Delirium tremens: Difference between revisions
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*Goal = sleepy but arousable with HR <110 | *Goal = sleepy but arousable with HR <110 | ||
*Escalating doses of [[benzodiazepines]] and [[phenobarbital]]<ref>Gold JA et al. A strategy of escalating doses of benzodiazepines and phenobarbital administration reduces the need for mechanical ventilation in delirium tremens. Crit Care Med. 2007 Mar;35(3):724-30.</ref> | *Escalating doses of [[benzodiazepines]] and [[phenobarbital]]<ref>Gold JA et al. A strategy of escalating doses of benzodiazepines and phenobarbital administration reduces the need for mechanical ventilation in delirium tremens. Crit Care Med. 2007 Mar;35(3):724-30.</ref> | ||
* | *#[[Diazepam]] IV pushes q5-10 min | ||
* | *#*10mg x2 → 20mg x3 → 40mg x3 = 200mg total [[diazepam]] | ||
* | *#If still agitated/hyperdynamic after 200mg of [[diazepam]]: | ||
* | *#*[[Phenobarbital]] IV push q5-10min, x3 escalating doses | ||
*** | *#**[[Phenobarbital]] 65mg → 130mg → 260mg IV | ||
* | *#If still agitated after [[phenobarbital]] → [[intubate]] and sedate with [[propofol]] and [[fentanyl]] | ||
{{Vitamin prophylaxis for ETOH}} | {{Vitamin prophylaxis for ETOH}} | ||
===Special Situations=== | ===Special Situations=== | ||
*The propylene glycol diluent in lorazepam, phenobarbital and diazepam, may induce a hyperosmolar anion gap metabolic acidosis if given as a drip in high doses ≥ 48hrs<ref>Arroliga AC, Shehab N, McCarthy K, Gonzales JP. Relationship of continuous infusion lorazepam to serum propylene glycol concentration in critically ill adults. Critical Care Medicine. 2004;32(8):1709–1714. doi:10.1097/01.CCM.0000134831.40466.39.</ref> | *The propylene glycol diluent in [[lorazepam]], [[phenobarbital]], and [[diazepam]], may induce a hyperosmolar anion gap [[metabolic acidosis]] if given as a drip in high doses ≥ 48hrs<ref>Arroliga AC, Shehab N, McCarthy K, Gonzales JP. Relationship of continuous infusion lorazepam to serum propylene glycol concentration in critically ill adults. Critical Care Medicine. 2004;32(8):1709–1714. doi:10.1097/01.CCM.0000134831.40466.39.</ref> | ||
*Consider alternatives such as propofol or dexmedetomidine if patients need long term sedation for Delirum Tremens | *Consider alternatives such as propofol or dexmedetomidine if patients need long term sedation for Delirum Tremens | ||
Latest revision as of 09:34, 24 October 2020
Background
- Most severe form of alcohol withdrawal
- Onset 48 to 96hrs after last drink
Clinical Features
- Delirium and global confusion
- Agitation
- Autonomic hyperactivity
- Diaphoresis, tachycardia, tachypnea, hypertension, hyperthermia
Differential Diagnosis
- Ethanol toxicity
- Alcohol use disorder
- Alcohol withdrawal
- Electrolyte/acid-base disorder
Altered mental status
Diffuse brain dysfunction
- Hypoxic encephalopathy
- Acute toxic-metabolic encephalopathy (Delirium)
- Hypoglycemia
- Hyperosmolar state (e.g., hyperglycemia)
- Electrolyte Abnormalities (hypernatremia or hyponatremia, hypercalcemia)
- Organ system failure
- Hepatic Encephalopathy
- Uremia/Renal Failure
- Endocrine (Addison's disease, Cushing syndrome, hypothyroidism, myxedema coma, thyroid storm)
- Hypoxia
- CO2 narcosis
- Hypertensive Encephalopathy
- Toxins
- TTP / Thrombotic thrombocytopenic purpura
- Alcohol withdrawal
- Drug reactions (NMS, Serotonin Syndrome)
- Environmental causes
- Deficiency state
- Wernicke encephalopathy
- Subacute Combined Degeneration of Spinal Cord (B12 deficiency)
- Vitamin D Deficiency
- Zinc Deficiency
- Sepsis
- Osmotic demyelination syndrome (central pontine myelinolysis)
- Limbic encephalitis
Primary CNS disease or trauma
- Direct CNS trauma
- Diffuse axonal injury
- Subdural/epidural hematoma
- Vascular disease
- SAH
- Stroke
- Hemispheric, brainstem
- CNS infections
- Neoplasms
- Paraneoplastic Limbic encephalitis
- Malignant Meningitis
- Pancreatic Insulinoma
- Seizures
- Nonconvulsive status epilepticus
- Postictal state
- Dementia
Psychiatric
General Psychiatric
- Organic causes
- Psychiatric causes
Evaluation
- Generally a clinical diagnosis, however comorbidity is common so additional work-up/screening is required:
- Labs:
- Serum glucose
- Serum ethanol
- CBC
- Metabolic panel
- LFTs
- CK
- Drug screen if concern for coingestion
- Imaging:
Management
- Goal = sleepy but arousable with HR <110
- Escalating doses of benzodiazepines and phenobarbital[1]
- Diazepam IV pushes q5-10 min
- 10mg x2 → 20mg x3 → 40mg x3 = 200mg total diazepam
- If still agitated/hyperdynamic after 200mg of diazepam:
- Phenobarbital IV push q5-10min, x3 escalating doses
- Phenobarbital 65mg → 130mg → 260mg IV
- Phenobarbital IV push q5-10min, x3 escalating doses
- If still agitated after phenobarbital → intubate and sedate with propofol and fentanyl
- Diazepam IV pushes q5-10 min
Vitamin Prophylaxis for Chronic alcoholics
- At risk for thiamine deficiency, but no symptoms: thiamine 100mg PO q day
- Give multivitamin PO; patient at risk for other vitamin deficiencies
Banana bag
The majority of chronic alcoholics do NOT require a banana bag[2][3]
- Thiamine 100mg IV
- Folate 1mg IV (cheaper PO)
- Multivitamin 1 tab IV (cheaper PO)
- Magnesium sulfate 2mg IV
- Normal saline as needed for hydration
Special Situations
- The propylene glycol diluent in lorazepam, phenobarbital, and diazepam, may induce a hyperosmolar anion gap metabolic acidosis if given as a drip in high doses ≥ 48hrs[4]
- Consider alternatives such as propofol or dexmedetomidine if patients need long term sedation for Delirum Tremens
Disposition
- ICU admit
See Also
- Alcohol withdrawal
- Alcohol withdrawal seizures
- Altered mental status
- EBQ:Outpatient use of benzodiazepines for the treatment of acute alcohol withdrawal
External Links
- MDCalc - CIWA-AR Calculator
- See crashingpatient.com DT treatment algorithm
References
- ↑ Gold JA et al. A strategy of escalating doses of benzodiazepines and phenobarbital administration reduces the need for mechanical ventilation in delirium tremens. Crit Care Med. 2007 Mar;35(3):724-30.
- ↑ Krishel, S, et al. Intravenous Vitamins for Alcoholics in the Emergency Department: A Review. The Journal of Emergency Medicine. 1998; 16(3):419–424.
- ↑ Li, SF, et al. Vitamin deficiencies in acutely intoxicated patients in the ED. The American Journal of Emergency Medicine. 2008; 26(7):792–795.
- ↑ Arroliga AC, Shehab N, McCarthy K, Gonzales JP. Relationship of continuous infusion lorazepam to serum propylene glycol concentration in critically ill adults. Critical Care Medicine. 2004;32(8):1709–1714. doi:10.1097/01.CCM.0000134831.40466.39.