Showing papers by "Gennaro Liccardi published in 2002"

Outdoor air pollution, climatic changes and allergic bronchial asthma

Abstract: Both the prevalence and severity of respiratory allergic diseases such as bronchial asthma have increased in recent years. Among the factors implicated in this "epidemic" are indoor and outdoor airborne pollutants. Urbanisation with its high levels of vehicle emissions and Westernised lifestyle parallels the increase in respiratory allergy in most industrialised countries, and people who live in urban areas tend to be more affected by the disease than those of rural areas. In atopic subjects, exposure to air pollution increases airway responsiveness to aeroallergens. Pollen is a good model with which to study the interrelationship between air pollution and respiratory allergic diseases. Biological aerosols carrying antigenic proteins, such as pollen grains or plant-derived paucimicronic components, can produce allergic symptoms. By adhering to the surface of these airborne allergenic agents, air pollutants could modify their antigenic properties. Several factors influence this interaction, i.e., type of air pollutant, plant species, nutrient balance, climatic factors, degree of airway sensitisation and hyperresponsiveness of exposed subjects. However, the airway mucosal damage and the impaired mucociliary clearance induced by air pollution may facilitate the penetration and the access of inhaled allergens to the cells of the immune system, and so promote airway sensitisation. As a consequence, an enhanced immunoglobulin E-mediated response to aeroallergens and enhanced airway inflammation favoured by air pollution could account for the increasing prevalence of allergic respiratory diseases in urban areas.

Efficacy of dry-cleaning in removing Fel d 1 allergen from wool fabric exposed to cats.

Abstract: Background The main cat allergen (Fel d 1) is ubiquitous, having been found even in indoor environments and public places where a cat has never been kept. Clothes of cat owners constitute a carrier for the distribution of Fel d 1 allergen in these environments. Schools, for example, may be a site of indirect exposure to cat allergens. Objective Our goal was to investigate the efficacy of commercial dry-cleaning in removing cat allergens from wool fabrics that had been exposed to cats to evaluate a possible preventive procedure. Methods Twenty-six identical wool "squares" (80 × 100 cm) were put in cat baskets for 1 week. In our laboratory, the squares were cut in half (40 × 50 cm), and one half was subjected to high-volume sampling for 5 minutes in a cat-free room. The other half was subjected to commercial dry-cleaning and then the high-volume sampling. Five wool squares not exposed to cats served as controls. Dust was collected from the wool squares with a high-volume air sampler. Particulate material was harvested onto glass fiber filters (AP 20 Millipore, Milan, Italy) with 25-mm diameter and 2-μm pore size. Each dust sample was assayed by affinity-purified monoclonal antibody against purified Fel d 1. The results were expressed as micrograms per filter. Statistical analysis was done by using the paired t test. Results Before dry-cleaning, Fel d 1 allergen was detected on all cat-exposed wool squares. No appreciable cat allergen was detected on control materials. After commercial dry-cleaning, the amounts of Fel d 1 extracted from cat-exposed squares were significantly reduced ( t = 14.63; P Conclusions Commercial dry-cleaning effectively removes large amounts of cat allergen from wool materials exposed to cats but does not completely abolish this protein. Further, low Fel d 1 contamination may occur during this procedure.

A multicenter evaluation of the CARLA system for the measurement of specific IgE antibodies vs. other different methods and skin prick tests.

Abstract: The evaluation of specific IgE by using appropriate immunoassays represents a useful alternative diagnostic procedure where skin prick tests (SPTs) are not conclusive in clarifying the etiological role of suspected allergens. This study compares the results of the evaluation of specific IgE by using the CARLA system vs. other commercially available immunoassays (CAP system, Ala-STAT Medical system, ALLERgen IFCI Clone System) carried out on the same blood samples obtained from allergic/SPTs negative patients and vs. SPTs. We evaluated serum specific IgE produced against five selected allergens (Dermatophagoides pteronyssinus, Olea europaea, Parietaria judaica, Lolium perenne and Phleum pratense) by using these immunoassays and the correlations between the results of SPTs and IgE evaluations. We demonstrated a good correlation between these last parameters including a high degree of sensitivity and specificity. The reproducibility of the CARLA system was very high by comparing the results obtained by two different laboratories. The results of the CARLA system were well correlated to those of other well-known immunoassays such as CAP system and Ala STAT system. In conclusion, the CARLA system represents an efficient and reliable immunoassay for the evaluation of serum specific IgE.