Sleep Disorder
Posted by on Wednesday, 26th December 2012
SLEEP DISORDERED BREATHING(SDB)Introduction:
The detrimental effects of sleep disturbance produced by abnormal breathing patterns have been extensively studies in recent times and are called as Sleep disordered breathing(SDB)
SDB constitutes a number of the major part of sleep disorders seen by sleep physicians world over.
With growth of Obesity, Hypertension, Diabetes,& use of Medicines, Otolaryngologists & Sleep clinicians are witnessing a large increase in such patients.
IMPACT
SDB and along with its effects is a very significant problem in the society as it can lead to
Road traffic accidents
Lower productivity at school and work
Morbidity-Impaired immune function, HTN, insulin resistance, stroke, pulm HTN, poor asthma control, ventricular arrhythmias and sudden death
Neuro-cognitive and mood dysfunction
Impaired quality of life
Impaired performance in surgical skills, anesthesia administration, intubations and ECG interpretation
EPIDEMIOLOGY
Recent data suggests approximately 5% of population suffer from SDB
12-15 million adult American have SDB. In Indian scenario polyssomnography proven cases of SDB is around 3.57% (Sharma et al)
SEX:
Males> Females
Severe OSA male to female is 8:1, moderate OSA 3:1
Sex difference reduces after menopause
The reasons for sex predilection are not clear, possibly due to
Body fat distribution
Craniofacial differences
Female hormone
RISKFACTORS & ASSOCIATED MEDICAL CONDITIONS
Obesity:
Cardiovascular disease
Increased risk of HTN
Cerebrovascular disease : This has an unclear but growing evidence
Studies reveal that the odds ratio of having a CV stroke are high but this was not significant not after adjusting for age and BMI
Metabolic syndrome :This is a term used for features related to
Waist circumference
Triglycerides
Glucose level
BP
Insulin resistance
DEFINATIONS
Snoring: Loud upper airway breathing sounds in sleep without episodes of apnea or hypoventilation
Apnoea :Cessation of airflow at nostrils and mouth for at least 10 seconds regardless of oxygen saturation
Sleep Apnea syndrome
30 or more apnoeic episodes during 7 hrs sleep
Apnea index =/>5
Obstructive sleep apnea
Cessation of airflow in presence of continued respiratory effort
Breath holding spells
Central sleep apnea: Cessation of airflow with cessation of all respiratory effort
Mixed Apnea : Begins as a central type of apnea followed by increasingly forceful respiratory efforts till airflow clears
UARS : Increased inspiratory effort with frequent arousals but no apnea or hypopnea
PATHOPHYSIOLOGY OF SLEEP DISORDERED BREATHING :
The primary cause of SDB is collapse of the upper airway during sleep. The mechanism for this is multi-factorial, which is mainly due to interdependence of anatomical vulnerability with physiologic mechanism of ventilation.
Local Factors:
The size of lumen depends on the dilating and collapsing forces
The dilating forces include
Dilating muscle activity
Mechanical force on airway wall
Intraluminal airway pressure
Large upper airway
The collapsing forces include
Mass lesion in nasopharynx
Negative intraluminal pressure
Tissue mass
Surface adhesive forces
Increased extra luminal pressure
Craniofacial characteristics
Increased distance of hyoid from mandibular plane
Retrognathia
Increased cervical angulations
Neck and jaw posture
Neck flexion close airway, extension opens it
Opening Jaw slightly increase size of airway
Progressive opening-- pharyngeal narrowing
Large tongue
Myxedema
Acromegaly
Oropharynx:
Tonsillar enlargement
Macroglossia
Retrognathia
Hunters/Hurlers
High arched palate
Nasopharynx
Adenoid hypertrophy
Hypopharynx
Mass/growth
Nose:
Nasal obstruction also has a role in causing severity of OSA by :
Reduced nasal airflow affect muscle tone of upper airway
Increase mouth opening
o Destabilize pharyngeal airway
Reduced humidification
Causes:
Nasal polyps
DNS
Rhinitis
Choanal atresia
CLINICAL FEATURES
The patients of OSA has certain characteristic night and day time complaints
Night Time:
Snoring
Witnessed breath holds,Choking
Fragmented sleep
Restlessness
Dry mouth mainly due to mouth breathing
Nocturia due to Increased abd pressure, Atrial natriuretic peptide
Esophageal reflux due to heartburn
Day time symptoms constitutes of
o Sleepiness
Afternoon
Meeting
Driving
o Headache
o Fatigue, reduced alertness
o Personality changes
Irritability
Anxiety
Depression
APPROACH TO PATIENT WITH SLEEP DISORDERED BREATHIN
History
Detailed history
Underestimate symptoms leading questions help
RTA/Drifting across lanes/honked by drivers
Assocoated HTN/ DM asked and looked for.
Physical Findings
o Obesity and
BMI calculation
>28 kg/sq mt
o Neck circumference
Superior border of cricothyroid membrane, upright position
Cut off level of 40-43 cms highly specific in OSA
Detailed nasal/ oropharyngeal assessment
o Macroglossia
o Uvula, soft palate low lying/size/edema/erythema
o Retrognathia
o Tonsillar hypertrophy
o Nose Contributory factor
INVESTIGATION
o Establish diagnosis
o PSG, oximetry, multichannel home testing
o Estimate level of obstruction:..
o Pharyngoscopy, Radiology, manometry
o Investigate for Causes / Predisposing factors/Sequelae .
o Hematological Ix for Hypothyroidism, HTN, Diabetes mellitus
To establish Diagnosis
Overnight Polysomnography(PSG) Gold Standard
Overnight Oximetry
Home multi channel testing
PSG(POLYSOMNOGRAPHY)
Considered gold standard in diagnosis of OSA
Can differentiate central from peripheral apnea
Not ideal but best available
Breathing disturbance may vary from night to night
Does not suggest the site of obstruction
o Simultaneous Recording of multiple sleep related events
o Neurophysiolgical
o Cardiopulmonary
o Other physiological parameter over course of several hours
o Parameters specified by AASM
o EEG( frontal, central, occiptal)
o B/L EOG,
o Chin EMG,Leg EMG
o Airflow,Respiratory effort( chest and abdominal)
o SpO2, ECG
o Body position, & Video monitoring
OVERNIGHT OXYMETRY
o It is a gadget sited at the end of digit with a wrist watch like device which measures oxygen saturation and pulse rates
o Standard practice:
o 4% drop in O2 saturation( resting >90%)
o ODI: Oxygen desaturation index
Number of times O2 saturation falls >4% per hr
>15 suggests OSA
o Advantage:
o Easily available and cost effecient
o Good specifcity
o Good +Predeictve value
o Very useful if positive
o Disadvantage
o Poor sensitivity
o Poor pred.value
o Miss subjects OSA who dont de-saturate
o NOTE:
o If OD!<15, but other cofactors present refer for multi-channel assessment
HOME MULTI-CHANNEL TESTING: (Multi channel: nasal/oral airflow, chest & abdominal movements, Pulse oximeter)
o Disadvantages
Sensor failure
Fewer channels
Underestimate severity as EEG not available
o Advantages
Better patient comfort
Cost savings
No hospital admission
Speed of analysis
INVESTIGTION TO DETERMINE SITE OF OBSTRUCTION
MULLERS MANUVEUR
Patient performs reverse valsalva
effort generates negative pressure in upper airway
Nasopharyngeal sphincter is visualized with endoscope
Compliant tissue will collapse
Degree of collapse scored
Used as criteria for patient selection for Surgery
Not a reliable test as
Done in awake patient
And surgery based on this test is unsuccessful
Soft palate Lower pharynx
3 or 4 No ideal
3 or 4 1 or 2 Sub optimal
<3 >2 Not suitable
1=minimal collapse
2=reduced area by 50%
3=reduced area by 75%
4=complete obliteration
Radiological Investigations
Lateral cephalometry
Very accurately taken lateral head and neck Xray
Relationship between various soft tissue and bony points measured
No study has shown significant change in normal and OSA
Not sole diagnostic procedure
CT SCAN
Greater anatomic details
Awake state so low predictive value for diagnosis of OSA
3-D scans
Easier way to assess the caliber of upper airway
Statistical correlation with severity of OSA lacking
MRI
Good anatomic definition of soft tissue
Multiplanar images
No radiation exposure
Dynamic images can also be obtained
Disadvantage
Awake patient
Scanner noise
Limited studies available
Manometry
Use of catheters in upper airway to measure pressure at various sites
Important for patients suspected of UARS
No frank apnea, but snoring and arousals in sleep
Advantage:
Sleep manometry documents obstruction site
Disadvantage
Precise placement o probe
Poorly tolerated
DIAGNOSTIC CRITERIA
AHI: Number of apnea and hypopnoea averaged per hour of sleep
RDI: (respiratory disturbance index)
Number of apnea hypopnea and respiratory effort related arousal, diagnosed by EEG
AHI<5: no evidence of OSA
AHI:5-15: mild OSA
AHI:15-30: moderate OSA
AHI:>30: severe OSA
No account of desaturation index nor the length of apnea and hypopnea
TREATMENT
Depends on number of factors
Severity of disorder
What does patient want
Presence of any complication
Level of obstruction
Treatment options
Non surgical
Surgical
NON-SURGICAL
Address co-existent, predisposing conditions
Obesity
Tobacco
Sleep deprivation
Avoiding agents affecting sleep
Treat hypothyroidism
Modification of body position during sleep
Mechanical devices( positive airway pressure)
Pharmacological therapy
MANAGE OBESITY
Documented reduction in symptom after weight reduction
Degree of improvement no linear corelation with weight
Few may not benefit if co-existent craniofacial abnormalities
Life style modification
Dietary modification
Pharmacological
Surgical options
BODY-POSTURE MODIFICATION
Sleeping with head and trunk elevated to 30-60 degree angle to horizontal reduces OSA
Lateral decubitus is also effective in reducing episodes (sleep ball)
Pharmacological Therapy
Protriptyline
Effects not proven
Agents with uncertain limited role
Serotonin agonists
Affects the pharyngeal dilators
Busiprone used
Data insufficient
Stimulants
Amphetamines are also used but known to have CVS complication. Insufficient data
CPAP(continous positive airway pressure)
When to use?
mild OSA with EDS/ Co-morbidities, moderate to severe OSA
Many consider it to be mainstay of OSA treatment
Mechanism:
Acts as pneumatic splint
Equipment:
machine provides fixed pressure or vary pressure depending on the presence of apnoeas (Auto CPAP)
mask is nasal or full face, kept in place by Velcro straps
port of exhalation
newer machine small and light so portable
humidifier also available as an optional mode
SIDE EFFECTS
Claustrophobia
Nasal stuffiness
Skin abrasions, nasal bridge abrasions
Leaks are uncomfortable or eyes
Air swallowing if pressure more than esophageal sphincter pressure
Pulmonary baro trauma ( very rare)
Treatment Failure
COMPLIANCE WITH CPAP
By 3 years 25-40% stop using CPAP mainly due to one of possible reasons:
Treatment failure
Cost factor
Regular service and maintenance
Change of mask
Side effects
SURGICAL TREATMENT
Uuvuloplatopharyngoplasty(UPPP)
Laser assisted UP(LAUP)
Radiofrequency tissue volume reduction(RFTVR)
Genioglossus advancement
Other surgeries
UVULOPALATOPLASTY
First described by Ikematsu(1950), Fugita popularized in 1985
The Surgical principle:
Stiffen the soft palate by scarring
Increase space behind soft palate
Complications:
Severe post op pain
Hemorrhage
Laryngospasm
Polmonary edema, hypoxia
Nasal regurgitation
Swallowing & voice problems
Not satisfied post surgery
FACTS:
75-95% short term success
Long term 45%
Modification: Preserve uvula
LAUP(LASER ASSISTED UVULOPLASTY)
Described by Kamami in France in 1993
Principle
Stiffen the soft palate
Prevent palatal flutter
Surgery
Local anesthesia on soft palate
B/L vertical incision in soft palate followed by partial vaporization of uvula with CO2 Laser
Various modification done
Complications
Low
Globus like symptom common
Post operative pain
RFTVR(RADIO-FREQUENCY TISSUE VOLUME REDUCTION THERAPY
Principle
Similar to diathermy
Lower temperature, lower current and voltage
Thermal injury to specific submucosal sites in soft palate causing fibrosis and contraction
Advantage
Day care, LA
Less post operative pain
Significant improvement reported
Good for multi level obstruction
Low relapse rate
OTHER OCCASIONAL SURGICAL PROCEDURE
Palatal: Z-pharyngoplasty, palatal implants
Tongue base
RFTVR
Laser midline glossectomy
Tongue suspension suture
Hypoglossal nerve stimulation
Epiglottis
epiglottectomy
Temporary tracheostomy
Hyoid myotomy and suspension
Maxillomandibular osteotomy and advancement
ORAL APPLIANCES
Two basic types of appliances used
Mandibular advancement devices popular
Positioning the lower jaw and tongue downward and forward.
The airway passage is increased
Comfortable
More effective,
Tongue repositioners.
pulling only the tongue forward and not the entire lower jaw.
teeth, jaw muscles and joints are less affected.
Less studied
A period of consistent nightly wear is required
Patient motivation and cooperation essential
For treatment and guidance
Dr (major) Prasun Mishra
Pune
09881676449