INTRODUCTIONThe obstructive sleep apnea syndrome (OSA) is a chronic and evolution disease presenting high morbidity and mortality rates, affecting 4% of men and 2% of women. It presents a wide range of symptoms, among which we have snoring (90% of cases), increased daytime somnolence, mood changes, daytime headache, sexual impotence, decreased intellectual performance and cardiologic and neurological disorders as the most important signs1. Apneas and hypopneas are, respectively, the interruption and reduction of air flow of the upper airways (UA) with minimal duration of 10 seconds, occurring repeatedly and exclusively during sleep.2,3 Nasal obstruction is a relatively common problem that may harm quality of life and cause or worsen cases of night apnea. Structural alterations such as septal deviation, traumatic lesions, neoplastic lesions and polyps, fall of nasal valve, adenoid enlargement and presence of foreign bodies are among the main causes of nasal obstruction4.
Patient's evaluation with suspected OSA must include anamnesis comprehending graded scale for snoring and sleepiness. Regarding complementary exams, anterior and posterior rhinoscopy, oroscopy and nasofibrolaryngoscopy with rigid and/or flexible endoscopes to establish the possible site of structural alterations related to the syndrome5. Polysomnography, a generic term referring to the simultaneous registry of physiological variables during sleep, such as electroencephalography (EEG), electromyography (EMG), electrocardiogram (ECG), nasal and oral air flow, respiratory effort and blood gases (oxygen saturation and carbon dioxide concentration), is the elective examination to classify OSA. Therefore, added to the number of the respiratory event (called AHR - apnea-hypopnea rate per hour6), this is an essential procedure to select the correct approach for each case.
OSA's treatment may be clinical or surgical and is directly related to AHR, which classifies the disease into mild (AHR 5 to 15), moderate (AHR 15 to 30) and severe (AHR above 30). In patients up to AHR 15, auxiliary methods should be considered important in the treatment of this pathology, as well as behavioral attitudes such as losing weight, avoiding alcohol beverages and sedatives, as well as smoking cessation7.
Currently, the most adopted clinical treatment for OSA is mask application, with continuous positive airway pressure (CPAP) bound to an air compressor. Apnea and snoring respond well to CPAP in patients with AHR above 30, once they present immediate improvement and high mask tolerance7. Adequacy and comfort of the mask associated with CPAP adequate pressure definition is the most relevant factor for treatment efficacy8.
Surgical treatment of nasal structural alterations, such as septoplasty, turbinectomy and polypectomy, offers limited efficiency in the treatment of adults with OSA, although it improves tolerance to CPAP 9.
Several surgical approaches have been proposed and the type chosen is related to severity of OSA, as well as to nasal, pharyngeal and craniofacial alterations previously found. The procedures performed include: pharyngeal (tonsillectomies, uvulopalatopharyngoplasty with cautery or laser and palatal radiofrequency); nasal (septoplasty, turbinectomy and conchal cauterization); maxillary-facial (maxillo-mandibular advancement).
The present study aims at demonstrating that structural alterations of the nasal cavity, such as septal deviation and conchal hypertrophy, are highly frequent among OSA patients and should be referred for surgical approaches (septoplasty and/or turbinectomy) associated with other specific procedures of this syndrome.
METHODThis is a retrospective study comprehending 200 patients that were assisted at Hospital Prof. Edmundo Vasconcelos (SP) and at Unidade Paulista de Otorrinolaringologia due to sleep disordered breathing, in the period of March 1992 and December 2003. All patients were submitted to directed anamnesis, comprehensive otorhinolaryngological exam and nasofibroscopy with Muller maneuver and polysomnography. Treatment was indicated after outcome analysis. Other evaluated disorders included cranio-maxillo-facial disorders, obesity, body mass index (BMI), arterial hypertension, diabetes mellitus and behavioral habits.
Surgical treatment was indicated based on the structural alterations of the upper airways, facial skeleton and polysomnographic classification, to which apnea-hypopnea rate (AHR) and oxyhemoglobin saturation are greatly relevant. Nasal surgical procedures included septoplasty and/or turbinoplasty, while pharyngeal surgeries included uvulopalatopharyngoplasty, uvulopalatoplasty with cautery or laser.
RESULTSOut of 200 patients, 196 were men (98%) and 4 were women (2%) (Table 1) within the age range of 22 and 66 years. Surgeries performed included: uvulopalatopharyngoplasty with septoplasty and turbinoplasty 5, uvulopalatoplasty with cautery, with septoplasty and turbinoplasty (161), uvulopalatoplasty with cautery and turbinoplasty2,4 and uvulopalatoplasty with laser, plus septoplasty and turbinoplasty10.
These procedures were grouped according to nasal structural disorders: 176 septoplasties with turbinoplasties (88%) and 24 turbinoplasties (12%) (Table 2).
DISCUSSIONEven though some authors6 agree that the surgical treatment of nasal structural alterations, such as septal deviation and conchal hypertrophy, offers limited efficiency in treatment of OSA, there are several factors supporting this therapeutic approach. Nasal obstruction and consequent mouth breathing lead to growth and craniofacial development disorders, especially during the first years of life. This fact is due to fast growth of facial structures, particularly of the mid-third of the face, overcoming skull development.
A mouth breather has a lower tongue posture, in close contact with the mouth floor, and low pressure over the palate. This results in high palate and maxillary narrowing and consequent deviation of the upper dental arch, leading to cross bite. Tongue posture disorders, muscular tonus and inadequate dental occlusion also cause suction alterations, atypical chewing and deglutition. Persistence of these disorders in adolescence and adult age is firstly related to important cause of snoring10,11 and, secondly, to progressive and persistent apnea and/or hypopnea.
Considering these issues, we believe that those data are relevant in OSA's genesis, in which nasal obstruction is a very important factor that should be treated.
This study shows evidences of nasal disorders in patients with OSA. All patients (200) were submitted to surgical procedures in order to enhance the retro-palatine space (Table 1) and nasal obstruction was approached simultaneously (176 septoplasties with partial turbinectomies and 24 single turbinectomies), which is a procedure supported by several studies10,12.
Another important aspect is that some patients, along OSA's evolution, even after undergoing surgery, may eventually use CPAP for a more effective control. In addition, surgical treatment may probably improved CPAP tolerance since patients with nasal obstruction have enhanced positive pressure11-13.
Finally, it is our opinion that diagnostic approach of nasal structural alterations - particularly septal deviation and/or conchal hypertrophy, polyps or other pathology leading to obstruction of natural air flow, is of great relevance in the assessment of patients with suggestive symptomatology of sleep disordered breathing.
Concomitant treatment of these disorders and of OSA has proved to be feasible and, when associated with surgical and/or clinical procedures, such as CPAP, it offers great chances to reach improved outcomes in these patients.
REFERENCES1. Pinto JA. Síndrome da Apnéia Obstrutiva do Sono: Uma Tarefa Multidisciplinar. In: Pinto JA. Ronco e Apnéia do Sono. Revinter 2000; 1:1-2.
2. Aloe F. Distúrbio Respiratório Sono-Dependente. In: Pinto JA. Ronco e Apnéia do Sono. Revinter 2000; 5: 21-32.
3. Maniglia JV. Cirurgia Nasal: Impacto no Sono e na Respiração. In: Pinto JA. Ronco e Apnéia do Sono. Revinter 2000; 19: 167-8.
4. Sher AE. Obstructive Sleep Apnea Syndrome: a complex disorder of the upper airway. Otolaryngol. Clin North Am 1990; 23: 593-608.
5. Series F, Pierre SS, Carrier G. Effects of surgical correction of nasal obstruction in the treatment of obstructive sleep apnea. Am Rev Resp Dis 1992; 145: 1261-5.
6. Woodhead CJ, Davies JE, Allen MBT. Obstructive sleep apnea in adults presenting with snoring. Clin Otolaryngol 1991; 16: 401-5.
7. Aloe F, da Silva AB. Sono normal e Polissonografia. In: Pinto JA. Ronco e Apnéia do Sono. Revinter 2000; 3: 9-16.
8. Silva AB, Lopes EA. Distúrbios do sono. Rev Bras Med 2001; 58: 225-35.
9. McNicholas WT. Follow-up and outcomes of nasal CPAP therapy in patients with sleep apnea syndrome. Monaldi Arch Chest Dis 2001; 56(6): 535-9.
10. Barthel SW, Strome M. Snoring, Obstructive sleep apnea, and surgery. Med Clin North Am 1999; 83(1): 85-96.
11. Chervin RD, Theut S, Basseti C, Aldrich MS. Compliance with nasal CPAP can be improved by simple interventions. Sleep 1997; 20(4): 284-9.
12. Katsantonis GP, Schwitzer PK, Branham GH, Chambers G, Walsh JK. Management of obstructive sleep apnea: comparison of various treatment modalities. Laryngoscope 1988; 98: 304-9.
13. Desfonds P, Plànes C, Fuhrman C, Foucher A, Raffestin B. Nasal resistance in snorers with and without sleep apnea: effect of posture and nasal ventilation with continuous positive airway pressure. Sleep 1998; 21(6): 625-32.
Master studies under course.
Faculty, Post-graduation course, Hospital Heliópolis.
Resident Physician in Otorhinolaryngology, Hospital Prof. Edmundo Vasconcelos.
Ph.D. in Otorhinolaryngology, UNIFESP.
Study carried out at Hospital Prof. Edmundo Vasconcelos
Address correspondence to: Levon Mekhitarian Neto - R. José Maria Lisboa 397 Jardim Paulista 01423-000 Sao Paulo SP.
Article submitted on 9/Mar/2005 and approved on 14/Jun/2005.