Síndrome de la apnea-hipoapnea obstructiva del sueño en el niño: más allá de la hipertrofia adenoamigdalar / Obstructive sleep apnea-hypopnea syndrome in children: Beyond adenotonsillar hypertrophy

La prevalencia del síndrome de la apnea-hipoapnea obstructiva del sueño en la población infantil general es del 1-2% y su causa más frecuente es la hipertrofia adenoamigdalar. Las prevalencias en las otras causas de este síndrome, más allá de la hipertrofia adenoamigdalar, son elevadas. En muchas de estas enfermedades los motivos por los que se genera el síndrome de la apnea-hipoapnea obstructiva del sueño son multifactoriales (hipotonía muscular, alteraciones dentofaciales, hipertrofia de tejidos blandos de la vía aérea, alteraciones neurológicas). Es fundamental la colaboración entre las diferentes especialidades implicadas, dada la gran variabilidad de enfermedades, la frecuente participación de diferentes factores en su génesis y los diferentes tratamientos que deben aplicarse. Se ha procedido a una amplia revisión bibliográfica de estas otras causas de síndrome de la apnea-hipoapnea obstructiva del sueño infantil, que van más allá de la hipertrofia adenoamigdalar. Se han intentado ordenar de una forma coherente, a criterio del autor, revisando los aspectos más destacados con relación a la prevalencia de síndrome de la apnea-hipoapnea obstructiva del sueño en cada una de ellas, los motivos por los que provocan este síndrome, sus interacciones y manejo (AU)

The prevalence of obstructive sleep apnea-hypopnea syndrome in the general childhood population is 1-2% and the most common cause is adenotonsillar hypertrophy. However, beyond adenotonsillar hypertrophy, there are other highly prevalent causes of this syndrome in children. The causes are often multifactorial and include muscular hypotonia, dentofacial abnormalities, soft tissue hypertrophy of the airway, and neurological disorders). Collaboration between different specialties involved in the care of these children is essential, given the wide variability of conditions and how frequently different factors are involved in their genesis, as well as the different treatments to be applied. We carried out a wide literature review of other causes of obstructive sleep apnea-hypopnea syndrome in children, beyond adenotonsillar hypertrophy. We organised the prevalence of this syndrome in each pathology and the reasons that cause it, as well as their interactions and management, in a consistent manner (AU)

Transcriptomic analysis identifies phosphatases as novel targets for adenotonsillar hypertrophy of pediatric obstructive sleep apnea.

RATIONALE: Obstructive sleep apnea (OSA) is a highly prevalent disorder in children, in which enlarged adenotonsillar tissues (AT) play a major pathophysiologic role. Mechanisms leading to the proliferation and hypertrophy of AT in children who subsequently develop OSA remain unknown, and surgical extirpation of AT is associated with potential morbidity and mortality. OBJECTIVES: We hypothesized that a computationally based analysis of gene expression in tonsils from children with OSA and children with recurrent tonsillitis without OSA can identify putative mechanistic pathways associated with tonsillar proliferation and hypertrophy in OSA. METHODS: Palatine tonsils from children with either polysomnographically documented OSA or recurrent infectious tonsillitis were subjected to whole-genome microarray and functional enrichment analyses followed by significance score ranking based on gene interaction networks. The latter enabled identification and confirmation of a candidate list of tonsil-proliferative genes in OSA. MEASUREMENTS AND MAIN RESULTS: In vitro studies using a mixed tonsil cell culture system targeting one of these candidates, phosphoserine phosphatase, revealed that it was more abundantly expressed in tonsils of children with OSA, and that pharmacological inhibition of phosphoserine phosphatase led to marked reductions in T- and B-lymphocyte cell proliferation and increased apoptosis. CONCLUSIONS: A systems biology approach revealed a restricted set of candidate genes potentially underlying the heightened proliferative properties of AT in children with OSA. Furthermore, functional studies confirm a novel role for protein phosphatases in AT hypertrophy, and may provide a promising strategy for discovery of novel, nonsurgical therapeutic targets in pediatric OSA.

Enzymatic study of tonsil tissue alkaline and acid phosphatase in children with recurrent tonsillitis and tonsil hypertrophy.

OBJECTIVE: Indications for tonsillectomy in recurrent tonsillitis are defined according to the number of episodes of acute bacterial infections in a year. However, little is known about the tonsil immune competence status in patients presenting with recurrent tonsillitis with either hypertrophied or atrophied tonsils, or in patients presenting with obstructive sleep apnoea. In this study we examined the tonsil immune status in children with 3-5 acute recurrent infections a year and in children with obstructive sleep apnoea by comparing the activity of tonsil and adenoid tissue nonspecific alkaline and acid phosphatase. METHODS: Specific activity of tonsil and adenoid tissue nonspecific alkaline and acid phosphatase was investigated in children who underwent tonsillectomy and adenoidectomy for recurrent infection (72 children) and for obstructive sleep apnoea (10 children). Tissue enzyme activities were measured using p-nitrophenylphosphate as a substrate. Tissue samples were examined by the haematoxylin-eosin histological technique. Statistical analyses were performed using SPSS v. 16 software. RESULTS: The tissue nonspecific alkaline phosphatase activity was similar in hypertrophied tonsils in the recurrent infection group and in the obstructive sleep apnoea group (3.437+/-1.226 and 3.978+/-0.762 U/mg of protein, respectively). The enzyme activity in both hypertrophied tonsil groups was significantly higher as compared to atrophied tonsils in the recurrent tonsillitis group, p=0.021 and p=0.006, respectively. The enzyme activity was significantly higher in the adenoids compared to the tonsils from all three groups. Contrary to this, no significant differences were noticed for tonsil and adenoid acid phosphatase activities among the groups. CONCLUSION: Similar acid phosphatase activity in all three groups implies that all three groups have preserved antigen presenting cell activity. In patients with hypertrophied tonsils similar tissue nonspecific alkaline phosphatase activity suggests preserved B cell tonsil immune activity, regardless of the pathology. Patients with atrophied tonsils had significantly lower alkaline phosphatase activity, indicating relative tonsil B cell immune deficiency. Thus, different immunological status in patients presenting with hypertrophied vs. atrophied tonsils could point to a different underlying pathophysiologic mechanism of the disease.

Alteration of adenoid tissue alkaline and acid phosphatase in children with secretory otitis media.

OBJECTIVE: The role of pharyngeal lymphoid tissue in etiopathogenesis of secretory otitis is not yet defined. The influence of tonsillar and adenoid mass, weight, obstruction of naspharyngeal orrifitium, bacterial reservoire or some immunological events are of scientific interest. Tissue nonspecific alkaline phosphatase (TNAP) and acid phosphatase (ACP) are enzymes detected in lymphoid tissue, TNAP as characteristic of B cells, ACP as a characteristic of macrophages and folucullardentritic cells. These enzymes interfere in cell metabolism by removing 5' phosphate group from nucleotides and proteins. Specific activity and kinetic properties were studied in palatinal tonsils and adenoids of children with secretory otitis (OME) and compared with children with recurrent tonsillitis without ear involvement. METHOD: Adenoid and tonsillar tissue of l7 children with OME and 30 children with recurrent tonsillitis were subjected to biochemical investigation using method of releasing of p-nitrophenol from p-nitrophenylphosphate (pNPP). Kinetic parameters as Michaelis-Menten constant were calculated by non-linear regression estimation method. RESULTS: Specific activity of adenoid alkaline phosphatase was lower in children with OME in relation to children with recurrent tonsillitis (t=5.733507, p<0.01). Specific activity of adenoid acid phosphatase was also lower in children with OME (t=3.655456, p<0.01). pH optimum for both enzymes was the same in these two groups of children. Michaelis-Menten constant for both enzymes was significantly higher in adenoid of children with OME than in children with recurrent tonsillitis suggesting lower enzyme affinity for the substrate. CONCLUSION: Differences in specific activities and kinetic properties of adenoid alkaline and acid phosphatases between children with OME and children with recurrent tonsillitis without OME were verified in this study. The results of the study are not able to explain the alteration of alkaline and acid phosphatase characteristics but could point to some possible and specific role of nasopharyngeal lymphoid tissue in pathogenesis of secretary otitis.

The potential inflammatory role of arginase and iNOS in children with chronic adenotonsillar hypertrophy.

OBJECTIVE: Nitric oxide (NO) induced tissue damage has been implicated in the pathogenesis of several diseases. Although recurrent/chronic tonsillitis and hypertrophy are still the most frequent surgical procedures carried out on children in order to cure these pathologies, etiopathogenetic mechanisms underlying these entities are still unknown. We aimed to investigate the potential inflammatory role of NO regulatory enzymes, arginase and inducible nitric oxide synthase (iNOS), in children with adenotonsillar hypertrophy. MATERIALS AND METHODS: The study consisted of 22 children with chronic adenotonsillar hypertrophy and 30 control subjects with similar age and sex. All the patients and/or their parents had complaints of snoring, mouth breathing and pausing of breathe during sleep at least 6 months. All patients underwent an adenotonsillectomy operation under general anesthesia with curettage and cold dissection methods. Venous blood samples were taken pre-operatively and 4 weeks post-operatively. iNOS activity was based on the diazotization of sulfanilic acid by nitric oxide at acid pH and subsequent coupling to N-(1-naphthtyl)-ethylenediamine. Arginase activity was measured by the spectrophotometric method. RESULTS: The mean pre-operative and post-operative arginase activities in patient group were 4283.7 +/- 1823.7 and 2754.5 +/- 889.3 IU/L, respectively. In the control group, mean arginase activity was 2254.7 +/- 903 IU/L. When pre-, post-operative and control arginase values were compared with each other, the mean activity in pre-operative activity was significantly different from the post-operative and control values (p < 0.001). In the patient group, the mean levels of pre- and post-operative iNOS were 2.84 +/- 1.16 and 1.99 +/- 0.78 IU/ml, respectively. The difference was statistically significant (p = 0.007). Similarly, post-operative and control values were not significantly different (p > 0.05). CONCLUSION: The results of the present study supports that L-arginine:NO pathway may be key the participant in the pathogenesis of chronic adenotonsillar disease; arginase and iNOS activities are altered in children with adenotonsillar hypertrophy and this alteration improves after tonsillectomy.

[Oxidative profile of tonsil infection. Study of antioxidant enzymes in tonsil and blood]. / Perfil oxidativo de la infección amigdalar. Estudio de las enzimas antioxidantes en amígdala y sangre.

In order to investigate the effect of oxidative damage due to free radicals on ENT infectious diseases, levels of superoxide dismutase (SOD), glutathione-peroxidase (GPx) and reductase (GRt) and the total antioxidant status (TAS) were measured by spectrophotometry on tonsillar tissue obtained from tonsillectomy in 538 patients, who were divided in three groups according to their surgical indication: tonsillar hypertrophy (n = 235), recurrent tonsillitis (n = 280) or peritonsillar abscess (n = 23). SOD concentration were also measured on adenoid tissue and middle ear exudate in 75 patients from the first two groups. Erythrocyte and tonsillar SOD levels were significantly greater in the abscess group, and lower in the hypertrophic one. These differences were similar for GPx and TAS. For GRt, its level in abscess were lower than in the other two groups in a statistically significant way. There were strong correlations between erythrocyte and tonsillar SOD, tonsillar SOD and GPx, tonsillar SOD and TAS, and tonsillar GPx and TAS. SOD concentrations from adenoid tissue and middle ear exudate did not affect its blood level. So, we can conclude that tonsillar oxidative damage is determined by the frequency or the severity of local infections, and it can be evaluated by measuring the SOD concentration in the tonsillar tissue or in the peripheral blood. So, it can be considered a good marker of tonsillar damage.