Medical Disclaimer
- Educational Only: Not for clinical decision-making.
- Verify Information: Always consult protocols and authoritative sources.
AI Assistance Notice
AI was used to assist in organizing and formatting this information. All content is reviewed for accuracy.
Bedside Snapshot
- Core Feature: Cooperative, arousable sedation with minimal respiratory depression; patients can often follow commands and maintain airway
- Hemodynamic Effects: Bradycardia and hypotension are common; transient hypertension possible during loading dose due to peripheral α2 effects
- ICU Infusion Range: 0.2–0.7 mcg/kg/hr (many units allow up to 1–1.5 mcg/kg/hr) for sedation of mechanically ventilated or non-intubated patients
- Loading Dose: 1 mcg/kg over 10 minutes on label, but frequently omitted in hemodynamically fragile patients due to bradycardia/hypotension risk
- Best Use: When you want to avoid delirium, wean off propofol/benzodiazepines, facilitate extubation, or sedate non-intubated patients (e.g., HFNC/BiPAP)
- Limitation: Not appropriate for deep sedation or induction/RSI; onset slower than propofol/etomidate with ceiling on depth of sedation
Brand & Generic Names
- Generic Name: Dexmedetomidine hydrochloride
- Brand Names: Precedex, generics
Medication Class
Highly selective α2-adrenergic receptor agonist; sedative and analgesic adjunct
Pharmacology
Mechanism of Action:
- Selective α2-adrenergic agonist acting on receptors in the locus coeruleus and spinal cord
- Presynaptic α2 activation decreases norepinephrine release, reducing sympathetic outflow and locus coeruleus activity → sedation, anxiolysis, and some analgesia
- Postsynaptic α2 activation in the dorsal horn contributes to analgesic and opioid-sparing effects
- Peripheral α2 stimulation in vascular smooth muscle can cause transient vasoconstriction and hypertension during loading or rapid dose escalation
- Unlike GABAergic sedatives (propofol, benzodiazepines), dexmedetomidine produces an "awake-like" sleep state and typically preserves respiratory drive at sedative doses
Pharmacokinetics:
- Onset: Within 5–15 minutes of starting infusion; steady-state sedation over ~30–60 minutes
- Distribution: Rapid distribution phase; volume of distribution ~1–2 L/kg; about 90% protein bound
- Metabolism: Extensive hepatic metabolism via glucuronidation and CYP-mediated oxidation
- Elimination: Metabolites excreted mainly in urine; elimination half-life ~2 hours in healthy adults
- Special Considerations: Hepatic impairment reduces clearance; lower doses and slower titration needed. Renal impairment has less effect on parent drug but metabolites may accumulate
Indications
- Sedation of intubated, mechanically ventilated patients in the ICU, targeting light sedation (e.g., RASS -2 to 0)
- Sedation of non-intubated patients requiring monitored sedation: agitated hypoxic respiratory failure on HFNC/BiPAP, awake fiberoptic intubation, some minor procedures
- Adjunct to reduce benzodiazepine and opioid requirements and potentially mitigate delirium compared with benzo-based strategies
- Bridge during weaning from other sedatives (propofol, midazolam) to facilitate neurological assessment and extubation
Dosing & Administration
Available Forms:
- Concentrated vials: e.g., 100 mcg/mL in 2 mL vials (200 mcg total)
- Premixed bags: 400 mcg/100 mL (4 mcg/mL) or 200 mcg/50 mL
- For infusion, typically prepared at 4 mcg/mL and run via infusion pump in mcg/kg/hr
Adult Dosing (IV):
| Indication / Phase | Dose | Duration / Route | Notes |
|---|---|---|---|
| Loading dose (per label; often omitted) | 1 mcg/kg IV | Over 10 minutes | Frequently skipped in ICU due to bradycardia/hypotension risk |
| Maintenance infusion – typical ICU range | 0.2–0.7 mcg/kg/hr | Continuous IV infusion | Titrate to light sedation; many patients comfortable at 0.2–0.4 |
| Higher-end dosing (select patients) | Up to 1–1.5 mcg/kg/hr | Continuous IV infusion | Above 0.7 mcg/kg/hr increases brady/hypotension risk; follow protocol |
| Non-intubated sedation (e.g., HFNC/BiPAP) | 0.2–0.7 mcg/kg/hr | Continuous IV infusion | No loading dose; titrate slowly with close airway monitoring |
| Procedural sedation (off-label) | 0.5–1 mcg/kg loading, then 0.2–1 mcg/kg/hr | IV infusion | Use full monitoring; follow institutional sedation policy |
| Hepatic impairment | Reduce dose; start 0.1–0.2 mcg/kg/hr | Continuous IV infusion | Slow titration; monitor for exaggerated hemodynamic effects |
| Elderly / frail / baseline bradycardia | 0.1–0.2 mcg/kg/hr | Continuous IV infusion | Avoid loading dose; titrate cautiously |
Contraindications
Contraindications:
- Known hypersensitivity to dexmedetomidine or formulation components
- Advanced heart block (second- or third-degree) without functioning pacemaker
- Severe, unstable hemodynamics where bradycardia/hypotension would be poorly tolerated
Major Precautions:
- Baseline bradycardia or use of negative chronotropes (beta-blockers, some calcium channel blockers) increases risk of significant bradycardia/asystole
- Hypovolemia or vasodilatory shock: dexmedetomidine can unmask or worsen hypotension; optimize volume status and vasopressors first
- Abrupt discontinuation after prolonged or high-dose infusions may cause rebound hypertension, tachycardia, and agitation; taper when feasible
- Use caution in severe hepatic impairment due to reduced clearance and increased drug exposure
- Provides limited analgesia; ensure adequate pain control with opioids or regional anesthesia when needed
Bradycardia Warning: Can cause profound bradycardia or asystole, especially with concomitant nodal-blocking agents. Monitor ECG continuously during initiation.
Withdrawal Risk: Abrupt discontinuation after prolonged use may cause rebound hypertension, tachycardia, and agitation. Taper when feasible.
Adverse Effects
Common:
- Bradycardia (often sinus, sometimes junctional)
- Hypotension, particularly in hypovolemic or vasoplegic patients
- Dry mouth
- Nausea, vomiting
- Mild fever or chills
Serious:
- Profound bradycardia or asystole, especially with concomitant nodal-blocking agents or high vagal tone
- Severe hypotension with organ hypoperfusion, occasionally requiring vasopressors or fluid resuscitation
- Paradoxical hypertension during loading or rapid titration due to peripheral vasoconstriction
- Withdrawal phenomena (hypertension, tachycardia, agitation) after abrupt cessation of prolonged infusions
Special Populations
Elderly Patients:
- Start at 0.1–0.2 mcg/kg/hr and titrate cautiously
- Avoid loading dose
- Higher risk of bradycardia and hypotension
Renal Impairment:
- Less effect on parent drug clearance, but metabolites may accumulate
- No specific dose adjustment recommended, but monitor closely
Hepatic Impairment:
- Reduced clearance; lower doses required
- Start at 0.1–0.2 mcg/kg/hr with slow titration
- Monitor for exaggerated hemodynamic effects
Pregnancy:
- Category C: Limited human data; use only if benefit justifies potential risk
- Crosses placenta; fetal effects unknown
Lactation:
- Unknown if excreted in breast milk; use caution
Monitoring
Clinical Monitoring:
- Continuous ECG and blood pressure monitoring during initiation and titration; frequent vitals when stable
- Watch for bradycardia and hypotension; adjust infusion or provide fluids/vasopressors as needed
- Assess sedation using a standardized scale (e.g., RASS) and titrate to target level
- Ensure concurrent analgesia for painful conditions; do not rely on dexmedetomidine alone for pain control
- Monitor for withdrawal symptoms when discontinuing after prolonged high-dose infusions and taper if possible
Clinical Pearls
Extubation Advantage: Excellent for achieving calm, cooperative sedation during weaning and extubation; patients can usually follow commands and breathe adequately.
Managing Bradycardia: If bradycardia develops, first check rate, rhythm, and perfusion rather than reflexively stopping the infusion—many patients tolerate HR in the 50s if MAP and mentation are acceptable.
Hemodynamic Fragility: Avoid loading doses in shock or poor cardiac reserve; start low and go slow.
Combination Therapy: Combine with propofol or opioids when deeper sedation or significant analgesia is required, but be mindful of additive hypotension.
Non-Invasive Ventilation: In agitated hypoxic respiratory failure on non-invasive support, carefully titrated dexmedetomidine can sometimes avoid intubation—but only with close monitoring and immediate airway backup available.
Delirium Prevention: Consider dexmedetomidine as part of a delirium prevention strategy when transitioning off benzodiazepines or propofol in the ICU.
References
- 1. Lexicomp. (2024). Dexmedetomidine: Drug information. Wolters Kluwer.
- 2. Reade, M. C., & Finfer, S. (2014). Sedation and delirium in the intensive care unit. New England Journal of Medicine, 370(5), 444–454. https://doi.org/10.1056/NEJMra1208705
- 3. Riker, R. R., Shehabi, Y., Bokesch, P. M., et al. (2009). Dexmedetomidine vs midazolam for sedation of critically ill patients: A randomized trial. JAMA, 301(5), 489–499. https://doi.org/10.1001/jama.2009.56
- 4. Pandharipande, P. P., Pun, B. T., Herr, D. L., et al. (2007). Effect of sedation with dexmedetomidine vs lorazepam on acute brain dysfunction in mechanically ventilated patients. JAMA, 298(22), 2644–2653. https://doi.org/10.1001/jama.298.22.2644
- 5. Barr, J., Fraser, G. L., Puntillo, K., et al. (2013). Clinical practice guidelines for the management of pain, agitation, and delirium in adult patients in the intensive care unit. Critical Care Medicine, 41(1), 263–306. https://doi.org/10.1097/CCM.0b013e3182783b72