Sleep-Related Breathing Disorders · Reference for Medical Students

😴 Sleep‑Related Breathing Disorders OSA · CSA · OHS · Diagnostic Testing & Management for Medical Students

1. Overview & Epidemiology

Sleep‑disordered breathing (SDB) affects ~1 billion people worldwide; Obstructive Sleep Apnea (OSA) is most common.
Underdiagnosed: ~80‑90% of moderate‑severe OSA remains undiagnosed.
Consequences: Hypertension, atrial fibrillation, heart failure, stroke, metabolic syndrome, daytime sleepiness, motor vehicle accidents.

2. Obstructive Sleep Apnea (OSA)

Pathophysiology

Recurrent collapse of the pharyngeal airway during sleep due to ↓ pharyngeal dilator muscle tone + negative intraluminal pressure.
Apnea → hypoxemia, hypercapnia → sympathetic surge, arousal → sleep fragmentation.
Risk factors: Obesity (strongest), male sex, age >50, retrognathia/micrognathia, large neck circumference (>17" male, >16" female), tonsillar hypertrophy, family history.

Clinical Presentation

Nocturnal Symptoms

Loud, disruptive snoring
Witnessed apneas / gasping
Restless sleep
Nocturia
Night sweats

Daytime Symptoms

Excessive daytime sleepiness (EDS)
Morning headaches
Dry mouth / sore throat
Cognitive impairment ("brain fog")
Mood changes (irritability, depression)

Screening: STOP‑BANG Questionnaire

Letter	Question	High‑Risk Answer
S	Do you Snore loudly?	Yes
T	Do you feel Tired, fatigued, or sleepy during the day?	Yes
O	Has anyone Observed you stop breathing during sleep?	Yes
P	Do you have high blood Pressure or on treatment?	Yes
B	BMI >35 kg/m²?	Yes
A	Age >50 years?	Yes
N	Neck circumference >40 cm (male) or >36 cm (female)?	Yes
G	Gender male?	Yes

Score ≥3: High risk of OSA → diagnostic testing.
Score 5‑8: High probability of moderate‑severe OSA.

Diagnosis: Polysomnography (PSG) vs. Home Sleep Apnea Test (HSAT)

Parameter	In‑Lab PSG (Gold Standard)	HSAT (Level III)
Channels monitored	EEG, EOG, EMG, ECG, airflow, respiratory effort, SpO₂, snoring, leg movement, body position	Airflow, respiratory effort, SpO₂, heart rate (no EEG)
Advantages	Comprehensive; can diagnose other sleep disorders (PLMD, narcolepsy); sleep staging	Convenient, lower cost, done at home
Limitations	Cost, limited access, "first‑night effect"	Underestimates AHI (cannot detect EEG arousals); not suitable for central apnea, severe comorbidities
Indications	Suspected central sleep apnea, comorbid cardiopulmonary disease, neuromuscular disease, negative/inconclusive HSAT	High pretest probability of uncomplicated moderate‑severe OSA

Key PSG Definitions

Apnea: Cessation of airflow ≥10 seconds.
Hypopnea: ≥30% reduction in airflow for ≥10 sec with ≥3% O₂ desaturation or arousal.
Apnea‑Hypopnea Index (AHI): Number of apneas + hypopneas per hour of sleep.
- Mild OSA: AHI 5‑14
- Moderate OSA: AHI 15‑29
- Severe OSA: AHI ≥30
Respiratory Disturbance Index (RDI): AHI + Respiratory Effort‑Related Arousals (RERAs). Used when hypopnea definition requires desaturation.
Oxygen Desaturation Index (ODI): Number of ≥3‑4% desaturations per hour.

Management of OSA

First‑Line: Positive Airway Pressure (PAP) Therapy

CPAP (Continuous Positive Airway Pressure): Fixed pressure splints airway open. Gold standard for OSA.
APAP (Auto‑titrating PAP): Adjusts pressure automatically based on detected events; useful for variable pressure needs.
BiPAP (Bilevel PAP): Higher IPAP for inspiration, lower EPAP for expiration. Indicated for pressure intolerance, hypoventilation (OHS), or coexisting central apnea.
Adherence: Goal ≥4 hours/night on ≥70% of nights. Mask fit and humidification are key.

Alternative & Adjunctive Therapies

Therapy	Indication	Notes
Oral Appliance (Mandibular Advancement Device)	Mild‑moderate OSA, CPAP intolerant	Advances mandible → ↑ upper airway size. Custom‑fitted by dentist.
Weight Loss	All overweight/obese OSA patients	10% weight loss → ~26% ↓ AHI. Bariatric surgery may be curative.
Positional Therapy	Positional OSA (supine AHI ≥2× non‑supine)	Devices that prevent supine sleep (e.g., NightShift, tennis ball shirt).
Hypoglossal Nerve Stimulation (Inspire)	Moderate‑severe OSA, CPAP failure, BMI <32‑35, no complete concentric collapse on DISE	Implanted device stimulates hypoglossal nerve → tongue protrusion during inspiration.
Upper Airway Surgery (UPPP, MMA)	Anatomic obstruction (tonsillar hypertrophy, retrognathia), CPAP failure	UPPP = uvulopalatopharyngoplasty; MMA = maxillomandibular advancement (most effective surgical option).

💊 Pharmacotherapy Note: No FDA‑approved medications for OSA. Avoid sedatives, alcohol, opioids (worsen OSA). Modafinil or solriamfetol may be used for residual sleepiness despite adequate PAP adherence.

3. Central Sleep Apnea (CSA)

Pathophysiology & Types

Cessation of airflow without respiratory effort (no chest/abdominal movement). Due to transient loss of respiratory drive.
Cheyne‑Stokes Respiration (CSR): Crescendo‑decrescendo pattern of hyperventilation followed by central apnea. Common in heart failure (HFrEF), stroke.
Treatment‑Emergent Central Sleep Apnea (TECSA): Emerges after initiating PAP therapy for OSA (~5‑15% of patients). Often resolves with continued PAP use.
Idiopathic CSA / Narcotic‑Induced CSA: Chronic opioid use → respiratory depression.
High‑Altitude Periodic Breathing: Hypoxia‑induced hyperventilation → hypocapnia below apnea threshold.

Diagnosis

In‑lab PSG required (HSAT cannot distinguish central vs. obstructive).
≥50% of events are central; central AHI ≥5.

Management of CSA

Treat Underlying Cause: Optimize heart failure (GDMT), reduce/stop opioids, acetazolamide for high‑altitude CSA.
Positive Airway Pressure: CPAP first‑line for CSA with heart failure (improves cardiac function).
Adaptive Servo‑Ventilation (ASV): Variable pressure support that stabilizes breathing pattern. Contraindicated in HFrEF with LVEF ≤45% and predominant CSA (SERVE‑HF trial showed ↑ mortality).
Supplemental Oxygen: Reduces CSA in heart failure and high‑altitude periodic breathing.
Pharmacologic: Acetazolamide (metabolic acidosis stimulates ventilation), Theophylline (rarely used).
Phrenic Nerve Stimulation (Remedē): Implantable device for moderate‑severe CSA; stimulates diaphragm during sleep.

⚠️ ASV in HFrEF: Do NOT use ASV in patients with symptomatic chronic heart failure and LVEF ≤45% with predominant central sleep apnea — associated with increased cardiovascular mortality.

4. Obesity Hypoventilation Syndrome (OHS)

Definition & Pathophysiology

BMI ≥30 kg/m² + daytime hypercapnia (PaCO₂ ≥45 mmHg) + sleep‑disordered breathing (usually OSA) after excluding other causes of hypoventilation (lung disease, neuromuscular, chest wall).
Mechanisms: Obesity → restrictive chest wall mechanics, leptin resistance → blunted respiratory drive, OSA → sleep fragmentation.
90% of OHS patients have concurrent OSA; 10% have pure sleep hypoventilation (no apneas).

Clinical Features & Diagnosis

Severe obesity, daytime sleepiness, dyspnea, signs of right heart failure (cor pulmonale).
Often present with acute‑on‑chronic hypercapnic respiratory failure.
Diagnosis: Daytime ABG showing PaCO₂ ≥45 mmHg + elevated serum bicarbonate (≥27 mEq/L suggests chronic compensation).

Management

Positive Airway Pressure: First‑line is BiPAP (or Auto‑BiPAP) — provides pressure support to augment ventilation. CPAP alone may be insufficient for hypoventilation.
Weight Loss: Essential; bariatric surgery often curative.
Acute Decompensation: May require NIV (BiPAP) or invasive mechanical ventilation.
Tracheostomy: Reserved for severe, refractory cases.

5. Other Sleep‑Related Breathing Disorders

Sleep‑Related Hypoventilation

Neuromuscular disease (ALS, muscular dystrophy)
Severe COPD (overlap syndrome)
Chest wall disorders (kyphoscoliosis)
Managed with nocturnal BiPAP (often with backup rate)

Catathrenia (Sleep‑Related Groaning)

Prolonged expiratory groaning during REM sleep
Benign; often responds to CPAP

Primary Snoring

Snoring without apneas, hypopneas, or desaturations
Not associated with daytime sleepiness; reassurance, positional therapy

High‑Altitude Periodic Breathing

Hypoxia → hyperventilation → hypocapnia → apnea
Prevent with acetazolamide; treat with O₂ or descent

6. Cardiovascular Consequences of Untreated OSA

Condition	Mechanism	Evidence
Hypertension	Sympathetic surges, endothelial dysfunction	OSA is a secondary cause of HTN; CPAP reduces BP ~2‑3 mmHg
Atrial Fibrillation	Atrial remodeling, autonomic dysregulation	OSA doubles risk of AF; untreated OSA ↑ AF recurrence after cardioversion/ablation
Heart Failure	↑ Afterload, hypoxia, sympathetic activation	CPAP improves LVEF in OSA + HF
Stroke / TIA	Hypercoagulability, atherosclerosis, AF	OSA independent risk factor; post‑stroke OSA common (60‑70%)
Pulmonary Hypertension	Hypoxic vasoconstriction, left heart disease	Usually mild (mean PAP 25‑35 mmHg); improves with CPAP

7. Perioperative Considerations in OSA

Increased risk: Difficult intubation, postoperative respiratory depression, hypoxemia, arrhythmias.
Preoperative screening: STOP‑BANG. Known or suspected OSA → consider preoperative PAP initiation.
Intraoperative: Minimize opioids and sedatives; use regional anesthesia when possible.
Postoperative: Continuous SpO₂ monitoring; use PAP device in recovery; avoid supine position.
Ambulatory surgery: OSA alone is not a contraindication to outpatient surgery if well‑controlled.

8. Quick Reference: AHI Severity & PAP Modes

AHI Severity (OSA)

Mild: 5–14 events/hr
Moderate: 15–29 events/hr
Severe: ≥30 events/hr

PAP Mode Selection

Uncomplicated OSA: CPAP or APAP
Pressure intolerance / high pressure requirement: BiPAP
OHS / Hypoventilation: BiPAP S/T (spontaneous/timed)
CSA (HFpEF or no HF): ASV (if LVEF >45%)
CSA with HFrEF (LVEF ≤45%): CPAP or O₂; avoid ASV

💡 STOP‑BANG Mnemonic Review: Snoring, Tired, Observed apnea, Pressure (HTN), BMI, Age, Neck circumference, Gender.

😴 Sleep‑Related Breathing Disorders Reference · High‑yield for medical students, internal medicine, and sleep medicine rotations.
Covers OSA, CSA, OHS, diagnostic testing (PSG/HSAT), PAP therapy, alternative treatments, and cardiovascular consequences.