Are outcome measures in allergic diseases relevant for the WHO's International Classification of Diseases in allergology?

PURPOSE OF REVIEW: To review and understand the impact of the outcome measures of allergic and hypersensitivity conditions for the WHO's International Classification of Diseases (ICD) and its impact in the management of anaphylaxis and identify potential strategies to improve patients' care and prevention. RECENT FINDINGS: The pioneer chapter addressed to allergic and hypersensitivity conditions in the 11th version of the WHO's ICD is the result of the evidence-based academic technical actions consistently following of collaborations of the allergy community and integrated international initiatives in order to reach quality outcomes measures of allergies worldwide. SUMMARY: Allergic and hypersensitivity conditions are increasing worldwide, however, they have never been well represented in the international classification systems, such as the ICD. The ALLERGY in ICD-11 initiative has been launched in 2012 in order to gather a better representation of these conditions in the ICD-11. As a result of the evidence-based academic technical actions acknowledged by the Joint Allergy Academies and the WHO, the pioneer chapter Allergy and hypersensitivity conditions has been constructed. This framework can be considered a milestone in the history of the allergy specialty. More reliable, accurate and comparable epidemiological data will be able to provide a big picture of these conditions and will support improvements in many levels of the health system. As knowledge derived from populations is key information for more realistic decision-making, the construction of the new section addressed to allergic and hypersensitivity conditions in the ICD-11 will allow the collection of more accurate epidemiological data to support quality management of patients, and better facilitate healthcare planning to implement public health measures to prevent and reduce the morbidity and mortality attributable to these conditions.

Developments in the field of allergy in 2017 through the eyes of Clinical and Experimental Allergy.

In this article, we described the development in the field of allergy as described by Clinical and Experimental Allergy in 2017. Experimental models of allergic disease, basic mechanisms, clinical mechanisms, allergens, asthma and rhinitis and clinical allergy are all covered.

Historical links between toxinology and immunology.

Research on bacterial toxins is closely linked to the birth of immunology. Our understanding of the interaction of bacterial protein toxins with immune cells has helped to decipher immunopathology, develop preventive and curative treatments for infections, and propose anti-cancer immunotherapies. The link started when Behring and Kitasato demonstrated that serotherapy was effective against 'the strangling angel', namely diphtheria, and its dreadful toxin discovered by Roux and Yersin. The antitoxin treatment helped to save thousands of children. Glenny demonstrated the efficacy of the secondary immune response compared to the primary one. Ramon described anatoxins that allowed the elaboration of effective vaccines and discovered the use of adjuvant to boost the antibody response. Similar approaches were later made for the tetanus toxin. Studying antitoxin antibodies Ehrlich demonstrated, for the first time, the transfer of immunity from mother to newborns. In 1989 Marrack and Kappler coined the concept of 'superantigens' to characterize protein toxins that induce T-lymphocyte proliferation, and cytokine release by both T-lymphocytes and antigen presenting cells. More recently, immunotoxins have been designed to kill cancer cells targeted by either specific antibodies or cytokines. Finally, the action of IgE antibodies against toxins may explain their persistence through evolution despite their side effect in allergy.

The Way We Walked with Immunology.

It has been a little more than 50 years since we discovered IgE, a key molecule for the allergic response and a target for treating allergies and severe asthma. Here, I trace my career, from the kindling of my interest in immunochemistry to groundbreaking discoveries in the biology and chemistry of immunoglobulins. I describe my service to the broader community of immunologists and my role in shaping departments and research institutes. My course starts in Japan and includes Southern California, Baltimore, and Denver.

Clemens von Pirquet: A Remarkable Life and Career.

From 1908 to 1929, Clemens von Pirquet was one of the world's most acclaimed pediatricians. Von Pirquet (1874-1929) trained at Vienna's Universitäts Kinderklinic under Theodor Escherich, the first Pediatric Infectious Diseases physician [1], and became the first Professor and Chair of Pediatrics at Johns Hopkins in 1909. He then succeeded his mentor Escherich as Professor and Chair of Pediatrics in Vienna, the most prestigious European pediatric position, when Escherich died unexpectedly in 1911. He held that position in Vienna until his shocking double suicide at age 54 with his wife in 1929. Von Pirquet's pioneering contributions from 1903 to 1910 related to host reactions to foreign substances, providing much of the foundation for modern "Immunology". In 1905, he and his student Bela Schick described and named "serum sickness" in children administered animal antiserum. He recognized that animal antiserum resulted in both protection against an infection but also sensitization (sometimes with serious or fatal consequences), ie, that immune responses caused some diseases. In 1906, he proposed the term "allergy" for the altered reactivity induced by what he termed an "allergen", a foreign substance. He recognized that sensitization to an allergen leads to accelerated responses on subsequent allergen administration, analogous to differences between primary and subsequent smallpox vaccine responses. In 1908, von Pirquet presented his invention, the "tuberculin skin test", recognizing its ability to identify individuals with previous tuberculosis infection, then the most prevalent infectious disease. This led to the new understanding that many or most tuberculosis-infected individuals are asymptomatic but at risk for future active disease, introducing the concept of "latent tuberculosis". Von Pirquet was a consummate pediatrician-scientist, translating scientific discoveries directly into improved care of children, and he also pioneered study of the social, nutritional, and public health aspects of pediatrics, especially during and after World War I.

Hospitalizations due to allergic reactions in Finnish and Swedish children during 1999-2011.

BACKGROUND: Several authors have reported on allergic reactions that resulted in presentation to the emergency department. However, studies of the secular trend of hospitalizations for paediatric allergic reactions, including anaphylaxis, are scarce. The aim of this study was to describe the secular trends of hospitalizations for allergic reactions, including anaphylaxis, among children aged 0-19 years in Finland and Sweden, and to establish the trend of prescribed epinephrine auto-injectors (EAI) among paediatric populations. METHODS: Using national databases, we identified hospitalizations between 1999 and 2011 with the primary diagnosis of allergic reaction per International Classification of Diseases, 10th Revision. RESULTS: Hospitalizations for allergic reactions totalled 1987 in Finland and 5433 in Sweden. Incidence rates increased in both countries. In Finland, the incidence of admission was 7.8 per 100 000 person-years at the start of the study period and 15.8 at the end of the study period. The corresponding numbers among Swedish children were 13.7 and 31.8 per 100 000 person-years. In Finland, 60% of children hospitalized were aged under 10 years. In Sweden, this proportion was somewhat lower, at 48%. Most hospitalizations occurred between May and September. The prevalence of EAI prescriptions in Finland increased by fourfold during the study period. In Sweden, such an increase was not identified. CONCLUSIONS: The incidence of allergic reactions leading to hospitalizations between 1999 and 2011 increased in Finland and Sweden among children aged 0 to 19 years. In Finland, the incidence was lower throughout the study period compared to Sweden. Younger children constituted the majority of hospitalized children.

[Short history of laboratory diagnostics of allergy in Hungary, current possibilities and future perspectives]. / Az allergia laboratóriumi diagnosztikájának rövid hazai története, a jelen lehetoségei és a jövo perspektívája.

Up to know the indications for the optimal applications of laboratory diagnosis of allergic diseases have become widely known. Measurements of allergy specific IgE and various tests of cell mediated immunity are included in the practice. It can be stated that measurements of total serum IgE and allergen specific IgE (kU/l and RAST classes) can be maintained further in the Hungarian practice with the expected continuous participation of all laboratories in the external quality control program (QualiCont). However, it is also apparent that regional introduction of the urgent "molecular (component) based allergy diagnostics" has become necessary for efficient allergen specific immunotherapy in Hungary. In cases of the allergen specific cell mediated immunologic reactions, allergen induced cell proliferation and cytokine release measurements are recommended. However, it is also obvious that application of these measurements in clinical practice need correct financial support from health care authorities.

The allergy epidemics: 1870-2010.

Before the first description of hay fever in 1870, there was very little awareness of allergic disease, which is actually similar to the situation in prehygiene villages in Africa today. The best explanation for the appearance and subsequent increase in hay fever at that time is the combination of hygiene and increased pollen secondary to changes in agriculture. However, it is important to remember that the major changes in hygiene in Northern Europe and the United States were complete by 1920. Asthma in children did not start to increase until 1960, but by 1990, it had clearly increased to epidemic numbers in all countries where children had adopted an indoor lifestyle. There are many features of the move indoors that could have played a role; these include increased sensitization to indoor allergens, diet, and decreased physical activity, as well as the effects of prolonged periods of shallow breathing. Since 1990, there has been a remarkable increase in food allergy, which has now reached epidemic numbers. Peanut has played a major role in the food epidemic, and there is increasing evidence that sensitization to peanut can occur through the skin. This suggests the possibility that changes in lifestyle in the last 20 years could have influenced the permeability of the skin. Overall, the important conclusion is that sequential changes in lifestyle have led to increases in different forms of allergic disease. Equally, it is clear that the consequences of hygiene, indoor entertainment, and changes in diet or physical activity have never been predicted.