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1 8 Obstructive Sleep Apnea Syndrome
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Pickwickian Syndrome Obstructive sleep apnea was called the Pickwickian syndrome in the past because Joe the Fat Boy who was described by Charles Dickens in the Pickwick papers had typical features with snoring, obesity, sleepiness.
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DEFINITION Obstructive Sleep Apnea Syndrome (OSAS) is one of the most important conditions identified in the last 50 years. OSAS is characterized by recurrent episodes of complete or partial upper airway obstruction during sleep, usually associated with a reduction in blood oxygen saturation and daytime sleepiness (due to sleep fragmentation).
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CONSEQUENCES OF SLEEP APNEA This recurrent breathing difficulty is associated with increased respiratory efforts which prevent the brain from entering the deep stages of sleep and causes: excessive daytime sleepiness, cognitive dysfunction, impaired quality of life, increased cardiovascular morbidity and mortality.
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OSAS & Cardiovascular Diseases Uncontrolled hypertension (HT) - 83% have OSAS due to activation of sympathetic drive. Acute coronary syndrome- 40-50% has OSAS Cardiac arrhythmias - mostly Atrial fibrillation Heart Failure Sudden cardiac death Stroke
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OSAS and diabetes Patients with sleep apnea and AHI>10 are much more likely to have impaired glucose tolerance and diabetes (Meslier et al Eur Respir J 2003)
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Prevalence of OSAS In USA, prevalence of OSAS among middle-aged men and women were 4% and 2% (Young et al)
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Predisposing Factors of OSA male gender age obesity (defined by a high body mass index) Increased waist/hip ratio smoking Shortening of the mandible and/or maxilla (the change can be subtle and familial) Hypothyroidism & acromegaly by narrowing the upper airway with tissue infiltration Myotonic dystrophy, Ehlers-Danlos
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Mechanism of OSAS The upper airway dilating muscles,like all striated muscles, normally relax during sleep. In OSAS, the dilating muscles can no longer successfully oppose negative pressure in the airway during inspiration. Apneas and hypopneas are caused by the airway being closed on inspiration during sleep.
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Symptoms of OSA Night time Snoring Witnessed apnoea Frequent nocturnal awakenings Waking up choking or gasping for air Unrefreshed sleep Restless sleep nocturia Dry mouth decreased libido
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Symptoms of OSA Daytime Early morning headaches Fatigue Daytime sleepiness Poor memory, concentration or motivation Unproductive at work Falling asleep during driving Depression
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Diagnosis A good sleep history Assessment of obesity, ENT Assessment of possible predisposing causes: hypothyroidism, acromegaly and Polysomnography: gold standard tool Polygraphy
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The Epworth Sleepiness Score How often are you likely to doze off or fall asleep in the following situations, in contrast to feeling just tired? 0 = would never doze 1 = slight chance of dozing 2 = moderate chance of dozing 3 = high chance of dozing
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The Epworth Sleepiness Score Sitting and reading 2 Watching TV 3 Sitting in active in a public place (e.g. a theater or meeting) 3 As a passenger in a car for an hour without a break 2 Lying down to rest in the after noon When circumstances permit 2 Sitting and talking to some one Sitting quietly after a lunch with out alcohol 1 In a car while stopped for a few minutes in traffic Total (>12 is pathologic) 13!
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DIAGNOSIS OF SLEEP APNEA To diagnose OSAS, the breathing pattern during sleep is analyzed for the presence of episodes of breathing cessation (apneas). The total number of apneas divided by the total sleep time represents apnea index (AHI). The cut off level for OSAS diagnosis is: AHI > 5/hour
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Apnea-Hypopnea severity AHI<5 Normal AHI 5-15 Mild OSA AHI 15-30 Moderate OSA AHI >30 Severe OSA
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DIAGNOSIS OF SLEEP APNEA The gold standard for diagnosis of OSAS is nocturnal polysomnography, a simultaneous recording of several physiologic parameters: brain waves, eye movements, muscle activity, chest movements, air flow, and blood oxygen saturation - that must be performed by trained technologists using expensive equipment
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Airflow Tracheal mycrophone ECG Thoracic belt Abdominal belt Pulse-oxymeter Tibial EMG POLYGRAPHY Spitalul Clinic de Pneumologie Iasi – D.Boisteanu
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Current Treatment for OSAS NON - SURGICAL –Weight loss –CPAP –Body position –Oral appliances –Drugs SURGICAL –Tracheostomy –UPPP –Glossectomy –Hyoid advancement –Mandibular advancement
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Weight Loss 10% weight loss predicted a 26% reduction in AHI Peppard PE et al. JAMA 2000; 284: 3015-21
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Body Position Raise head of bed Avoid supine position Strategies Tennis ball in pajamas Backpacks
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CPAP Therapy Works as a pneumatic splint 1 st choice of treatment in moderate to severe OSAS Success rate 95-100% Long term compliance 60-70% Retitrate pressure if needed
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CPAP Therapy- Side Effects Nasal congestion Rhinorrhoea Oronasal dryness Skin abrasions/ rash Conjunctivitis from air leak Chest discomfort Claustrophobia
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Oral Appliances □ Appropriate first-line treatment for Mild OSA, primary snoring, upper airway resistance syndrome (UARS) □ Not as effective as CPAP, 52% OSA have AHI<10% □ Young, non-obese □ Second line therapy for moderate-severe OSA □ Patient’s choice - Not tolerating / refuse to use CPAP, or are not surgical candidates MAD TRD
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Heinzer Esmarch Spitalul Clinic de Pneumologie Iasi – D.Boisteanu Oral Appliances
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Side Effects Excessive Salivation Temporo-mandibular joint discomfort Proprioceptive malocclusion Xerostomia Myofacial pain Pantin et al. Sleep, 1999
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Surgery Nose: nasal surgery UPPP (uvulo-palato-pharingo-plasty) Retrolingual pharynx: - mandibular advancement, - lingual plasty and resection, - mandibular osteotomy, - genioglossus advancement with hyoid myotomy & suspension (GAHM), - maxillary & mandibular advancement osteotomy(MMO) High perioperative risk
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TREATMENT OF SLEEP APNEA Nasal continuous positive airway pressure (CPAP), is the treatment of choice for obstructive sleep apnoea (OSAS) syndrome. Treatment of OSAS by fixed positive airway pressure (CPAP) requires an in-laboratory titration procedure to determine the effective pressure level (Peff).
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INSUFLATION OF AIR WITH POSITIVE PRESSURE ON A NASAL MASK MENTAINS THE PERMEABILITY OF THE NOSE AND THROAT DURING SLEEP
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EFFECTIVE PRESSURE LEVEL The effective pressure level is the one that abolishes obstructive breathing disorders, including apneas, in every sleep stage and body position. It is usually determined during a sleep study with continuous acquisition of electrophysiologic parameters, respiratory flow, respiratory efforts and pulse oximetry.
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INTELLIGENT AIRFLOW GENERATORS (1) In 1993 Berthon-Jones explored the possibility of using computer power to drive a turbine according to the analysis of physiologic signals to construct an intelligent, very fast-reacting airflow generator named auto-titrating positive pressure device (APAP).
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INTELLIGENT AIRFLOW GENERATORS (2) These devices will deliver pressures only when necessary: changes of pressure will take place gradually to minimize potential sleep disruption, the unit will effectively compensate mask leaks, will detect all known variations of sleep related airway obstruction and will detect the transition from abnormal to normal breathing and reduce pressure accordingly.
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INTELLIGENT AIRFLOW GENERATORS (3) The ability to respond to a variety of breathing conditions is an advantage for the patient at home because his respiration can change during one night (in relation to sleep position, alcohol intake, sleep stage, etc) and from night to night due to changes in weight and lifestyle.
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AIRFLOW GENERATORS USED BY SLEEP APNEA PATIENTS
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Many patients get APAP devices for long-term treatment and can be monitored for compliance and efficacy using the memory capability in the APAP units.
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VPAP: ADAPT SERVO- VENTILATION
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CONCLUSION Both automatic (APAP) and fixed pressure (CPAP) devices are comparable in terms of patients benefit, use hours and mean pressure. Intelligent CPAPs are modern, reliable tools which allow remote monitoring of the patient in terms of treatment compliance and effectiveness, with fewer visits to the doctor and lower costs and labor.
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