Abstract
Adenotonsillectomy (A&T) is a very common surgical procedure in children. Over the past 20 years the principal indication for A&T in children has changed from recurrent adenotonsillitis to obstructive sleep apnea. The physiopathology of obstructive sleep apnea syndrome (OSAS) is multifactorial and obesity has been shown to be one of the main factors correlated with its occurrence. On the other hand, the prevalence and severity of childhood obesity have become a veritable epidemic problem in the past 30 years. So the increasing prevalence of obesity in children and high prevalence of obstructive sleep apnea in obese children implies that an increasing number of these children will present for A&T. Due to more prevalent anatomical alterations of the oronasopharyngeal airways, it is often difficult to predict operation success in obese children. However, previous studies supports that although the risk of presence of residual symptoms of OSAS and airway-related perioperative complication in obese may be more than nonobese group, A&T is effective to reduce obstructive symptoms and improve quality of life in obese children with OSAS.
Introduction
Pediatric sleep disordered breathing (SDB) is caused by a combination of increased upper airway resistance and repetitive pharyngeal collapsibility, resulting in intermittent hypoxemia and arousal from sleep.Citation1 SDB with associated apneas or hypopneas affects between 1% and 3% of children and is called obstructive sleep apnea syndrome (OSAS).Citation2 The main cause of SDB in children is adenotonsillar hypertrophy.Citation3,Citation4 However, obesity is known to be another risk for SDB. The prevalence and severity of childhood obesity have become a veritable epidemic problem in the past 30 years. Hence, this worldwide epidemiologic evidence leads to a corresponding increase in the prevalence of diseases including SDB. Previous studies showed that severity of obstructive sleep apnea (OSA) seems to be proportional to the degree of obesity.Citation5–Citation7 The risk of SDB has been reported to be 4.6-fold higher among obese than in normal-weight children aged 2–18 years, with the risk of SDB increasing by 12% for every 1 kg/m2 body mass index (BMI) increment above mean BMI 0.5. If children with SDB, especially in its OSAS form, are not treated or treated too late, they may develop high morbidity.Citation8 It has been shown that untreated OSA is associated with adverse cardiovascular, neurocognitive, and somatic growth consequences.Citation9–Citation13
In a recent review, Arens et al established a clear definition of different phenotypes of OSAS in children.Citation6 According to this definition there would be four reasons which are associated with OSAS. These are adenotonsillar hypertrophy and increased collapsibility of the upper airways, craniofacial malformations and certain syndromes (Down syndrome and Pierre-Robin syndrome), primary neuromuscular disorders, and obesity. The prevalence of OSAS among obese children seems to be higher than that of other phenotype and could increase the risk more than four times.Citation14,Citation15
Diagnosis
Accurate diagnosis of OSAS is made with polysomnography (PSG), but this is not easily employed, is expensive, and usually not possible at office practices. Due to PSG’s disadvantages, answers provided via a symptom questionnaire, physical examination findings, lateral radiographs, fiberoptic endoscopy, and acoustic rhinometry have been advocated as reliable in detecting the adenotonsillar hypertrophy and its connection to upper airway obstruction.Citation16–Citation19 Hence, all these methods can be used to decide about the treatment options (observation or surgery).
OSAS and obesity
The prevalence of OSA in obese children appears to be between 30% and 40%.Citation20,Citation21 In the general population, the prevalence of OSA is approximately 1%.Citation22 In a case-control study design, Redline et al examined the risk factors for SDB in children aged 2–18 years, and they found that the risk among obese children was increased four- to fivefold.Citation5 However, it could be argued that such high figures overestimate the problem. In addition, although several investigators have previously noted the higher prevalence and severity of OSA among obese children, they could not find a strong relationship between the degree of obesity and the severity of respiratory disturbance during sleep.Citation23–Citation25 So the validity of a “straightforward” association between overweight/obesity and increased prevalence of SDB has been questioned.Citation26 Many of these studies which have been designed to investigate SDB and obesity relationship are biased, since they have been conducted on populations of children referred for the presence of OSAS. Other have been conducted on relatively small samples.Citation8,Citation14 In More et al’s study, it does not emerge that the group of children with SDB presents higher rates of obesity, nor does obesity influence its presentation clinically.Citation27 Verhulst et al reported the presence of OSA in 19% of obese patients and 41% of overweight children who were referred for initial evaluation and management in an obesity clinic but did not find any correlation between BMI z score and obstructive apnea–hypopnea index (OAHI).Citation28 On the other hand, the reason for such discrepant findings may reside in the limitations imposed by the reporting of obesity in terms of BMI. Clearly, BMI does not reflect body habitus and does not measure adiposity directly. Therefore, the potential mass effect of adipose tissue on the upper airway may not be reflected by traditional BMI measures, which will also fail to point toward interactions of fat tissues with developing upper airway system. In addition, More et al explained that their results had probably been influenced by the characteristics of the studied population and therefore should not be an obstacle for being attentive to the possible association of respiratory disease to obesity and its negative consequences.Citation27 Moreover, OSAS and obesity interrelation was also demonstrated when the prevalence of SDB was examined in the general population.Citation5,Citation24,Citation29
It has been postulated that decreased activity and hypersomnolence, both known to be consequences of OSA in children, may lead to obesity.
Several pathophysiological mechanisms are thought to contribute to the association of obesity and OSAS.Citation8,Citation14,Citation30,Citation31 Obesity would contribute through an increase in airway closure critical pressure and fatty infiltration of upper airway structures would favor their tendency to collapse.Citation8,Citation14,Citation30,Citation32 The high prevalence of OSA in obese children is associated with a decrease in the cross-sectional area of the pharynx. The cause of this decrease is multifactorial. Childhood obesity is associated with narrowing of the upper airway caused by adipose tissue adjacent to the pharyngeal airway.Citation6 In addition, there may be external compression of the upper airway by fat in the subcutaneous tissues of the neck.Citation33 Enlarged tonsils and adenoids in obese children further decrease the cross-sectional area of the pharynx.Citation21
The upper airway morphology is largely influenced by adenotonsillar and facial growth patterns that display discrepancies in OSA children of different ages and levels of adiposity.Citation12,Citation13 Therefore, the magnitude of adenotonsillar effects on childhood OSA may be altered by age and obesity.Citation34
Adipose tissue deposited around the pharynx and neck, along with hypertrophic adenoids and tonsils, largely contribute to obstructive sleep syndrome in obese children.Citation13,Citation35 Physicians rationally infer that obese children, with equal adenotonsillar size, have higher apnea–hypopnea index (AHI) than nonobese children. In their study, Dayyat et al retrospectively identified two large cohorts of closely OAHI-matched pediatric patients with OSA who were also matched for age, sex, and ethnicity, and who differed only in their BMI. They found that the magnitude of adenotonsillar hypertrophy required for any given magnitude of OAHI is more likely to be smaller in obese children compared to nonobese children. They also concluded that increased Mallampati scores in obese children suggest that soft tissue changes and potentially fat deposition in the upper airway may play a significant role in the global differences in tonsillar and adenoidal size among obese and nonobese children with OSA.Citation30
OSA represents the end point of the interactions between multiple factors contributing to upper airway collapsibility during sleep, which also include neuromotor responses as well as other important anatomic factors such as retrognathia and upper airway length.Citation36
In addition to adenotonsillar hypertrophy, however, excess fatty infiltration of upper airway soft tissues along with reduced lung volume and oxygen reserve because of fat deposition around the abdomen and thorax, have been regarded as the primary factors contributing to OSAS in obese children.Citation8,Citation37 The proportion of respiratory disturbances during sleep was found markedly increased among obese children.Citation20
The reoccurring desaturation–reoxygenation process has been shown to induce oxidative stress and promote the formation of reactive oxygen species which are the greatest contributors to the generation of adhesion molecules, the production of leukocytes and the activation of the leukotriene pathway.Citation4,Citation38,Citation39
In particular, obesity, especially visceral obesity, is one of the major confounders in the analysis of the association between SDB and inflammation.Citation40 Indeed, obesity directly induces a low-grade inflammatory state because adipocytes can produce numerous cytokines.Citation41
Shen et al measured concentration of leukotriene E4 in morning urine to evaluate systemic inflammation. They found that the magnitude of inflammation as reflected by urinary LTE4 is significantly related to the severity of SDB and obesity.Citation42 However, although inflammation plays a significant role in the pathophysiology of SDB, it cannot be determined whether that inflammatory mechanism is a cause, a consequence, or both in the disorder.Citation43
Adenotonsillectomy
Adenotonsillectomy (A&T) is one of the most common major surgical procedures performed in children.Citation44 Over the past 20 years the principal indication for A&T in children has changed from recurrent adenotonsillitis to OSA.Citation8 It is often performed to resolve the symptoms of OSA, a condition that is more prevalent in overweight and obese children.Citation45 Recent studies have shown that A&T produces an improvement in the physiological parameters of sleep and a dramatic change in quality of life. Suen et al used PSG to evaluate the effectiveness of A&T in treating OSA in 26 children. And all 26 children had a lower respiratory disturbance index after surgery, although four patients still had an respiratory disturbance index greater than 5.Citation46 Mitchell et al studied changes in quality of life in children after A&T for OSA documented by full-night PSG. Since total OSA-18 score was 71.4 before surgery and 35.8 after surgery, they detected improvement of quality of life after A&T in children with OSA.Citation47
The increasing prevalence of obesity in children and high prevalence of OSA in obese children implies that an increasing number of these children will present for A&T. In their prospective study Kudoh and Sanai showed that A&T was effective in decreasing irregular breathing and oxygen desaturation during sleep as measured by pulse oximetry. In their study the percentage of sleeping period with irregular breathing ranged from 10% to 85% before the operation and it decreased almost 0 after the operation.Citation48
Soultan et al reported that treatment of OSA by A&T in obese and morbidly obese children lead to clinical improvement of the OSA, but would not help with weight reduction and might even exacerbate obesity. They thought that attention should have been paid to reduce weight by measures such as exercise, diet, and behavioral therapy, in addition to treatment of the OSA.Citation21 In another study, Goldstein et al reported behavioral, emotional, and improvement of quality of life after A&T by using OSA-18 and the Child Behavior Checklist in the general population of children with OSA.Citation49
Wang et al compared tonsil height, tonsil width, tonsil thickness, tonsil weight, and tonsil volume in 26 obese and 26 age- and sex-matched control children with SDB. And they concluded that obese children had larger palatine tonsils than the normal-weight children with SDB. This finding suggests that larger palatine tonsils may have a greater effect on upper airway obstruction in obese than in normal-weight children with SDB.Citation31
The risk of persistence of obstructive sleep apnea–hypopnea syndrome in obese children after correct treatment or that of complications in the immediate postoperative period when treatment is surgical have also been widely reported.Citation8,Citation50,Citation51
It was concluded that obese children with OSAS showed a dramatic improvement after A&T and the mean reduction of AHI was greater in obese than in nonobese children although the frequency of residual OSAS was higher among obese than normal-weight children with OSAS.Citation50 On the other hand, a recent study showed that the efficacy of A&T for SDB was similar for obese and nonobese children under 10 years of age, suggesting that adenotonsillar hypertrophy may be more important than obesity in the pathogenesis of SDB in young children.Citation52 Moreover, the frequency of postoperative AHI does not differ significantly between obese and nonobese children in the same study.
Nafiu et al have shown, in a large population of children undergoing A&T, that overweight/obese children were more likely to have airway-related perioperative complications than their lean peers. With the growing childhood obesity, it is prudent to assume that more children presenting for A&T may be either overweight or obese and have medical co-morbidities like diabetes, hypertension and asthma and may therefore require in-patient care.Citation53
In conclusion, although the risk of presence of residual symptoms of OSAS and airway-related perioperative complication in obese may be more than nonobese group, A&T is effective to reduce obstructive symptoms and improve quality of life in obese children with OSAS.
Disclosure
The authors report no conflicts of interest in this work.
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