Particular characteristics of atopic eczema in tropical environments. The Tropical Environment Control for Chronic Eczema and Molecular Assessment (TECCEMA) cohort study*

Sánchez, Jorge; Sánchez, Andrés; Cardona, Ricardo

doi:10.1590/abd1806-4841.20175140

Abstract:

Background:

Atopic dermatitis is a prevalent health problem in the world. Allergic sensitization is an important risk factor, but the roles of other factors, inherent in tropic region, are unknown.

Objective:

A cohort study was designed in a tropical city to investigate molecular and environmental risk factors for eczema, considering as particular features perennial exposure to mites, poor living conditions and others tropical characteristics.

Methods:

433 patients were included at baseline and biological samples were collected during 24 months of follow-up. Clinical information was collected using questionnaires (SCORAD, DLQI and a subjective scale) during each clinical assessment.

Results:

The prevalence of atopic eczema was 93%, with similar frequency between children and adults; parents history of eczema and polysensitization to mites, dogs, cats, cockroaches and birds, were risk factors for severe and persistent eczema and allergic comorbidities. Food sensitization was present in 16% of patients but food-induced allergies were scarce. Psychiatric, dental and ocular disorders were the most frequent non-allergic comorbidities.

Study limitations:

selection bias.

Conclusion:

We presented a tropical cohort of patients with eczema and we identified some risk factors for severe and persistent dermatitis. Some patterns of sensitization were associated with severe eczema and respiratory symptoms, and the natural history of "atopic march" is different to that described in some industrialized countries. The collection of biological samples will contribute to the understanding of the gene/environment interactions leading to allergy inception and evolution.

Keywords:
Allergy and immunology; Dermatitis, atopic; Eczema; Hypersensitivity; Tropical medicine

INTRODUCTION

Atopic dermatitis or allergic eczema is a chronic disease that can be severe and lead to a significant deterioration in the quality of life. In severe cases, it may have even greater psychosocial impact than other chronic diseases such as diabetes mellitus or myocardial infarction.¹1 Genuneit J, Braig S, Brandt S, Wabitsch M, Florath I, Brenner H, et al. Infant atopic eczema and subsequent attention-deficit/hyperactivity disorder--a prospective birth cohort study. Pediatr Allergy Immunol. 2014;25:51-6.^,²2 Simpson EL. Comorbidity in Atopic Dermatitis. Curr Dermatol Rep. 2012;1:29-38.

Some European and North American studies suggest that this disease usually begins before the age of two but can occur at any time of life and although in most patients it usually disappears before puberty it may extend into adulthood.³3 Sánchez J, Páez B, Macías A, Olmos C, de Falco A. Atopic dermatitis guideline. Position paper from the Latin American Society of Allergy, Asthma and Immunology. Rev Alerg Mex. 2014;61:178-211.

4 Ring J, Alomar A, Bieber T, Deleuran M, Fink-Wagner A, Gelmetti C, et al. Guidelines for treatment of atopic eczema (atopic dermatitis) part I. J Eur Acad Dermatol Venereol. 2012;26:1045-60.^-⁵5 Darsow U, Wollenberg A, Simon D, Taïeb A, Werfel T, Oranje A, et al. ETFAD/EADV eczema task force 2009 position paper on diagnosis and treatment of atopic dermatitis. J Eur Acad Dermatol Venereol. 2010;24:317-28. There are few Latin American cohort studies focused on allergic diseases,⁶6 Lopez N, de Barros-Mazon S, Vilela MM, Condino Neto A, Ribeiro JD. Are immunoglobulin E levels associated with early wheezing? A prospective study in Brazilian infants. Eur Respir J. 2002;20:640-5.

7 Rullo VE, Arruda LK, Cardoso MR, Valente V, Zampolo AS, Nóbrega F, et al. Respiratory infection, exposure to mouse allergen and breastfeeding: role in recurrent wheezing in early life. Int Arch Allergy Immunol. 2009;150:172-8.

8 Cooper PJ, Chico ME, Guadalupe I, Sandoval CA, Mitre E, Platts-Mills TA, et al. Impact of early life exposures to geohelminth infections on the development of vaccine immunity, allergic sensitization, and allergic inflammatory diseases in children living in tropical Ecuador: the ECUAVIDA birth cohort study. BMC Infect Dis. 2011;11:184.^-⁹9 Acevedo N, Sánchez J, Zakzuk J, Bornacelly A, Quiróz C, Alvarez Á, et al. Particular characteristics of allergic symptoms in tropical environments: follow up to 24 months in the FRAAT birth cohort study. BMC Pulm Med. 2012;12:13. and most of them are directed to respiratory disorders. The ISAAC study suggests that in children of 6 years of age, the prevalence of clinical history of dermatitis in most Latin-American countries is over 20%.¹⁰10 Solé D, Mallol J, Wandalsen GF, Aguirre V; Latin American ISAAC Phase 3 Study Group. Prevalence of symptoms of eczema in Latin America: results of the International Study of Asthma and Allergies in Childhood (ISAAC) Phase 3. J Investig Allergol Clin Immunol. 2010;20:311-23. Nevertheless, during a follow-up of 24 months in a birth cohort with 326 subjects in Colombia, no case of eczema was observed, suggesting that the onset of dermatitis is later (>3 years) in contrast to the most frequently age onset reported in Europe and USA.⁹9 Acevedo N, Sánchez J, Zakzuk J, Bornacelly A, Quiróz C, Alvarez Á, et al. Particular characteristics of allergic symptoms in tropical environments: follow up to 24 months in the FRAAT birth cohort study. BMC Pulm Med. 2012;12:13.

Latin America tropical region has a warm and humid environment, which facilitates the growth of a diverse fauna and flora, as well as the perennial exposure to high concentrations of different allergens.¹¹11 Sánchez J, Diez S, Cardona R. Frequency of sensitization to animals in a tropical area. Rev Alerg Mex. 2014;61:81-9.

12 Sánchez J, Sánchez A. Epidemiology of food allergy in Latin America. Allergol Immunopathol (Madr). 2015;43:185-95.^-¹³13 Sanchez J, Diez S, Cardona R. Sensibilización a aeroalergenos en pacientes alérgicos de Medellín. Rev Alerg Mex. 2012;59:139-47. Mites are the main source of sensitization in the tropics but other factors specific to each region, such as poverty, genetic ancestry, high helminth parasite infestation and diversity of flora, may have a protective or a risk role for the development of allergic diseases. Interestingly, anticipated protective factors, such as low hygienic conditions, do not confer protection in poor and overcrowded communities in Latin America tropical region, where a high prevalence of allergic diseases and early infections occur.⁹9 Acevedo N, Sánchez J, Zakzuk J, Bornacelly A, Quiróz C, Alvarez Á, et al. Particular characteristics of allergic symptoms in tropical environments: follow up to 24 months in the FRAAT birth cohort study. BMC Pulm Med. 2012;12:13.^,¹⁴14 Dennis RJ, Caraballo L, García E, Rojas MX, Rondon MA, Pérez A, et al. Prevalence of asthma and other allergic conditions in Colombia 2009-2010: a cross-sectional study. BMC Pulm Med. 2012;12:17. This and other results suggest that the concept of "atopic march" and the "hygiene hypothesis" must also be interpreted in a particular way in tropical regions.

OBJECTIVE

In this article, we present the TECCEMA cohort (Tropical Environment Control for Chronic Eczema and Molecular Assessment), and we describe the study protocol, baseline characteristics, demographical observations and risk factors identified for severe eczema. The aims of this cohort are: 1. To create a tropical urban prospective cohort to analyze the effects of allergen sensitization and tropical environment conditions on eczema; 2. To prospectively collect biological samples of patients living in poor neighborhoods of a tropical city for further immunological analysis.

METHODS

Location and study population

The Ethics Committee of the University of Antioquia (Medellín-Colombia) approved this study. This study was based in a community cohort population conformed in a tropical environment for a prospective follow-up and collection of epidemiological data and biological samples. Medellín is the principal city in Aburra Valley; it is a tropical city from Colombia (6° 14' 41" North, 75° 34' 29 " West) with a mean annual temperature of 22°C and 66% of relative humidity. Forty percent of patients enrolled in the cohort are poor according to governmental indexes that assess type of housing, overcrowding (three or more people per bedroom), access to basic services, income (minimal wage of 250 dollars per month) and school attendance. All study participants shared environmental conditions. The genetic background of this population resulted from racial admixture between Native Americans, Spaniards, and at lower rate (<10.9%) of African ancestry. ¹⁵15 Ruiz-Linares A, Adhikari K, Acuña-Alonzo V, Quinto-Sanchez M, Jaramillo C, Arias W, et al. Admixture in Latin America: geographic structure, phenotypic diversity and self-perception of ancestry based on 7,342 individuals. PLoS Genet. 2014;10:e1004572.^,¹⁶16 Wang S, Ray N, Rojas W, Parra MV, Bedoya G, Gallo C, et al. Geographic patterns of genome admixture in Latin American Mestizos. PLoS Genet. 2008;4:e1000037.

Study design

The study design is depicted in figure 1. The recruitment methodology was by public announcement: patients with diagnosis of dermatitis/eczema (the terms dermatitis and eczema are treated interchangeably in this article) attending different public and private health centers were screened between December 2011 and December 2013. During the first visit, dermatitis was diagnosed when all the following criteria were present: ¹⁷17 Hanifin JM. Diagnostic criteria for atopic dermatitis: consider the context. Arch Dermatol. 1999;135:1551. (1) evidence of itchy skin/pruritus, (2) visible eczema, (3) typical morphology and distribution including facial, neck and extensor involvement and (4) dry skin. Considering that in this community other causes of "itchy skin" are common (scabies, insect stings, helminth induced rashes, etc.), we included only patients older than 2 years of age, with clinical history of eczema for more than 1 year and SCORAD over 8 points; for the same reason the diagnosis always included medical examination by specialist (dermatologist or allergist). During follow-up, biological samples were recollected in different points (Figure 1).

Figure 1
Flowchat

Flowchart. TECCEMA: Tropical Environmental Control for Chronic Eczema and Molecular Assessment. SCORAD: Scoring Atopic Dermatitis, SS: Subjective Score, DLQI: Dermatology Life Quality Index.

Assessment of clinical outcomes

Severity was assessed with SCORAD (Scoring Atopic Dermatitis) scale at baseline and during follow-up. Dermatitis was ranked as severe (>40 points), moderate (16 to 39), or mild (<15). Among the quality of life questionnaires, DLQI (Dermatology Life Quality Index) was selected since it was previously validated in Colombia. ¹²12 Sánchez J, Sánchez A. Epidemiology of food allergy in Latin America. Allergol Immunopathol (Madr). 2015;43:185-95. Copyright statement of DLQI described on the website (www.dermatology.org.uk) was fulfilled. Additionally, each patient or their parents answered a subjective evaluation consisting of 3 questions (each question ranked from 0 [mild] to 10 [severe]) assessing general severity perception of pruritus, eczema and social impact (Subjective Score SS); ¹⁸18 Sánchez Caraballo JM, Cardona Villa R. Clinical and immunological changes of immunotherapy in patients with atopic dermatitis: randomized controlled trial. ISRN Allergy. 2012;2012:183983. the mean score of the three questions was expressed as percentage. We considered that the patient had "complete control" when SS was <20%; "partial control" when score was from 21% to 60%; and "no control" when SS was >61%. SCORAD, DLQI and SS were repeated during the follow-up.

Skin sensitization

The skin prick test (SPT) was employed using histamine solution and allergen extracts according to GA2LEN recommendations. ¹⁹19 Heinzerling LM, Burbach GJ, Edenharter G, Bachert C, Bindslev-Jensen C, Bonini S, et al. GA(2)LEN skin test study I: GA(2)LEN harmonization of skin prick testing: novel sensitization patterns for inhalant allergens in Europe. Allergy. 2009;64:1498-506. The panel of extracts used was: mites (Dermatophagoides pteronyssinus [Der p], Dermatophagoides farinae [Der p] and Blomia tropicalis [Blo t]), pet's dander (cat and dog), textile fibers (cotton and wool), fungi (Asperllilus fumigatus, Cladosporium herbarum, Alternaria alternata), excrement and feathers from canary, dove and parakeet, insects (Periplaneta americana, Culex pipenis, and Solenopsis invicta), pollen (group herbs, cereals, flowers, grasses, and trees), shrimp, egg (whole egg, egg white, egg yolk, ovomucoid [Gal d 1] and ovalbumin [Gal d 2]), and milk (casein and total milk). Biological extracts were provided by Laboratories Leti or Inmunotek (Madrid, Spain). Prick to prick was made for foods extract. When an additional allergen was suspected, it was also included in the panel.

Single-Blind Placebo-Controlled Food Challenge (SBPCFC)

SBPCFC was conducted in patients with a strong clinical suspected of food allergy and/or with positive prick test for food allergy according to international recommendations. ²⁰20 Sampson HA, Gerth van Wijk R, Bindslev-Jensen C, Sicherer S, Teuber SS, Burks AW, et al. Standardizing double-blind, placebo-controlled oral food challenges: American Academy of Allergy, Asthma & Immunology-European Academy of Allergy and Clinical Immunology PRACTALL consensus report. J Allergy Clin Immunol. 2012;130:1260-74.

Biological samples

In patients given permission, multiple blood samples and DNA samples were obtained by venipuncture during the follow-up (Figure 1) and these samples were kept in the clinical laboratory of the institution for further analysis. Among the serological test are: Total IgE, specific IgE, specific IgG and specific IgG4 to Dermatophagoides pteronyssinus, Dermatophagoides farinae, Blomia tropicalis, egg and cow´s milk.

Total IgE and specific IgE were measured using a flouroenzyme immunoassay (Phadia ImmunoCap System, Uppsala, Sweden). Sera yielding specific IgE levels above 100 IU/mL were preliminarily diluted (1:5) to maintain the test within the dynamic range. Specific IgG and IgG4 were measured using ELISA technique as we describe before; 18) IgG measures were expressed in Optical Density, and IgG4 in micrograms. Briefly, microtiter plates coated with allergic extract were blocked with bovine serum albumin and then incubated with serum samples from atopic dermatitis patients. Monoclonal antibodies against IgG4 were added followed by biotinylated rabbit anti-mouse antibody and horseradish peroxidase-conjugated streptavidin. Tetramethyl benzidine (TMB) was used as substrate.

Data analysis

Information from interviews was recorded on paper forms, reviewed for accuracy and completeness, and then entered into the database. Statistical analyses were performed using SPSS 21 (Chicago, IL, USA). Frequencies and descriptive statistics were calculated at baseline, and each 3 to 6 months during follow-up. Chi-square was used to analyze the differences between proportions. For contingency tables with less than 10 cases in any cell, the Fisher's exact test was used. To analyze which factors were related to the severity of eczema, multivariate analyses were performed with children having complete exposures data at baseline (visit #1), at 3 to 6 months (visit #2), at 9 to 12 months (visit #3), and at 19 to 24 months (visit #4). Crude odds ratios (OR) and 95% confidence interval (CI) were calculated. For risk factors having a significance level p ≤0.05, adjusted odds ratios (aORs) and 95% CI were obtained using binary logistic and multinomial logistic regression. Covariates were introduced in the final model if their inclusion changed the estimate of the crude OR by more than 10% (gender, eczema age of onset and number of siblings). The main outcome (dependent) variables were severity of eczema (according to SCORAD), persistent eczema defined as eczema for more than 2 years with reduction from the baseline SCORAD of less than 30%, and severe comorbidities (for example, keratoconjunctivitis and severe asthma according to NIH classification). Correlations were evaluated with Spearman test.

RESULTS

Demographic characteristics

From 568 patients who were screened, 433 were included in the TECCEMA cohort (mean age 8 years; range 3 to 49 years); 225 were women (52%) and 368 completed the follow-up (84%) (Figure 1). Reasons for not being included in the TECCEMA cohort were: living out of Aburra Valley (n=65), loss of contact (n=24), incomplete clinical record (n=30), family refusal (n=16). Most families who did not finish the follow-up (n= 65) were lost in the first year (n=40). The sociodemographic characteristics of the excluded patients were similar to those that continued in the study. Antecedents of allergic diseases were similar between excluded and non-excluded patients and did not influence the willingness to participate. All patients had similar environmental and living conditions.

Eczema characteristics

As confirmed by questionnaires and medical records, the beginning of eczema in 47% of patients was between 0 and 2 years of age, 37% between 3 and 5 years, and 16% over 5 years. The initial SCORAD was mild in 23% of patients, moderate in 49% and severe in 27% (Table 1). 94% patients had persistent symptoms (at least one day per week). The main trigger factor identified by patients and relatives was hot weather and sweating (89%), followed by foods (33%), pets' dander (22%), and some cosmetic creams (18%).

Thumbnail

Table 1
Baseline characteristics in all patients and according to SCORAD severity. SCORAD: Scoring Atopic Dermatitis, SS: Subjective Score

Skin reactivity

The study showed that 411 (94%) patients were sensitized to some biological extract (Table 1). After mites (93%), pets' dander was the main source of sensitization (43%), followed by foods (16%). Also, 277 (64%) patients were sensitized to at least two different biological extracts.

SBPCFC

At the beginning of the study, 143 (33%) patients had a self-reported adverse reaction after eating some food but in 104 cases, the clinical history was not clear and had a negative skin test and/or specific IgE, so they were dismissed as food allergy reaction. In patients with a clinical history strong suggestive of food allergy, we proposed an oral food challenge with a follow-up for 10 days, and 24 patients accepted. Using the protocol proposed by Sampson et al., ²⁰20 Sampson HA, Gerth van Wijk R, Bindslev-Jensen C, Sicherer S, Teuber SS, Burks AW, et al. Standardizing double-blind, placebo-controlled oral food challenges: American Academy of Allergy, Asthma & Immunology-European Academy of Allergy and Clinical Immunology PRACTALL consensus report. J Allergy Clin Immunol. 2012;130:1260-74. 8 patients were positive (soy=2, milk=1, egg=1, shrimp=3, pineapple=1).

Serological samples

A total of 217 blood samples were taken during the baseline and we collected a total of 436 blood and DNA samples during follow-up for future analysis (Figure 1). In figure 2, we present the measure of the baseline samples for some immunological analysis. We observed that total IgE increased according to the severity of SCORAD but it was no statistically significant (R=0,225; p=0,06). Patients with severe SCORAD had higher specific IgE to Der p and Der f than the others groups (p=0,02). There were no significant differences in specific IgG and IgG4 among SCORAD groups.

Figure 2
Immunological Analysis

A) Total IgE Mean [Percentile 25-75]; mild SCORAD 337IU [23-454]; Moderate 578IU [71-735]; Severe 872IU [872]. B) Specific IgE for Blo t (Mild 55 [52-62]; Moderate 59 [55-70]; Severe 60 [56-80]), Der p (Mild 96 [61-151]; Moderate 69 [56-143]; Severe 139 [84-163]) and Der f (Mild 86 [61-150]; Moderate 69 [56-143]; Severe 139 [86-151]). C) Specific IgG for Blo t (Mild 0,42 [0,40-0,76]; Moderate 0,43 [0,40-0,52]; Severe 0,45 [0,43-0,49]), Der p (Mild 0,50 [0,47-0,79]; Moderate 0,47 [0,44-0,52]; Severe 0,47 [0,44-0,62]) and Der f (Mild 0,52 [0,46-0,70]; Moderate 0,46 [0,44-0,64]; Severe 0,46 [0,43-0,69]). D) Specific IgG4 for Blo t (Mild 0,43 [0,41-0,43]; Moderate 0,44 [0,43-0,49]; Severe 0,46 [0,44-0,49]), Der p (Mild 0,46 [0,43-0,48]; Moderate 0,46 [0,43-0,53]; Severe 0,52 [0,46-0,54]) and Der f (Mild 0,45 [0,44-0,54]; Moderate 0,47 [0,43-0,52]; Severe 0,50 [0,46-0,53]).

Comorbidities

During the follow-up, ocular and respiratory diseases were the most common allergic comorbidities diagnosed by physicians (conjunctivitis [88%], asthma [48%] and rhinitis [85%]). Psychological disorders were evaluated in 234 patients by a psychologist or a psychiatrist. A total of 113 patients (48%) had a psychological disorder (63 had two or more); 83 (35%) had attention deficit disorder and/or hyperactivity. Also, 93 (39%) presented mood disorders such as depression, being 56 of them severe (severe depression or bipolar disorders). 17% of patients had some odontological disease. Severe asthma (p=0,03), keratoconjunctivitis (p=0,02), psychological (p=0,04) and dental problems (p=0,04) were more prevalent among patients with severe eczema (Table 1). Furthermore, 36% patients reported gastritis.

Risk factors for severe eczema

We analyzed the effects of sociodemographic characteristics and environmental exposures on the risk for three variables: severe eczema, persistent eczema and severe comorbidities (severe asthma and keratoconjuntivitis) (Table 2). Maternal eczema was the most important predictor of severe eczema.

Thumbnail

Table 2
Confidence interval 95%. Adjusted by gender, eczema age of onset and number of siblings

Taking into consideration that more than 90% of the population was sensitized to HDM we could not evaluated if HDM sensitization was a risk factor for severity but as we said before patients with severe eczema had higher specific IgE levels to mites (Figure 2b). For the other allergen sources we did not observed that mono-sensitization were a risk factor for severe eczema, persistent eczema or comorbidities. However, polysensitization to HDM, fungus, dogs, birds and cockroaches were a risk factor for severe eczema, persistent eczema and severe respiratory symptoms. When cat sensitization was included in this model, the risk of severe and persistent eczema increased, but for comorbidities it was not modified (Table 2).

No association was found between eczema and some conditions considered protective or risk factor, such as socioeconomic stratum, cigarette smoking and coexistence with pets. In addition, we did not observe that food sensitization, gender, parents' history of asthma, maternal age at childbirth were risk factors for persistent eczema or comorbidities (Figure 3).

Figure 3
Genetic and environmental factors in tropical environments and its association with eczema

Summary. Summary. We identify similar risk factors (Green charts) for severe and persistent eczema. Genetic background was a higher risk for “severity” and environment for “persistence”. Other factors previously recognized in other studies with risk or protective effect (blue charts) were not found relevant for severe or persistent eczema but laboratory tests with samples from different time-points and clinical follow-up will help to assess genetic and molecular factors linked to dermatitis development, providing novel information about disease mechanisms in the tropics (blue charts).

STUDY LIMITATIONS

Study limitations: selection bias.

DISCUSSION

Cohort studies in different environments and populations are useful to understand the natural history of dermatitis; nevertheless, most of them come from Europe and USA.²¹21 Vrijheid M, Casas M, Bergström A, Carmichael A, Cordier S, Eggesbø M, et al. European birth cohorts for environmental health research. Environ Health Perspect. 2012;120:29-37.

22 Wei CC, Lin CL, Shen TC, Kao CH. Neonatal jaundice and risks of childhood allergic diseases: a population-based cohort study. Pediatr Res. 2015 Aug;78(2):223-30.

23 Mortz CG, Andersen KE, Dellgren C, Barington T, Bindslev-Jensen C. Atopic dermatitis from adolescence to adulthood in the TOACS cohort: prevalence, persistence and comorbidities. Allergy. 2015;70:836-45.^-²⁴24 Loo EX, Shek LP, Goh A, Teoh OH, Chan YH, Soh SE, et al. Atopic Dermatitis in Early Life: Evidence for at Least Three Phenotypes? Results from the GUSTO Study. Int Arch Allergy Immunol. 2015;166:273-9. These cohorts have shown the importance of particular risk factors and their influence in dermatitis, supporting the relevance of conducting this type of investigation worldwide. The prevalence of dermatitis varies among regions¹⁰10 Solé D, Mallol J, Wandalsen GF, Aguirre V; Latin American ISAAC Phase 3 Study Group. Prevalence of symptoms of eczema in Latin America: results of the International Study of Asthma and Allergies in Childhood (ISAAC) Phase 3. J Investig Allergol Clin Immunol. 2010;20:311-23.^,²⁵25 Dei-Cas I, Dei-Cas P, Acuña K. Atopic dermatitis and risk factors in poor children from Great Buenos Aires, Argentina. Clin Exp Dermatol. 2009;34:299-303. and prospective cohort's studies in tropical regions as Latin America are still scarce.

A significant finding in our study is the high prevalence of HDM sensitization (93%) among patients with dermatitis, higher than that reported in some Asian, European and North American populations. ²⁶26 Carlsten C, Dimich-Ward H, Ferguson A, Watson W, Rousseau R, Dybuncio A, et al. Atopic dermatitis in a high-risk cohort: natural history, associated allergic outcomes, and risk factors. Ann Allergy Asthma Immunol. 2013;110:24-8.^,²⁷27 Jeong KY, Lee JY, Son M, Yi MH, Yong TS, Shin JU, et al. Profiles of IgE Sensitization to Der f 1, Der f 2, Der f 6, Der f 8, Der f 10, and Der f 20 in Korean House Dust Mite Allergy Patients. Allergy Asthma Immunol Res. 2015;7:483-8. We also observed that some patterns of IgE sensitization were associated with persistent and severe eczema and some comorbidities. One explanation for the high sensitization rate to mites and other allergenic sources is that in the Aburra Valley one in three houses has a pet and mites allergens exposure is almost universal due to warm and humid environment, which facilitates the growth of mites and the concentration of their allergens. ¹¹11 Sánchez J, Diez S, Cardona R. Frequency of sensitization to animals in a tropical area. Rev Alerg Mex. 2014;61:81-9.^,¹³13 Sanchez J, Diez S, Cardona R. Sensibilización a aeroalergenos en pacientes alérgicos de Medellín. Rev Alerg Mex. 2012;59:139-47. Perineal exposition to high concentrations of allergens may induce an early life allergic response in the skin. Similarly, overcrowding of patients in home secondary to low income facilitates the accumulation of dust with irritants like endotoxin and allergens from cockroaches and birds, facilitating a Th2 response. ⁹9 Acevedo N, Sánchez J, Zakzuk J, Bornacelly A, Quiróz C, Alvarez Á, et al. Particular characteristics of allergic symptoms in tropical environments: follow up to 24 months in the FRAAT birth cohort study. BMC Pulm Med. 2012;12:13.^,¹⁴14 Dennis RJ, Caraballo L, García E, Rojas MX, Rondon MA, Pérez A, et al. Prevalence of asthma and other allergic conditions in Colombia 2009-2010: a cross-sectional study. BMC Pulm Med. 2012;12:17.

We observed that allergic conditions like asthma, rhinitis and conjunctivitis were the more common comorbidities, a finding already observed in different populations that support the "atopic march" hypothesis. ²⁸28 von Mutius E. 99th Dahlem conference on infection, inflammation and chronic inflammatory disorders: farm lifestyles and the hygiene hypothesis. Clin Exp Immunol. 2010;160:130-5. Nevertheless, according to the atopic march, in most patients eczema appears before the first two years of age and is frequently associated with food sensitization. In this cohort we observed that in 53% of patients, the eczema onset was after 3 years of age and food sensitization was only present in 16% of patients, suggesting different phenotypes of eczema than those observed in other populations. ²⁴24 Loo EX, Shek LP, Goh A, Teoh OH, Chan YH, Soh SE, et al. Atopic Dermatitis in Early Life: Evidence for at Least Three Phenotypes? Results from the GUSTO Study. Int Arch Allergy Immunol. 2015;166:273-9.

We also observed that severity of eczema is a predictor of the severity of asthma an ocular diseases. The mechanisms that explain the high frequency of respiratory allergic conditions between patients with eczema and why it is more evident during childhood are unknown. However, severe dermatitis is associated with skin disturbance allowing the entry of allergens in a concentration proportional to the affected skin area. In addition, chronic skin inflammation also leads to a permanent pro-inflammatory cytokine production and IgE antibodies, which would facilitate the Th2 response at mucosal surfaces.

Similar to our findings, previous studies have shown a higher incidence of dental problems among patients with severe dermatitis, especially bleeding gums and toothache. ²⁹29 Silverberg JI, Simpson EL. Association between severe eczema in children and multiple comorbid conditions and increased healthcare utilization. Pediatr Allergy Immunol. 2013;24:476-86. Keratoconjunctivitis is a Th2 and Th1 disease and share some molecular pathways with eczema, which could explain the high incidence of this ocular problem that we found in patients with severe skin symptoms. It is logical to assume that the high frequency of psychiatric disorders among patients with moderate and severe dermatitis is a consequence of the high impact in the quality of life that this disease has in patients.

Contrary to other studies, ²²22 Wei CC, Lin CL, Shen TC, Kao CH. Neonatal jaundice and risks of childhood allergic diseases: a population-based cohort study. Pediatr Res. 2015 Aug;78(2):223-30.^,²⁵25 Dei-Cas I, Dei-Cas P, Acuña K. Atopic dermatitis and risk factors in poor children from Great Buenos Aires, Argentina. Clin Exp Dermatol. 2009;34:299-303. we found a similar proportion of male and female patients with eczema and there was no association between exposition to smoking and "severe eczema", "persistent eczema" or comorbidities. This lack of association to smoking exposition may be explained by a type II error because the sample is underpowered to detect the effects of smoking. Also, we found no association with other environmental factors recognized as "risk" or "protective" for eczema in other cohorts like number of siblings and poverty conditions and socioeconomic stratum, possibly because the study population is homogeneously poor and the mean of siblings had little variation between most families (mean 2.4; percentile 25-75: 1-3.8).

A recollection of biological material has been performed in this study for immunological analysis.³⁵ We observed that total IgE had a tendency to be high between patients with severe eczema and some associations were observed with specific IgE and SCORAD but not with specific IgG or IgG4. Nevertheless, laboratory tests with samples from different time-points will help to assess genetic and molecular factors linked to dermatitis development, providing novel information about disease mechanisms in the tropics.

In short (Figure 3), we presented a tropical cohort of patients with eczema and particular environmental and socioeconomic conditions. This cohort could help to understand how this factors influence the development of dermatitis and the clinical response to pharmacotherapy in tropical populations. The availability of biological samples will allow to further study the effects of particular factors related to tropical environment in the development and severity of eczema.

CONCLUSION

We presented a tropical cohort of patients with eczema and we identified some risk factors for severe and persistent dermatitis. Some patterns of sensitization, especially with mites, were associated with severe eczema and respiratory symptoms, and the natural history of "atopic march" is different to that described in some industrialized countries. The collection of biological samples will contribute to understand the gene/environment interactions leading to allergy inception and evolution.

Financial support: This project was supported by University of Antioquia
*
Study conducted at the University of Antioquia – Antioquia, Colombia.

ACKNOWLEDGMENT

In memorial of Elizabeth Lopez who contributed with the recruitment of patients and recollection of data. Thanks to Julian Arango and Yuliana Toro for processing and store biological samples. This project was supported by University of Antioquia.

References

¹
Genuneit J, Braig S, Brandt S, Wabitsch M, Florath I, Brenner H, et al. Infant atopic eczema and subsequent attention-deficit/hyperactivity disorder--a prospective birth cohort study. Pediatr Allergy Immunol. 2014;25:51-6.
²
Simpson EL. Comorbidity in Atopic Dermatitis. Curr Dermatol Rep. 2012;1:29-38.
³
Sánchez J, Páez B, Macías A, Olmos C, de Falco A. Atopic dermatitis guideline. Position paper from the Latin American Society of Allergy, Asthma and Immunology. Rev Alerg Mex. 2014;61:178-211.
⁴
Ring J, Alomar A, Bieber T, Deleuran M, Fink-Wagner A, Gelmetti C, et al. Guidelines for treatment of atopic eczema (atopic dermatitis) part I. J Eur Acad Dermatol Venereol. 2012;26:1045-60.
⁵
Darsow U, Wollenberg A, Simon D, Taïeb A, Werfel T, Oranje A, et al. ETFAD/EADV eczema task force 2009 position paper on diagnosis and treatment of atopic dermatitis. J Eur Acad Dermatol Venereol. 2010;24:317-28.
⁶
Lopez N, de Barros-Mazon S, Vilela MM, Condino Neto A, Ribeiro JD. Are immunoglobulin E levels associated with early wheezing? A prospective study in Brazilian infants. Eur Respir J. 2002;20:640-5.
⁷
Rullo VE, Arruda LK, Cardoso MR, Valente V, Zampolo AS, Nóbrega F, et al. Respiratory infection, exposure to mouse allergen and breastfeeding: role in recurrent wheezing in early life. Int Arch Allergy Immunol. 2009;150:172-8.
⁸
Cooper PJ, Chico ME, Guadalupe I, Sandoval CA, Mitre E, Platts-Mills TA, et al. Impact of early life exposures to geohelminth infections on the development of vaccine immunity, allergic sensitization, and allergic inflammatory diseases in children living in tropical Ecuador: the ECUAVIDA birth cohort study. BMC Infect Dis. 2011;11:184.
⁹
Acevedo N, Sánchez J, Zakzuk J, Bornacelly A, Quiróz C, Alvarez Á, et al. Particular characteristics of allergic symptoms in tropical environments: follow up to 24 months in the FRAAT birth cohort study. BMC Pulm Med. 2012;12:13.
¹⁰
Solé D, Mallol J, Wandalsen GF, Aguirre V; Latin American ISAAC Phase 3 Study Group. Prevalence of symptoms of eczema in Latin America: results of the International Study of Asthma and Allergies in Childhood (ISAAC) Phase 3. J Investig Allergol Clin Immunol. 2010;20:311-23.
¹¹
Sánchez J, Diez S, Cardona R. Frequency of sensitization to animals in a tropical area. Rev Alerg Mex. 2014;61:81-9.
¹²
Sánchez J, Sánchez A. Epidemiology of food allergy in Latin America. Allergol Immunopathol (Madr). 2015;43:185-95.
¹³
Sanchez J, Diez S, Cardona R. Sensibilización a aeroalergenos en pacientes alérgicos de Medellín. Rev Alerg Mex. 2012;59:139-47.
¹⁴
Dennis RJ, Caraballo L, García E, Rojas MX, Rondon MA, Pérez A, et al. Prevalence of asthma and other allergic conditions in Colombia 2009-2010: a cross-sectional study. BMC Pulm Med. 2012;12:17.
¹⁵
Ruiz-Linares A, Adhikari K, Acuña-Alonzo V, Quinto-Sanchez M, Jaramillo C, Arias W, et al. Admixture in Latin America: geographic structure, phenotypic diversity and self-perception of ancestry based on 7,342 individuals. PLoS Genet. 2014;10:e1004572.
¹⁶
Wang S, Ray N, Rojas W, Parra MV, Bedoya G, Gallo C, et al. Geographic patterns of genome admixture in Latin American Mestizos. PLoS Genet. 2008;4:e1000037.
¹⁷
Hanifin JM. Diagnostic criteria for atopic dermatitis: consider the context. Arch Dermatol. 1999;135:1551.
¹⁸
Sánchez Caraballo JM, Cardona Villa R. Clinical and immunological changes of immunotherapy in patients with atopic dermatitis: randomized controlled trial. ISRN Allergy. 2012;2012:183983.
¹⁹
Heinzerling LM, Burbach GJ, Edenharter G, Bachert C, Bindslev-Jensen C, Bonini S, et al. GA(2)LEN skin test study I: GA(2)LEN harmonization of skin prick testing: novel sensitization patterns for inhalant allergens in Europe. Allergy. 2009;64:1498-506.
²⁰
Sampson HA, Gerth van Wijk R, Bindslev-Jensen C, Sicherer S, Teuber SS, Burks AW, et al. Standardizing double-blind, placebo-controlled oral food challenges: American Academy of Allergy, Asthma & Immunology-European Academy of Allergy and Clinical Immunology PRACTALL consensus report. J Allergy Clin Immunol. 2012;130:1260-74.
²¹
Vrijheid M, Casas M, Bergström A, Carmichael A, Cordier S, Eggesbø M, et al. European birth cohorts for environmental health research. Environ Health Perspect. 2012;120:29-37.
²²
Wei CC, Lin CL, Shen TC, Kao CH. Neonatal jaundice and risks of childhood allergic diseases: a population-based cohort study. Pediatr Res. 2015 Aug;78(2):223-30.
²³
Mortz CG, Andersen KE, Dellgren C, Barington T, Bindslev-Jensen C. Atopic dermatitis from adolescence to adulthood in the TOACS cohort: prevalence, persistence and comorbidities. Allergy. 2015;70:836-45.
²⁴
Loo EX, Shek LP, Goh A, Teoh OH, Chan YH, Soh SE, et al. Atopic Dermatitis in Early Life: Evidence for at Least Three Phenotypes? Results from the GUSTO Study. Int Arch Allergy Immunol. 2015;166:273-9.
²⁵
Dei-Cas I, Dei-Cas P, Acuña K. Atopic dermatitis and risk factors in poor children from Great Buenos Aires, Argentina. Clin Exp Dermatol. 2009;34:299-303.
²⁶
Carlsten C, Dimich-Ward H, Ferguson A, Watson W, Rousseau R, Dybuncio A, et al. Atopic dermatitis in a high-risk cohort: natural history, associated allergic outcomes, and risk factors. Ann Allergy Asthma Immunol. 2013;110:24-8.
²⁷
Jeong KY, Lee JY, Son M, Yi MH, Yong TS, Shin JU, et al. Profiles of IgE Sensitization to Der f 1, Der f 2, Der f 6, Der f 8, Der f 10, and Der f 20 in Korean House Dust Mite Allergy Patients. Allergy Asthma Immunol Res. 2015;7:483-8.
²⁸
von Mutius E. 99th Dahlem conference on infection, inflammation and chronic inflammatory disorders: farm lifestyles and the hygiene hypothesis. Clin Exp Immunol. 2010;160:130-5.
²⁹
Silverberg JI, Simpson EL. Association between severe eczema in children and multiple comorbid conditions and increased healthcare utilization. Pediatr Allergy Immunol. 2013;24:476-86.

Publication Dates

Publication in this collection
Mar-Apr 2017

History

Received
28 June 2015
Accepted
11 Feb 2016

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited.

[1] Financial support: This project was supported by University of Antioquia

[2] *
Study conducted at the University of Antioquia – Antioquia, Colombia.

Baseline	Atopic Dermatitis
characteristics	All patients		Mild		Moderate		Severe		p
Patients number	433	(100%)	102	(23%)	214	(49%)	117	(27%)	0,02
Age	8	(3 - 49)	9	(3 -38)	8	(3-41)	7	(3-40)	>0,05
Gender (female)	225	(52%)	50	(49%)	121	(56%)	54	(46%)	>0,05
Sensitization (Atopy)	411	(94%)	92	(90%)	206	(96%)	113	(96%)	>0,05
Mites	403	(93%)	91	(89%)	203	(94%)	109	(93%)	>0,05
Pets	187	(43%)	35	(34%)	92	(42%)	62	(52%)	0,04
Any food	70	(16%)	16	(15%)	34	(15%)	20	(17%)	>0,05
Milk	37	(8%)	8	(7%)	17	(7%)	12	(10%)	>0,05
Egg	43	(9%)	9	(8%)	23	(10%)	13	(11%)	>0,05
Other food	16	(3%)	2	(1%)	8	(3,7%)	6	(5%)	>0,05
Allergic comorbidities	394	(91%)	87	(85%)	196	(91%)	111	(94%)	>0,05
Conjunctivitis	382	(88%)	87	(85%)	182	(85%)	113	(96%)	>0,05
Keratoconjunctivitis	52	(12%)	9	(8%)	21	(9%)	22	(18%)	0,03
Asthma	208	(48%)	43	(42%)	111	(51%)	54	(46%)	>0,05
Rhinitis	369	(85%)	87	(85%)	175	(81%)	107	(91%)	>0,05
Non-allergic comorbidities	139	(32%)	25	(24%)	62	(28%)	52	(44%)	0,02
psychological disorder (n= 234)	113	(48%)	12	(11%)	51	(23%)	50	(42%)	0,02
Dental problems (n= 301)	74	(17%)	15	(14%)	30	(14%)	29	(24%)	0,03
SCORAD (points)	33	(8 -108)	12	(8 -15)	33	(16 -39)	51	(40 -101)	0,02
SS (%)	95%	(89 - 100)	60%	(40 -94)	84%	(63 -100)	93%	(80 -100)	0,04
DLQI	14	(3 -30)	8	(3 - 30)	14	(8 - 30)	21	(11 - 30)	0,02

Factor/ exposure	Severe eczema	Persistent eczema	Severe asthma	Keratoconjunctivitis
Maternal eczema	OR 5.45 (2.2-9.8), p <0.01	^aOR 4.65 (1.8-8.8), p =0.03	OR 1.55 (0,8-4.8), p =0.02	^aOR 1.45 (1.1-5.4), p =0.05
	OR 1.56 (0.2-11), p =0.3	OR 0.93 (0.3-6.6), p =0.4
Paternal eczema	OR 2.48 (1.9-6.8), p =0.01	^aOR 1.88 (1.1-5.4), p =0.04	OR 1.88 (1.3-6.7), p =0.02	^aOR 1.14 (1.0-5.8), p =0.05
	OR 0.99 (0.74-10), p =0.7	OR 0.65 (0,34-7.2), p = 0.5
Polysensitization #1	OR 2.65 (1.4-6.4), p =0.01	^aOR 2.05 (1.2-7.8), p =0.02	OR 2.13 (1.5-8.4), p =0.02	^aOR 1.65 (1.2-7.6), p =0.03
	OR 2.2 (1.7-7.2), p =0.01	^aOR 1.55 (1.1-5.8), p =0.01	OR 2.05 (0.99-10.1), p = 0.08
Polysensitization #2	^aOR 3.33 (1.8-7.5), p =0.01	OR 3.14 (1.2-6.5), p <0.01	No significant change	No significant change
	^aOR 2.31 (1.6-7.2), p =0.02	^aOR 2.89 (1.2-5.9), p =0.01	from model 1	from model 1
Socioeconomic stratum	OR 0.82 (0.2-9.8), p =0.4	OR 0.72 (0.2-8.4), p =0.4	OR 0.52 (0.2-5.5), p =0.3	OR 0.52 (0.2-6), p = 0.4
Cigarette smoking	OR 0.95 (0.7-7.7), p =0.2	OR 1.05 (0.6-6.7), p =0.1	OR 1.65 (0.73-5.9), p =0.09	OR 0.6 (0.3-4.7), p = 0.6
Coexistence with pets	OR 0.41 (0.2-6.8), p =0.4	OR 0.61 (0.3-3.5), p =0.3	OR 0.53 (0.8-4.5), p =0.3	OR 0.41 (0.3-7.5), p = 0.7
Eczema onset (>14 or <14)	OR 2.65 (0.8-12.6), p =0.5	OR 1.65 (0.6-9.1), p =0.3	OR 2.85 (1.32-5.8), p = 0.02	^aOR 1.65 (0.63-3.1), p = 0.07
			OR 1.35 (0,7-4.9), p = 0.3
Severe eczema	N/A	OR 3.65 (1.2-7.8), p <0.01	^aOR 2.65 (1.2-5.3), p =0.03	OR 2.33 (1.9-6.4), p <0.01
		^aOR 1.95 (1.5-4.8), p =0.01	OR 2.68 (1.5-7.1), p = 0.02	^aOR 1.88 (1.2-6.4), p = 0.03

Brasil

Brasil

Particular characteristics of atopic eczema in tropical environments. The Tropical Environment Control for Chronic Eczema and Molecular Assessment (TECCEMA) cohort study^* * Study conducted at the University of Antioquia – Antioquia, Colombia.

Abstract:

Background:

Objective:

Methods:

Results:

Study limitations:

Conclusion:

INTRODUCTION

OBJECTIVE

METHODS

Location and study population

Study design

Assessment of clinical outcomes

Skin sensitization

Single-Blind Placebo-Controlled Food Challenge (SBPCFC)

Biological samples

Data analysis

RESULTS

Demographic characteristics

Eczema characteristics

Skin reactivity

SBPCFC

Serological samples

Comorbidities

Risk factors for severe eczema

STUDY LIMITATIONS

DISCUSSION

CONCLUSION

ACKNOWLEDGMENT

References

Publication Dates

History

Brasil

Brasil

Particular characteristics of atopic eczema in tropical environments. The Tropical Environment Control for Chronic Eczema and Molecular Assessment (TECCEMA) cohort study* * Study conducted at the University of Antioquia – Antioquia, Colombia.

Abstract:

Background:

Objective:

Methods:

Results:

Study limitations:

Conclusion:

INTRODUCTION

OBJECTIVE

METHODS

Location and study population

Study design

Assessment of clinical outcomes

Skin sensitization

Single-Blind Placebo-Controlled Food Challenge (SBPCFC)

Biological samples

Data analysis

RESULTS

Demographic characteristics

Eczema characteristics

Skin reactivity

SBPCFC

Serological samples

Comorbidities

Risk factors for severe eczema

STUDY LIMITATIONS

DISCUSSION

CONCLUSION

ACKNOWLEDGMENT

References

Publication Dates

History

Particular characteristics of atopic eczema in tropical environments. The Tropical Environment Control for Chronic Eczema and Molecular Assessment (TECCEMA) cohort study^* * Study conducted at the University of Antioquia – Antioquia, Colombia.