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Revista Cubana de Medicina Militar

versión On-line ISSN 1561-3046

Rev. cuban. med. mil. vol.52 no.2 La Habana abr.-jun. 2023  Epub 01-Jun-2023

 

Research article

Clinical-demographic characteristics of patient with primary immunodeficiencies

Características clínico-demográficas de pacientes con inmunodeficiencias primarias

0000-0002-4202-5412Maricarmen González-Costa1  , 0000-0002-9477-399XLidia Cecilia Pérez Acevedo2  , 0000-0002-4203-8387Bárbara de la Caridad Addine Ramírez3  *  , 0000-0001-5147-9179Edel Jiménez Hernández4  , 0000-0003-4840-5536Reynel Marrón González5 

1Facultad de Ciencias Médicas de Bayamo. Hospital Provincial Pediátrico Docente General Milanés. Granma, Cuba.

2Instituto de Ciencias Básicas y Preclínicas “Victoria de Girón”. La Habana, Cuba.

3Facultad de Ciencias Médicas de Bayamo. Granma, Cuba.

4Hospital Clínico Quirúrgico "Hermanos Ameijeiras". La Habana, Cuba.

5Hospital Provincial Universitario “Carlos Manuel de Céspedes”. Centro Médico Ambulatorio. Bayamo, Granma, Cuba.

ABSTRACT

Introduction:

Primary immunodeficiencies are a heterogeneous group of genetic disorders that affect the functioning of the immune system. Primary immunodeficiencies can present with variable clinical features in early childhood and adulthood.

Objective:

To characterize patients diagnosed with primary immunodeficiencies clinically and demographically.

Methods:

A cross-sectional, descriptive, retrospective case series study was carried out with 39 patients of both sexes, diagnosed with primary immunodeficiencies, according to the latest International Union of Immunological Societies classification; attended from January 2012 to December 2021 in Granma. Age (at onset of symptoms, diagnosis, and delay in diagnosis), sex, family history, and clinical manifestations were evaluated. Data from medical records were collected. They were processed using descriptive statistics.

Results:

The age of onset of symptoms ranged from one month of life to 37 years, with a mean of 6.31 years; the average age of diagnosis was 11.89 years. Humoral deficiencies represented 69.23% of all primary immunodeficiencies and relative IgA deficiency predominated (11 cases). A family history of primary immunodeficiencies was reported by 12 patients. Recurrent infections (71.79%) and allergies (61.53%) were the most frequent manifestations; the mortality rate was 2.56%.

Conclusions:

Primary immunodeficiencies were more frequent in childhood, with the same behavior in both sexes. Infections, allergies, and a family history of primary immunodeficiency were important findings. Humoral immunodeficiencies were the most prevalent.

Key words: primary immune deficiency; inborn errors of immunity; primary immune deficiency registry

RESUMEN

Introducción:

Las inmunodeficiencias primarias son un grupo heterogéneo de trastornos genéticos que afectan el funcionamiento del sistema inmunológico. Pueden presentarse con características clínicas variables en la primera infancia y en la edad adulta.

Objetivo:

Caracterizar clínica y demográficamente a pacientes diagnosticados con inmunodeficiencias primarias.

Métodos:

Se realizó un estudio de serie de casos, transversal, descriptivo, retrospectivo, con 39 pacientes de ambos sexos, con diagnóstico de inmunodeficiencias primarias, según la última clasificación de la International Union of Immunological Societies; atendidos de enero de 2012 a diciembre de 2021 en Granma. Se evaluó la edad (de inicio de los síntomas, diagnóstico y retraso en el diagnóstico), sexo, antecedentes familiares y manifestaciones clínicas. Se recolectaron los datos de las historias clínicas. Se utilizó estadística descriptiva.

Resultados:

La edad de inicio de los síntomas osciló entre el mes de vida y los 37 años, con una media de 6,31 años; la edad media de diagnóstico fue de 11,89 años. Las deficiencias humorales representaron el 69,23 % de todas las inmunodeficiencias primarias y predominó el déficit relativo de IgA (11 casos). Reportaron antecedentes familiares de inmunodeficiencias primarias 12 pacientes. Las infecciones recurrentes (71,79 %) y las alergias (61,53 %) fueron las manifestaciones más frecuentes; la tasa de mortalidad fue de 2,56 %.

Conclusiones:

Las inmunodeficiencias primarias fueron más frecuentes en la infancia, con el mismo comportamiento en ambos sexos. Las infecciones, las alergias y los antecedentes familiares de inmunodeficiencia primaria fueron hallazgos importantes. Las inmunodeficiencias humorales fueron las más prevalentes.

Palabras-clave: inmunodeficiencia primaria; errores congénitos de la inmunidad; registro de inmunodeficiencia primaria

INTRODUCTION

Primary immune deficiencies (PIDs), also known as inborn errors of immunity (IEI), are a large heterogeneous group of genetically based disorders that affect the proper functioning of the immune system.

According to the most recent report by the International Union of Immunological Societies (IUIS), the identified IEI were classified in 10 groups: (a) immunodeficiencies that affect cell and humoral immunities; (b) immunodeficiencies combined with associated characteristics or syndromes; (c) predominantly antibody deficiencies; (d) immune dysregulation diseases; (e) quantitative or functional phagocyte defects; (f) innate immunity defects; (g) autoinflammatory diseases; (h) complement system deficiencies; (i) bone marrow failure or insufficiency, and (j) IEI phenocopies.1

PIDs can present from early childhood to adulthood and their clinical features are highly variable and include increased susceptibility to infections, lymphoid proliferation, association with allergies and autoimmune diseases, among others manifestations in variable combinations. Patients may be asymptomatic, present mild manifestations or to develop severe symptoms leading to their demise. Generally, the most severe, life-threatening conditions start in the first months of life, which has caused IEI to be mistakenly associated with exclusive childhood diseases.2

Also, PIDs have been historically considered as rare diseases, with low prevalence in general population. However, for the past years, molecular biology advances have led to the identification of new monogenic IEI and the description of novel phenotypes. The IUIS in their last classification update described over 400 PIDs, a number that is permanently increasing. In fact, the suspected worldwide incidence of these diseases ranges from 1/1 000 to 1/5000 births, depending on genetic background, environmental factors, social habits, and access to health services.1 In Cuba, 337 patients with inborn errors of immunity have been reported until 2019.3

The remarkable clinical variability, along with the high cost of the diagnosis of PIDs, contributes to turning their identification into a challenging task, particularly in developing countries, where statistics are likely underestimated and, consequently, a great number of patients remain untreated. Hence, clinical immunologists ought to address the report of PIDs as a mission of paramount importance.

A high index of suspicion is required for early diagnosis; understanding the clinical features and particularities of PIDs presentation is key to raise awareness of these conditions in medical professionals and to ensure that patients with inborn errors of immunity receive proper sanitary care, therefore reducing morbidity and mortality rates, hospitalization and treatments costs and optimizing the use of resources. On the other hand, epidemiological studies of PIDs may help shed some light over the immune pathogenic mechanisms of these diseases, uncover public health blind spots to respond to patients necessities and to develop customized strategies to manage these patients nationwide.

Therefore, the objective of this research was to characterize clinically and demographically patients diagnosed with primary immunodeficiencies.

METHODS

A cross-sectional, descriptive, retrospective case series study was carried out with 39 patients of both sexes, who were treated at the Immuno-allergy service of the Outpatient Medical Centre attached to the "Carlos Manuel de Cespedes" Provincial Hospital of Bayamo, Granma province, diagnosed with primary immunodeficiency according to the last classification of the IUIS of 2020,1 in the period of January 2012 to December 2021.

The characterization of these patients was carried out through variables:

  • Age (of symptoms onset, diagnosis, and diagnosis delay: lapse of time between the appearance of the first symptoms and the immunology diagnosis).

  • Sex.

  • Family history.

  • Clinical manifestations.

  • Type of PID (classified according to the IUIS of 2020, from which the diagnostic criteria for primary immunodeficiency were taken.1

Data were collected from the medical records and from the questioning of parents and patients. The following methods were applied to obtain the data: observation, measurement and clinical method. The statistical methods used were the mean for ages, and for the rest of the variables absolute and relative frequencies. The information obtained was processed through IBM SPSS 25.0 statistic program.

To carry out this research, approval was received from the Ethics Committee of the Center, and the subsequent consent of those selected (or legal guardians, in the case of minors).

RESULTS

Out of the 39 PID cases, 23 (59%) were males and 16 females (41%), with a female/male ratio of 1:1.44. Besides, 28 patients were children under age of 18, representing a 71.79% of the sample.

The age of symptoms onset ranged from one month of life, in a patient with DiGeorge Syndrome, to 37 years in a case of IgG Deficiency, with a mean of 6.31 years. In children, the mean age of onset was 28 months.

The average age of diagnosis was 11.89 years; two cases of Common Variable Immune Deficiency (CVID) were diagnosed at advanced age, between 54 and 62 years of age. Age of diagnosis in children was 3.88 years, in average.

The diagnosis delay was an average of 5.6 years. In children, this mean delay in diagnosis was 19.5 months.

According to their clinical manifestations, patients that presented with recurrent infections were diagnosed with a mean delay of 7 years, while those that also reported allergic symptoms had a diagnosis delay of 1.5 years. Patients with recurrent infections, allergies and autoimmune disorders had a diagnosis delay of 10.2 years, and those that presented with autoimmunity as a sole manifestation showed a delay in diagnosis of 14 years.

Patients with common variable immune deficiency had the highest mean age of diagnosis, onset and the longest diagnosis delay period (table 1).

Table 1 Age of diagnosis, onset and diagnosis delay of PIDs 

Primary Immune Deficiency Mean age of symptoms onset (years/months) Mean age of diagnosis (years) Mean diagnosis delay (years/months)
X-linked agammaglobulinemia 0.25/3 4 3.75/45
Chronic granulomatous disease 2/24 12 10/120
Mucocutaneous candidiasis 8/96 13 5/60
IPEX like 0.08/1 12 11.92/144
Common Variable Immune Deficiency (CVID) 17/204 33.6 16.60/199
Neutropenia 0.77/9.5 1 0.28/3.5
Thymic hypoplasia with clinic immune deficiency 3.51/42 4.15 0.66/8
DiGeorge Syndrome 0.16/2 1 0.84/10
Absolute deficit of IgA 2.60/31 6.20 3.66/44
Relative deficit of IgA 3.55/42.5 5.66 2.16/26
Deficit of IgG 14/168 24.33 10.33/124
Mixed antibody deficit 2/24 2 0.08/1

As showed in table 2, predominantly antibody deficiencies accounted for the larger number (69.23%) of all inborn errors of immunity, with a very similar distribution in both sexes (13 females vs. 14 male patients). There were not cases diagnosed with autoinflammatory disorders, complement system deficiencies or phenocopies of primary immune deficiencies.

The most frequently diagnosed immunodeficiency in the series was IgA deficiency, which globally accounted for 35.89% of all cases. Relative deficiency of IgA predominated, with 9 patients. IgG deficiency, absolute IgA deficiency CVID and thymic hypoplasia with clinical immunodeficiency occurred in similar order of frequency, with six, five and five cases, respectively (table 2).

Table 2 Distribution of PIDs based on sex and the latest IUIS classification (1) 

Family history of primary immunodeficiencies was reported in 30.76% of patients (Fig. 1), who informed some type of familial antecedent of antibody deficiency, which corresponded to the exact immunodeficiency diagnosed in 58.33% of the cases. There was no consanguinity reported.

Fig. 1 Family history of patients with primary immune deficiencies. 

The most frequent clinical manifestations were recurrent infections, in 71.79% of cases, and allergic symptoms (61.53%), as it is shown in figure 2. The greatest variability in clinical expression occurred in predominantly antibody deficiencies; 3 asymptomatic patients were reported, who were studied due to family history of PID. Only 1 patient, with a diagnosis of CVID presented a neoplasm; 4 patients with simple humoral deficits had an atopic condition as a soul clinical manifestation and 2 cases presented only with autoimmune diseases.

A patient with chronic granulomatous disease died, for a mortality of 2.56%.

Fig. 2 Clinical manifestations in patients with primary immune deficiencies. 

DISCUSSION

The demographic characterization of the sample shows a clear predominance of inborn errors of immunity in males. The United Kingdom PID (UKPID) registry reported a greater number of women with PIDs than men, 2.399 and 2.359, respectively;4 however, the rest of the consulted bibliography5,6,7 coincided with the results obtained by the authors.

In pediatric patients, the female/male ratio was 1: 2.29, while in adults, the disproportion between sexes was less marked, with a ratio of 1:1.75. This is associated with the fact that many early-onset primary immunodeficiencies are transmitted by X-linked patterns of inheritance; however, as age advances, this factor loses relevance and other variables come into play that balance the statistics, particularly associated to the appearance of immune dysregulation disorders.8

While, the 71.79% of the patients studied (28) were of pediatric age, an expected result considering the early childhood onset and great severity of a large group of inborn errors of immunity, which threatens patients' life expectancy. The age of appearance of the first symptoms was variable, in correspondence with the behavior of the different types of immunodeficiency. According to a study published by Italian researchers, Common Variable Immunodeficiency is the only PID with a more frequent onset and diagnosis in adults (over 18 years of age) than in children5 which corresponds to the population studied.

In children, the average age of onset was 28 months. A Chinese study of IEI in 112 children reported a mean age of onset of 13 months;9 however, direct comparisons between investigations are impaired since the aforementioned study does not declare the age range of childhood.

The average age of diagnosis was 11.89 years, though this result was affected by very extreme ages of diagnosis in cases of CVID. Studies focused in children reported mean diagnosis ages ranging from 4.210 to 6.3 years,7 while in this series, age of diagnosis in children was 3.88 years, in average.

Diagnosis delay of inborn errors of immunity is an important factor associated with increased morbidity and mortality, since it delays the start of treatment and increases the risk of infectious and onco-proliferative complications. In the studied series, the lapse of time between the appearance of the first symptoms and the Immunology diagnosis was 5.6 years, in average. Common Variable Immune deficiency showed the greater delay, which corresponds to results obtained in the UK,4 though the UKPID reported a 4 years delay against the 16.6 years showed by our study. This difference might be in correspondence with the degree of socioeconomic development of both nations and the access to diagnostic tools.

It was interesting to notice that the cases that presented with frequent infections and/or allergies alone were diagnosed earlier compared to those that presented with autoimmunity associated or not with other manifestations. An investigation conducted by Garcia-Torres et al.7 also pointed to a relation between quicker diagnosis and severe recurrent infections, as well as autoimmunity manifestations and diagnostic delay.

Most of the studies consulted report a lesser diagnosis delay in patients presenting with infections.4,9,10 This might be explained by the fact that, in contrast with patients with allergies or recurrent infections, who are often assisted by immunologists, patients with autoimmune manifestations are generally evaluated by a series of specialists before they are referred to an immunologist.

According to the IUIS classification,1 the group of inborn errors of immunity with the highest reporting were predominantly antibody deficiencies, which coincides with the global records of IDPS.6 No cases of autoinflammatory disorders, complement deficiencies or phenocopies of primary immunodeficiencies were diagnosed.

The most frequent immunodeficiency in the series was IgA deficiency, which globally represented 38.46% of the total cases. IgA deficiency is also the most diagnosed PID in Cuba (32% of all cases),3 as in the American continent, ranking second in order of frequency in Asia and Europe.6 However, in Pakistan, chronic granulomatous disease predominates, a phenomenon associated with the country's high rate of inbreeding and consanguinity (95% in the study sample).10

Though consanguinity is rare in Cuba, a study published by Lugo et al.11 reports that approximately 1.1 billion people currently live in countries where consanguineous marriages are customary: in Middle Eastern, North Africa (MENA) and West Asia countries, a geographical area that runs from Pakistan and Afghanistan in the east to Morocco in the west, and including South India.

It is directly associated to an increased rate of autosomal recessive IEI in siblings with unaffected parents. Even when there were no reports of consanguinity in the series, the familial incidence was high compared to the German registry of PIDs (30.76% vs 21%, respectively) which reported an 8% of patients with related parents.12 The German study showed that familial cases are more common in CVID and other humoral deficits, CGD and SCID, while in the present investigation a family history of IEI was more relevant in IgA and other humoral deficits. This difference might be associated to the low representation of CGD and SCID in our sample, as well as the prevalence of predominantly antibodies IEI.

Infections were the most common manifestations in our series. Although most national registries show similar results,5,8,10,12 non-infectious symptoms are been reported increasingly in the course of IEI. The UKPID registry recounted nearly 25% of cases with symptoms other than recurrent infections,4 a lesser figure compared to our results. However, the studies consulted showed relevant disparities in the methodology used to classify non-infectious manifestations, hence, comparing and extrapolating results is not feasible.

The mortality in the series was low. Lougaris et al.7) compared the mortality rates in patients with IEI according to the European registries; our series shows similar figures to populations in Germany and Switzerland.5 A Mexican study showed a slightly higher percent (3.3%), while in Pakistan the mortality raised to 25%.10 There are several factors that influence the outcome of IEI, such as early diagnosis, environmental and genetic factors as well as the access to sanitary services. Immune deficient patients with a history of parental consanguinity have been found to present with more severe PID phenotypes, as documented by the significant numbers of complications, atypical, severe and unusual infections, poor performance status, and a higher mortality rate.13 In Cuba, a third-world country, even when there are objective difficulties to make an accurate genetic diagnosis, the public health system ensures the access of general population to medical services and the affordability of treatments.

Primary immunodeficiencies were more frequent in childhood, with the same behavior in both sexes. Humoral immunodeficiencies were the most prevalent. Infections, allergies and family history of primary immunodeficiency were important finding.

BIBLIOGRAPHIC REFERENCES

1.  Tangye SG, Al-Herz W, Bousfiha A, Chatila T, Cunningham-Rundles C, Etzioni A, et al. Human Inborn Errors of Immunity: 2019 Update on the Classification from the International Union of Immunological Societies Expert Committee. J Clin Immunol. 2020[access: 12/07/2022]; 40(1):[41 p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/31953710/ 1.  [ Links ]

2.  Solé D. Primary immunodeficiencies: a diagnostic challenge? J Pediatr (Rio J). 2021[access: 16/08/2022]; 97(Suppl 1):[2p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/33352110/ 2.  [ Links ]

3.  Macías C. Una mirada al diagnóstico y tratamiento de las inmunodeficiencias primarias. Revista Cubana de Hematología, Inmunología y Hemoterapia. 2020[access: 22/06/2022]; 35(4):[5 p.]. Available from: Available from: http://www.revhematologia.sld.cu/index.php/hih/article/view/1178 3.  [ Links ]

4.  Shillitoe B, Bangs C, Guzman D, Gennery AR, Longhurst HJ, Slatter M, et al. The United Kingdom Primary Immune Deficiency (UKPID) registry 2012 to 2017. Clin Exp Immunol. 2018[access: 12/07/2022]; 192(3):[7 p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/29878323/ 4.  [ Links ]

5.  Lougaris V, Pession A, Baronio M, Soresina A, Rondelli R, Gazzurelli L, et al. The Italian Registry for Primary Immunodeficiencies (Italian Primary Immunodeficiency Network; IPINet): Twenty Years of Experience (1999-2019). J Clin Immunol. 2020[access: 11/07/2022]; 40(7):[12 p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/32803625/ 5.  [ Links ]

6.  Abolhassani H, Azizi G, Sharifi L, Yazdani R, Mohsenzadegan M, Delavari S, et al. Global systematic review of primary immunodeficiency registries. Expert Rev Clin Immunol. 2020[access: 10/07/2022]; 16(7):[15p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/32720819/ 6.  [ Links ]

7.  García-Torres DA, Macías-Robles AP, Pérez-Jiménez L, Rodríguez-Saldaña MB, Albores-Chávez YF, Tlacuilo-Parra A, et al. Clinical characteristics of primary immunodeficiencies in children from a tertiary hospital. Rev Alerg Mex. 2020[access: 10/07/2022]; 67(3):[12p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/33636063/ 7.  [ Links ]

8.  Condino-Neto A, Sullivan KE. The relevance of primary immunodeficiency registries on a global perspective. J Allergy Clin Immunol. Rev Alerg Mex. 2021[access: 11/06/2022]; 148(5):[2 p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/34536417/ 8.  [ Links ]

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10.  Qureshi S, Mir F, Junejo S, Saleem K, Zaidi S, Naveed AB, et al. The spectrum of primary immunodeficiencies at a tertiary care hospital in Pakistan. World Allergy Organ J. 2020[access: 16/08/2022]; 13(7):[13 p.]. Available from: Available from: https://pubmed.ncbi.nlm.nih.gov/32793328/ 10.  [ Links ]

11.  Lugo Reyes SO, Condino-Neto A, Stepensky P. Global perspectives on primary immune deficiency diseases. Stiehm's Immune Deficiencies. 2020[access: 16/08/2022]; 2020:1129-42. Available from: Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7258797/ 11.  [ Links ]

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13.  Barbouche MR, Mekki N, Ben-Ali M, Ben-Mustapha I. Lessons from Genetic Studies of Primary Immunodeficiencies in a Highly Consanguineous Population. Front Immunol. 2017[access: 16/08/2022]; 8:737. Available from: Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5485821/ 13.  [ Links ]

Received: September 05, 2022; Accepted: March 06, 2023

*Author for correspondence. Email: addine@infomed.sld.cu

None of the authors declare any conflict of interest.

Conceptualization: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández, Reynel Marrón González.

Data curation: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández.

Formal analysis: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández, Reynel Marrón González.

Investigation: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández, Reynel Marrón González.

Methodology: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández, Reynel Marrón González.

Project administration: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez.

Supervision: Maricarmen González-Costa, Bárbara de la Caridad Addine Ramírez, Reynel Marrón González.

Validation: Maricarmen González-Costa, Bárbara de la Caridad Addine Ramírez, Reynel Marrón González.

Visualization: Lidia Cecilia Pérez Acevedo, Rafael Corredera Fernández.

Writing-original draft: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández, Reynel Marrón González.

Writing-review and editing: Maricarmen González-Costa, Lidia Cecilia Pérez Acevedo, Bárbara de la Caridad Addine Ramírez, Rafael Corredera Fernández, Reynel Marrón González.

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