial reactivity, atopic status and dust exposure in Lancashire mill operatives.
Am Rev Respir Dis, 145 (1992), pp. 1103-1108
[85.]
H.W. Glindmeyer, J.J. Lefante, R.N. Jones, R.J. Rando, H. Weill.
Cotton dust and across-shift change in FEV1, as predictors of annual change in FEV1.
Am J Respir Crit Care Med, 149 (1994), pp. 584-590
[86.]
D.C. Christiani, X.-R. Wang, L.-D. Pan, H.-X. Zhang, B.-X. Sun, H. Dai, et al.
Longitudinal changes in pulmonary function and respiratory symptoms in cotton textile workers. A 15-year follow-up study.
Am J Respir Crit Care Med, 163 (2001), pp. 847-853
[87.]
WHO. Recommended health-based occupational exposure limits for selected vegetables dust. Report of a WHO study group. Technical Report Series 684. Geneva: WHO; 1983.
[88.]
M. Chan-Yeung, D.A. Emerson, S.M. Kennedy.
The impact of grain dust on respiratory health.
Am Rev Respir Dis, 145 (1992), pp. 476-487
[89.]
R. Magarolas, E. Monsó, X. Aguilar, K. Radon, D. Nowak, C. Martínez, et al.
Prevalencia y factores de riesgo de síntomas respiratorios en la agricultura y la ganadería.
Med Clin (Barc), 114 (2000), pp. 685-689
[90.]
C. Borghetti, R. Magarolas, I. Badorrey, K. Radon, J. Morera, E. Monsó.
Sensibilización y asma ocupacional en los avicultores.
Med Clin (Barc), 118 (2002), pp. 251-255
[91.]
W. Eduard, J. Douwes, E. Omenaas, D. Heederick.
Do farming exposures cause or prevent asthma? Results from a study of adult Norwegian farmers.
Thorax, 59 (2004), pp. 381-386
[92.]
V. Soyseth, J. Kongerud, J. Ekstrand, J. Boe.
Relation between exposure to fluoride and bronchial responsiveness in aluminium potroom workers with work-related asthma-like symptoms.
Thorax, 49 (1994), pp. 984-989
[93.]
S.M. Tarlo, K. Leung, I. Broder, F. Silverman, D.L. Holness.
Asthmatic subjects symptomatically worse at work: prevalence and characterization among a general asthma clinic population.
Chest, 118 (2000), pp. 1309-1314
[94.]
P.G. Gibson, M. Fujimura, A. Niimi.
Eosinophilic bronchitis: clinical manifestations and implication for treatment.
Thorax, 57 (2002), pp. 178-182
[95.]
S. Quirce.
Eosinophilic bronchitis in the workplace.
Curr Opin Allergy Clin Immunol, 4 (2004), pp. 87-91
[96.]
S. Quirce, M. Fernández-Nieto, J. De Miguel, J. Sastre.
Chronic cough due to latex-induced eosinophilic bronchitis.
J Allergy Clin Immunol, 108 (2001), pp. 143
[97.]
J.H. Ryu, J.L. Myers, S.J. Swensen.
Bronchiolar disorders.
Am J Respir Crit Care Med, 168 (2003), pp. 1277-1292
[98.]
R. Orriols, C. Bravo.
Bronquiolitis obliterante: dificultades de la definición.
Arch Bronconeumol, 31 (1995), pp. 1-2
[99.]
K. Kreiss, A. Gomaa, G. Kullman, K. Fedan, E.J. Simoes, P.L. Enright.
Clinical bronchiolitis obliterans in workers at a microwavepopcorn plant.
N Engl J Med, 347 (2002), pp. 330-338
[100.]
A.H. Boag, T.V. Colby, A.E. Fraire, C. Kuhn, V.L. Roggli, W.D. Travis.
The pathology of interstitial lung disease in nylon flock workers.
Am J Surg Pathol, 23 (1999), pp. 1539-1545
[101.]
R. Orriols, J.M. Manresa, J.L.L. Aliaga, R. Codina, M.J. Rodrigo, F. Morell.
Mollusk shell hypersensitivity pneumonitis.
Ann Intern Med, 113 (1990), pp. 80-81
[102.]
F. Morell, A. Roger, M.J. Cruz, X. Muñoz, M.J. Rodrigo.
Suberosis. Clinical study and new etiologic agents in a series of eight patients.
Chest, 124 (2003), pp. 1145-1152
[103.]
A.M. Patel, J.H. Ryu, C.E. Reed.
Hypersensitivity pneumonitis: current concepts and future questions.
J Allergy Clin Immunol, 108 (2001), pp. 661-670
[104.]
R. Orriols, J.L.L. Aliaga, J.M. Antó, A. Ferrer, A. Hernández, M.J. Rodrigo, et al.
High prevalence of mollusc shell hypersensitivity pneumonitis in nacre factory workers.
Eur Respir J, 10 (1997), pp. 780-786
[105.]
Y. Lacasse, M. Selman, U. Costabel, J. Dalphin, M. Ando, F. Morell, et al.
Clinical diagnosis of hypersensitivity pneumonitis.
Am J Respir Crit Care Med, 168 (2003), pp. 952-958
[106.]
K.B. Newman, U.G. Mason, K.B. Schmaling.
Clinical features of vocal cord dysfunction.
Am J Respir Crit Care Med, 152 (1995), pp. 1382-1386
[107.]
J.J. Perkner, K.P. Fennelly, R. Balkissoon, B.B. Bartelson, A.J. Ruttenber, R.P. Wood, et al.
Irritant-associated vocal cord dysfunction.
J Occup Environ Med, 40 (1998), pp. 136-143
[108.]
M.R. Cullen.
The worker with multiple chemical sensitivities: an overview.
Occup Med, 2 (1987), pp. 655-661
[109.]
J. Lesage, G. Perrault.
Environmental monitoring of chemical agents.
Asthma in the workplace, pp. 257-277
[110.]
Disponible en: www.mtas.es/insht/mta
[111.]
Disponible en: www.cdc.gov/niosh/nmam/nmammenu.html
[112.]
Disponible en: www.osha.gov/dts/sltc/methods/index.html
[113.]
Instituto Nacional de Seguridad e Higiene en el Trabajo. Límites de exposición profesional para agentes químicos en España. Madrid: Ministerio de Trabajo y Asuntos Sociales. Instituto Nacional de Seguridad e Higiene en el Trabajo; 2003.
[114.]
C.E. Reed, M.C. Swanson, J.T. Li.
Environmental monitoring of protein aeroallergens.
Asthma in the workplace, 2nd ed., pp. 235-255
[115.]
J.A. Price, I. Pollock, S.A. Little, J.L. Longbottom, J.O. Warner.
Measurement of airborne mite antigen in homes of asthmatic children.
Lancet, 336 (1990), pp. 895-897
[116.]
C.M. Luczynska, Y. Li, M.D. Chapman, T.A.E. Platts-Mills.
Airborne concentrations and particle size distribution of allergen derived from domestic cat (Felis domesticus).
Am Rev Resp Dis, 141 (1990), pp. 361-367
[117.]
J.A. Price, J.L. Longbottom.
ELISA method for the measurement of airborne levels of major laboratory animal allergens.
Clin Allergy, 18 (1988), pp. 95-107
[118.]
L. Lillienberg, X. Baur, G. Doekes, L. Belin, M. Raulf-Heimsoth, I. Sander, et al.
Comparison of four methods to assess fungal amylase in flour dust.
Ann Occup Hyg, 44 (2000), pp. 427-433
[119.]
M. Raulf-Heimsoth, I. Sander, Z. Chez, G. Borowitzki, K. Diewald, V. Van Kampen, et al.
Development of a monoclonal antibodybased sandwich ELISA for detection of the latex allergen Hev b 1.
Int Arch Allergy Immunol, 123 (2000), pp. 236-241
[120.]
Zahradnik E, Raulf-Heimsoth M, Brüning T, Doekes G, Sander I. Development of a sandwich enzyme immunoassay for quantification of phytase derived from Aspergillus niger [resumen]. Actas del Exposure Assessment in a Changing Environment Congress; 2004; p. 49. 28-5. Utrecht, The Netherlands, June 2004.
[121.]
J.E. Coligan, A.M. Kruisbeek, D.H. Margulies, E.M. Shevach, W. Strober.
Antibody detection and preparation.
Current protocols in immunology,
[122.]
A. Renström, S. Gordon, A. Hollander, J. Spithoven, P.H. Larsson, K.M. Venables, et al.
Comparison of methods to assess airborne rat and mouse allergen levels II. Factors influencing antigen detection.
Allergy, 54 (1999), pp. 150-157
[123.]
A. Renström, S. Gordon, P.H. Larsson, R.D. Tee, A.J. Newman-Taylor, P. Malmberg.
Comparison of a radioallergosorbent (RAST) inhibition method and a monoclonal enzyme-linked immunosorbent assay (ELISA) for aeroallergen measurement.
Clin Exp Allergy, 27 (1997), pp. 1314-1321
[124.]
M.J. Cruz, M.J. Rodrigo, J.M. Antó, F. Morell.
An amplified ELISAinhibition method for the measurement of airborne soybean allergens.
Int Arch Allergy Clin Immunol, 122 (2000), pp. 42-48
[125.]
T.A. Platts-Mills, R.B. Sporik, L.M. Wheatley, P.W. Heymann.
Is there a dose-response relationship between exposure to indoor allergens and symptoms of asthma?.
J Allergy Clin Immunol, 96 (1995), pp. 435-440
[126.]
X. Baur.
Are we closer to developing threshold limit values for allergens in the workplace?.
Ann Allergy Asthma Immunol, 90 (2003), pp. 11-18
[127.]
E. Pizzichini, M.M. Pizzichini, A. Efthimiadis, S. Evans, M.M. Morris, D. Squillace, et al.
Indices of airway inflammation in induced sputum: reproducibility and validity of cell and fluid-phase measurements.
Am J Resp Crit Care Med, 154 (1996), pp. 308-317
[128.]
C. Lemière, M.M. Pizzichini, R. Balkissoon, L. Clelland, A. Efthimiadis, D. O’Sy, et al.
Diagnosing occupational asthma: use of induced sputum.
Eur Respir J, 13 (1999), pp. 482-488
[129.]
F. Girard, S. Chaboilliez, A. Cartier, J. Coté, F. Hargreave, M. Labrecque, et al.
An effective strategy for diagnosing occupational asthma.
Am J Respir Crit Care Med, 170 (2004), pp. 845-850
[130.]
C. Lemière, S. Chaboilliez, J.L. Malo, A. Cartier.
Changes in sputum cell counts after exposure to occupational agents: What do they mean?.
J Allergy Clin Immunol, 107 (2001), pp. 1063-1068
[131.]
C. Lemière.
Non-invasive assessment of airway inflamation in occupational lung diseases.
Curr Opin Allergy Clin Immunol, 2 (2002), pp. 109-114
[132.]
S. Kharitonov, K. Alving, P.J. Barnes.
Exhaled and nasal nitric oxide measurements: recomendations. The European Respiratory Society Task Force.
Eur Respir J, 10 (1997), pp. 1683-1693
[133.]
American Thoracic Society.
Recommendations for standardized procedures for the online and offline measurement of exhaled lower respiratory nitric oxide and nasal nitric oxide in adults and children.
Am J Respir Crit Care Med, 160 (1999), pp. 2104-2117
[134.]
S. Kharitonov, P.J. Barnes.
Exhaled markers of pulmonary disease.
Am J Respir Crit Care Med, 163 (2001), pp. 1693-1722
[135.]
P. Campo, Z.L. Lummus, D. Bernstein.
Advances in methods used in evaluation of occupational asthma.
Curr Opin Pulm Med, 10 (2004), pp. 142-146
[136.]
P. Montuschi, P. Barnes.
Analysis of exhaled breath condensate for monitoring airway inflammation.
Trends Pharmacol Sci, 23 (2002), pp. 232-237
[137.]
J. Hunt.
Exhaled breath condensate: an envolving tool for noninvasive evaluation of lung disease.
J Allergy Clin Immunol, 110 (2002), pp. 28-34
[138.]
I.L. Bernstein, H. Keskiene, J.-L. Malo.
Medicolegal and compensation aspects.
Ashtma in the workplace, pp. 279-297
[139.]
Disponible en: www.mtas.es/insh/ntp/ntp-327.htm
[140.]
Cuadro de enfermedades profesionales. Real Decreto 1995/1978 del 12 de mayo. BOE núm. 25, de agosto de 1978.
[141.]
Disponible en: www.mcs.es/Diseno/medioAmbient_salud_laboral.htm
[142.]
WHO.
International classification of impairment, disabilities and handicap.
WHO, (1980),
[143.]
WHO. CIDDM-2. Clasificación internacional del funcionamiento de la discapacidad y de la salud. 2001. Disponible en: www.who.ch/icidh
[144.]
Disponible en: www.mtas.es/guia2003/texto/30/30.6.html
[145.]
American Thoracic Society (ATS).
Guidelines for the evaluation of impairment/disability in patients with asthma, 147 (1993), pp. 1056-1061
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