ALCOHOL WITHDRAWAL: PATHPHYSIOLOGY, DIAGNOSIS …
ALCOHOL WITHDRAWAL: PATHOPHYSIOLOGY, DIAGNOSIS ANDTREATMENT
Carlos A. Hernandez-Avila,M.D.
Department of PsychiatryUniversity of Connecticut School of Medicine
Alcohol Medical ScholarsProgram
Prepared: April 2005 Slide1
I. INTRODUCTION Slide2
A. Alcohol Dependence (AD), major cause of mortality and morbidity
B. More than 2/3 of AD patients in clinical settings have Alcohol Withdrawal (AW)
C. AW often presents as anxiety and insomnia. Misdiagnosis can be deadly
D. Topics to be covered:
Epidemiology
Pathophysiology
Clinical Picture and Diagnosis
Treatment
II. EPIDEMIOLOGY
A. Epidemiology of Alcohol Use Disorders (AUD):1 Slide3
15.3 million have alcohol abuse or dependence
13 % of men and4 % of women over age 18
More frequent among European-Americans
15-30% of primary care and hospitalized patients
40% trauma patients have blood alcohol levels (BAL) ®100 mg/dl
B. Alcohol Use Disorders (AUDs) can bedefined:2 Slide4
1 1. Alcohol Abuse:
2 Significant impairment/distress in a 12-month period
3 Diagnosis requires 1+ of following:
4 i. Failure to fulfill major obligations
5 ii.Hazardous activities during intoxication
6 iii.Legal problems
iv.Social/interpersonal problems
2. Alcohol Dependence (AD):
7 Significant impairment/distress in a 12-month period
8 Diagnosis requires 3+ of following:
9 i. Tolerance
10 ii. Withdrawal
11 iii.Larger amounts for longer period than intended
12 iv.Persistent desire and unsuccessful attempts to cut down
13 v. Excessive time spent drinking alcohol
14 vi. Activities given up due to drinking
15 vii. Continued use despite problems
C. Epidemiology of Alcohol Withdrawal (AW):3,4,5,6 Slide5
AW symptoms affect up to 70 % of AD patients
More frequent in the elderly
No gender or ethnic differences
85% of patients with AW experience mild-to-moderate symptoms
15% severe symptoms with complicating conditions:
a.Seizures, 10% of the cases
b.Delirium Tremens, 5%
i.In the past, mortality rate was 15-25%
ii.Currently ≤ 1%
III. PATHOPHYSIOLOGY OF ALCOHOLWITHDRAWAL
A. Alcohol effects in the brain:7 Slide6
1. Variable effects as a function of duration of administration
2. No single site of action
3. Affects multiple neurotransmitter systems:
a. Glutamate and aspartate
b. GABA
c. Dopamine
d. Noradrenaline
e. Corticotropin-releasing-factor
B. Excitatory neurotransmitter systems and AW:8 Slide7
Glutamate:
Main excitatory neurotransmitter
ActivateNMDA receptors and voltage-operating channels:
∠Calcium influx ♦neuronal excitability
Excessive activation ♦seizures, neurotoxicity and cell death
Effects of drinking on excitatory neurotransmission: 8
Alcohol antagonizes NMDA receptors
Chronic drinking and tolerance to alcohol are associated with compensatory:
∠NMDA receptors number
∠Calcium (Ca) channels
3.Excitatory neurotransmission during AW: 8 Slide8
a. Rodents show ∠glutamate / aspartate in brain regions related to:
i.Reward (e.g. Striatum and Nucleus Accumbens [NAC])
ii. Alcoholcognitive disturbances and AW seizures (e.g. Hippocampus)
b. Patients show ∠Glutamate in cerebrospinal fluid (CSF)
c. In summary:During AW there is ∠excitatory neurotransmission
C. Inhibitoryneurotransmission and AW: 9 Slide9
GABA:
a. Maininhibitory neurotransmitter
b. Activatesreceptor-operated öCL channels
i. Membranehyper-polarization (∠stability)
ii.⎠Neuronal excitability
Effects of drinking on GABA: 9
a. Acute alcohol ♦ ∠ GABAA receptorfunction
bChronic drinking ♦⎠GABAA receptor sensitivity ♦ tolerance
3. GABA and AW:9
a. During AW GABAAreceptor remains impaired
b. Repeated AWfurther impairs GABAA receptor ♦ neuronal excitability(e.g. neuronal ãkindlingä) ♦ ∠AW seizures and delirium
c. In summary,changes in GABA neurotransmission during AW translate:
i. Impairment ofneuronal inhibitory mechanisms
ii.∠ Anxiety,∠sympatheticactivity and seizures
E. Dopamine (DA):10 Slide10
Mainneurotransmitter mediating reward:
a. Released bythe Ventrotegmental area (VTA) into the NAC
b. Occurs inanticipation and during rewarding stimuli (i.e., food, sex)
Effects of drinking on DA: 10
a. Acute alcohol ♦∠ DA in NAC
b. Chronic drinking and tolerance ♦ ⎠ DAin NAC
3. DA and AW: 10 Slide11
i. ∠DAdeficit in NAC
ii. Negativemoods (i.e., dysphoria, anhedonia or loss of ability to enjoy previously rewardingactivities)
ii. Reassumingdrinking reverses DA deficit
iv. Drinkingrelieves negative moods (i.e., negative reinforcing).
4. When AW iscomplicated with delirium and hallucinations:
i.∠DAand homovanilic acid in CSF
ii.⎠GABAactivity leads to ∠DA
5. In summary,during AW:
i. DA deficit inthe NAC mediates negative mood states
ii. However,delirium and hallucinations are associated with ∠ DA
F. OtherNeurotransmitter Systems: Slide12
1. Norepinephrine and methoxy-4-hydroxyphenilglycol (MHPG):11
a. ∠ Plasma concentrations correlate with ∠BP, ∠pulse, tremors and diaphoresis
b. ⎠α2-adrenoreceptor regulation of norepinephrine release
2. Corticotropin-releasing-factor (CRF): 12, 13
a. Long lasting ∠CRF levels in CSF and amygdale
b. ∠CRFR1 receptor sensitivity
i. Anxiogenic-likeresponse
ii. CRFR1antagonists block this effect
iii. ∠Stress sensitivity even after acute AW symptoms subside
AWPathophysiology: Key Issues:7 Slide13
Brainhomeostasis reflects a balance between:
Excitatory
Inhibitory neurotransmission
Neuroadaptation:
Chronic drinking ♦ neuroadaptation to maintain homeostasis
Allows brain functioning while disturbed by alcohol
During AW neuroadaptive mechanisms are out of balance:
Neuronal overexcitation ♦ autonomic hyperactivityand seizures
Reward deficit ♦ negative mood states and urges to drink
G. Genetics of Alcohol Withdrawal:Association Studies: Slide14
1. AD patients differ in AWpredisposition even drinking similar amounts14
2. There is a predisposition tocomplications of heavy drinking (e.g., alcoholic liver disease) independentfrom genes predisposing to AD15,16
3. Evidence of genetic factorsconferring predisposition to AW:
a.Genetic lines of rodents prone to AW seizures17
b.Human gene variants (e.g., alleles) associated with AW seizures and delirium:
i. A9 allele ofDA transporter, ⎠DA clearance ♦∠DA18
ii. Short alleleof 5-HT transporter, ⎠ 5-HT clearance14
iii. A1 allele ofthe DRD2, ⎠DRD2 density ♦depression during AW19
IV. DIAGNOSIS AND EVALUATION
A. AW DiagnosticCriteria (DSM-IV):2 Slide15
1. Severity may bevariable: mild to life threatening
2. Begins a fewhours or days (1-2) after cessation or reduction of prolonged drinking
3. Symptoms causesignificant distress or impairment
4. Is not due toanother medical or mental disorder
5. Diagnosis: 2+of:
a.Autonomic hyperactivity (e.g., sweating or pulse > 100)
b.Hand tremor
c. Insomnia
d. Nausea orvomiting
e. Transientvisual, tactile or auditory hallucinations or illusions
f. Agitation
g. Anxiety
h. Grand malseizures
B. OptimalAssessment of AW requires: Slide16
Completehistory, physical, and mental status exam
Laboratorytest
Standardizedassessments
C. History andPhysical: Slide17
1. Predictors ofAW severity:
a. Older age
b. ∠Severityof drinking and high tolerance
c. ∠Number of AW episodes and detoxifications
d. History ofprevious AW seizures of delirium tremens
e. Presence of AW symptoms despite high BAL
f. Major medical or surgical problems
g. Concomitantsedative/hypnotic use
2. Physical and mental status exam:
a.Signs suggestive of chronic alcohol drinking:
i.General: Underweight, chronic fatigue
ii. GI:Dyspepsia, gastritis, hepatitis or liver cirrhosis stigmata (jaundice, ∠bleeding time, ascitis, GI bleeding, spider angiomas, bruises)
iii.Immunological: Opportunistic infections
iv.Cardiovascular: Hypertension, cardiomyopathy, arrhythmia
v. Osteoporosisand pathological fractures
vi.Neuropsychiatric: Neuropathy, seizures, delirium, encephalopathy and/ordementia, mood, anxiety and psychotic symptoms
b. However,average alcoholic may present with a relatively normal appearance.
D. LaboratoryTests:20 Slide18
No AW specific test. Lab testing identifies acute and/or heavy drinking (>5drinks/day).
BloodAlcohol Levels (BAL):
Doesnot detect heavy drinking but identifies acute intake (~ 12-18 hours)
Poorprognosis when AW occurs with intoxicating BAL (0.08-0.10 g/dl)
Gamma-glutamyltransferase(GGTP):
Alcoholenzymatic induction ∠GGTP
Normalizationafter 2-3 weeks of abstinence
Sensitivity:40-60%, specificity: 80% if value >35 IU/L
CarbohydrateDeficient Transferrin (CDT):21
Heavydrinking induces deglycosylation of transferring
Normalizesin 1-2 weeks
Sensitivity: 60-80%, specificity:80-90% if value >20 IU/L
CDT + GGTP best diagnosticcombination
Erythrocytemean corpuscular volume (MCV):
Alcohol/acetaldehydeinterfere with nuclear maturation of red blood cells ♦ macrocytosis
Folicacid or B12 deficiency also ♦ macrocytosis(MCV >91.5 μ3)
Upto a third of heavy drinkers
Sensitivity:30-40%, specificity: 80%
StandardizedEvaluation: The Clinical InstituteWithdrawal Assessment, revised (CIWA-Ar [Appendix 1]). 22 Slide19
1. Validated indetoxification, psychiatric and medical/surgical units
2. Severity scaleranging from 0 to 7, items include:
Agitation
Anxiety
Auditorydisturbances
Cloudingof sensorium
Headache
Nausea/vomiting
Paroxysmalsweats
Tactiledisturbances
Tremor
Visual disturbances
3. InitialCIWA-Ar severity and need of medication:
Score8-10 (mild), usually some nausea,anxiety and headache no need for pharmacological treatment
Score10-15 (moderate) marked autonomic activity
Score> 15 (severe) impending deliriumtremens and urgency of pharmacological treatment
4. Subsequentassessments:
Every4-8 hours to assess effectiveness of treatment
Untilscore < 8-10 for 24 hours
F. Natural courseof AW symptoms: Slide20
1. Progressioncan be divided in 4 stages (not everyone has all four):
a.Stage 1 (24 ö 48 hours):
i. 6-8 hours: anxiety, tremor, nausea andvomiting, ∠heart rate and blood pressure
ii. Insomnia,illusion and hallucinations
ii. Peak severity occurs after 36 hours
iii. 90% of AWseizures occur in this stage
iv. Most AW casesare self-limited to this stage
b. Stage 2 (48 ö72 hours):
Intensified stage 1 symptoms
Severe tremors
Psychomotor agitation
Hallucinations
c. Stage 3 (72 ö105 hours): ãDelirium Tremens:ä
i.Confusion and disorientation
ii.Psychomotor agitation
iii.∠Visual and auditory hallucinations
iv. Severe autonomic hyperactivity
Admission to an ICU may be warranted
d. Stage 4 ( > 7 days): Not typically recognized asa part of the AW natural history. Also known as protracted withdrawal:
i. Last 2 ö 4+weeks. Some symptoms last months
ii. Anxiety,chronic fatigue, depression, sleep disturbances and headache
iii. Symptomscontribute to relapse
V. TREATMENT of AW
A. Treatment Setting: Ambulatory orInpatient? Slide21
1. Outpatient(O/P) treatment overview:23
a. 80% can betreated
b. AW severity:
i.CIWA 15
CIWA 8 ö15 plus other admission criteria
Multiple episodes of AW and detoxifications
High AW severity during previous episodes
History of AW seizures and/or delirium tremens
Major medical or surgical problems
Major psychiatric and/or drug problems
Poor family/social support, homelessness
Pregnancy
B. Benzodiazepines and AW: 30 Slide23
1.Benzodiazepines: First line oftreatment. Provide the best combination of efficacy, safety and cost
2. Six prospectivetrials involving 5 different agents
a.∠GABAAreceptor function
b.Greater efficacy than placebo
i.⎠Seizure: ~ 90%
ii. ⎠Delirium: ~ 70%
c.Greater efficacy and safety than other sedative-hypnotics
3. Choice of abenzodiazepine: Slide24
Allbenzodiazepines are effective
Longerhalf-life benzodiazepines (e.g., chlordiazepoxide [Librium], diazepam [Valium])
More effective than shorter half life in ⎠seizures: ~ 58%
Smoother AW
Shorterhalf-life agents (e.g., lorazepam [Ativan], oxazepam [Serax])
Less oversedation
Indicated in the elderly and liver impairment
4. Fixed scheduletherapy: 30 Slide25
a. A typical benzodiazepine regimen consists:On day 1, one of the following Q 6 h:
i.Chlorodiazepoxide, 50 ö 100 mg
ii. Diazepam, 10ö 20 mg
iii. Lorazepam, 2ö 4 mg
iv. When symptomsnot controlled (or CIWA > 8 ö10) provide additional dose
v.⎠Dose 20% each day
5. However infixed standardized therapy with benzodiazepines:
a.Dose to control AW symptoms vary greatly
b. Fixed regimensfrequently do not properly treat AW (i.e., undermedicate or overmedicate)
c.Treatment should allow
i.Individualization
ii.Rapid appropriate dosing
6.Symptom-triggered therapy: 30,31 Slide26
a.Allows objective titration to individual needs:
i. CIWA-Ar assessmentand monitoring
ii. Medicationadministration triggered by a severity threshold
b.Two controlled clinical trials:
parable efficacy to fixed schedule treatment
ii.Less medication, less side effects, and shorter treatment
ii. No seizures episodes
c.One of these agents every hour when CIWA is ® 8-10:
i. Chlorodiazepoxide,50-100 mg
ii. Diazepam, 10 ö20 mg
iii. Lorazepam, 2-4 mg
C. Anticonvulsantsand AW
1. Carbamazepine(CBZ) and Valproate (VPA): 27, 28, 30, 3 2 Slide 27
a. CBZ: 6controlled trials, VPA: 1 controlled trial:
i.Both better than placebo in mild to moderate AW
ii. CBZ similarthan oxazepam and lorazepam but greater reduction of distress and faster returnto work
ii. CBZ also ⎠protracted AW symptoms (i.e., insomnia, anxiety, psychological distress)
ii. Both, CBZ andVPA prevent AW seizures in animals, limited human data
iii.Anti-kindling effect so may ⎠ future AW severity
iv.Do not potentiate alcohol CNS and respiratory depression
v.No impairment of psychomotor abilities or cognition
vi. No abusepotential
vii.Limited data on prevention/treatment of delirium
viii. Nohematological or hepatic toxic effects when used for 7 days
b.CBZ and VPA limitations
i.In general not better than benzodiazepines
ii.∠Side effects and potential toxicity
iii.5 ö 10 times greater cost
D.Other Agents: 30 Slide28
1. Antipsychotics
a. Phenotiazines andbutyrophenones
b. Less effective thanbenzodiazepines preventing delirium
ii. ∠ seizurerisk
iii. Mayhelp controlling agitation
2. β-Adrenergicantagonist (propanolol [Inderal]) and α-adrenergic agonist (clonidine[Catapres])
a. ⎠ Autonomic activity
b. May hide impending seizures
3. Magnesium
a. ⎠ Levels during AW
b. Supplementation does not ⎠ AWseverity
4. Ethyl Alcohol
a.No evidence of efficacy
b.Toxic, expensive and risk of tissue damage
3.Nonpharmacological treatment: Slide29
a.Quiet environment to ⎠ sensory stimulation
b. Nutrition andhydration
i. Oral thiamine(before glucose administration) and folic acid. Prevents Wernicke-Korsakoffsyndrome
ii.Does not prevent seizures or delirium
iii. Oral fluidsand electrolytes if necessary (magnesium, calcium and phosphates)
c. Orientation toreality
d. Supportivebrief interventions: Motivate to change
e. Referral to AAand relapse prevention treatment
F. Conclusions: Slide30
1. AW is a common problem inclinical settings
2. AW pathophysiology characterizedby:
a. Imbalance ofneuroadaptive mechanism
b. ∠Excitatoryneuronal activity
3. Clinicians mustactively screen for AD and potential AW
4. If untreated can be deadly
5. Benzodiazepines are the mosteffective and safest treatment
References:
1. Moore RD, Bone LR, Geller G, Mamon JA, Stokes EJ, LevineDM. Prevalence, detection, and treatment of alcoholism in hospitalizedpatients.
JAMA. 261: 403-407, 1989.
2. APA, QuickReference to the Diagnostic Criteria for DSM-IV-TR., American PsychiatricAssociation: Washington D.C., 2000
3. Schuckit MA, Danko GP, Smith TL, Hesselbrock V, Kramer J,Bucholz K. A 5-year prospective evaluation of DSM-IV alcohol dependence withand without a physiological component. AlcoholClin Exp Res 27: 818-825, 2003.
4. SchuckitMA, Tipp JE, Reich T, Hesselbrock VM, Bucholz KK The histories of withdrawalconvulsions and delirium tremens in 1648 alcohol dependent subjects. Addiction. 90: 1335-1347, 1995
5. Schuckit MA, Anthenelli RM, Bucholz KK, Hesselbrock VM,Tipp J. The time course of development of alcohol-related problems in men andwomen.
J Stud Alcohol. 56: 218-225, 1995
6. Saitz R,O'Malley SS Pharmacotherapiesfor alcohol abuse. Withdrawal and treatment. Med Clin North Am. 81: 881-907, 1997
7. De Witte P, Pinto E, Ansseau M, Verbanck P. Alcohol andwithdrawal: from animal research to clinical issues. Neurosci Biobehav Rev 27:189-197, 2003
8. Tsai GC, CoyleGT. The role of glutamatergic neurotransmission in the pathophysiology ofalcoholism. Annu Rev Med 49: 173-184, 1998
9. Dahchour A. DeWitte Ph. Amino acid transmitter systems in substance-related disorders. In:Dâhaenen H, den Boer JA, Westenberg H, Wilner P, editors. Textbook ofbiological psychiatry. New York: Wiley: 2002. p. 415 ö424.
10 Weiss F, Parsons LH, Schulteis G, Hyytia P, Lorang MT,Bloom FE, Koob GF. Ethanol self-administration restores withdrawal-associateddeficiencies in accumbal dopamine and 5-hydroxytryptamine release in dependentrats. J Neurosci 16: 3474-3485, 1996
11. Hawley RJ, Nemeroff CB, Bissette G, Guidotti A, RawlingsR, Linnoila M. Neurochemical correlates of sympathetic activation during severealcohol withdrawal.
Alcohol Clin Exp Res. 18: 1312-1316,1994
12. Merlo Pich E, Lorang M, Yeganeh M, Rodriguez de FonsecaF, Raber J, Koob GF, Weiss F. Increase of extracellular corticotropin-releasingfactor-like immunoreactivity levels in the amygdala of awake rats duringrestraint stress and ethanol withdrawal as measured by microdialysis. J Neurosci. 15: 5439-5447, 1995
13. Rassnick S, Heinrichs SC, Britton KT, Koob GF.Microinjection of a corticotropin-releasing factor antagonist into the centralnucleus of the amygdala reverses anxiogenic-like effects of ethanol withdrawal.Brain Res. 605: 25-32, 1993
14. Schmidt LG, Sander T. Genetics of alcohol withdrawal. Eur Psychiatry 15: 135-139, 2000
15, Hrubec Z, OmennGS. Evidence of genetic predisposition to alcoholic cirrhosis and psychosis:twin concordances for alcoholism and its biological end points by zygosityamong male veterans. Alcohol Clin ExpRes. 5: 207-215, 1981
16. Reed T, Page WF, Viken RJ, Christian JC. Geneticpredisposition to organ-specific endpoints of alcoholism. Alcohol Clin Exp Res. 20: 1528-1533, 1996
17. Kosobud A, Crabbe JC.Ethanol withdrawal in mice bred to be genetically prone or resistant toethanol withdrawal seizures. JPharmacol Exp Ther. 238: 170-177, 1986
18. Schmidt LG, Harms H, Kuhn S, Rommelspacher H, Sander T.Modification of alcohol withdrawal by the A9 allele of the dopamine transportergene. Am J Psychiatry. 155: 474-478,1998
19. Laine TP, Ahonen A, Rasanen P, Pohjalainen T, TiihonenJ, Hietala J. The A1 allele of the D2 dopamine receptor gene is associated withhigh dopamine transporter density in detoxified alcoholics. Alcohol Alcohol 36: 262-265, 2001
20. ConigraveKM, Davies P, Haber P, Whitfield JB. Traditional markers of excessive alcohol use.Addiction 98 Suppl 2: 31-43, 2003
21. LittenRZ, Allen JP, Fertig JB. Gamma-glutamyltranspeptidaseand carbohydrate deficient transferrin: alternative measures of excessivealcohol consumption. Alcohol Clin Exp Res. 19:1541-1546, 1995
22. Sullivan JT, Sykora K, Schneiderman J, Naranjo CA,Sellers EM. Assessment of alcoholwithdrawal: the revised clinical institute withdrawal assessment for alcoholscale (CIWA-Ar). Br J Addict 84:1353-1357, 1989
23. Prater CD, Miller KE, Zylstra RG. Outpatient detoxificationof the addicted or alcoholic patient. AmFam Physician. 60: 1175-1183, 1999
24. Myrick H, Anton RF. Clinical management of alcoholwithdrawal. CNS Spectrums. 5: 22-26, 2000
25. Ballenger JC, Post RM. Kindling as a model for alcoholwithdrawal syndromes. Br J Psychiatry133: 1-14, 1978
26. Malcolm R, Roberts JS, Wang W, Myrick H, Anton RF. Multiple previous detoxifications areassociated with less responsive treatment and heavier drinking during an indexoutpatient detoxification. Alcohol. 2000 Nov;22(3):159-64
27. Malcolm R, Myrick H, Roberts J, Wang W, Anton RF,Ballenger JC. The effects ofcarbamazepine and lorazepam on single versus multiple previous alcoholwithdrawals in an outpatient randomized trial. J Gen Intern 17: 349-355,2002
28. Malcolm R, Myrick H, Roberts J, Wang W, Anton RF. Thedifferential effects of medication on mood, sleep disturbance, and work abilityin outpatient alcohol detoxification. AmJ Addict 11: 141-150, 2002
29. Whitfield CL, Thompson G, Lamb A, Spencer V, Pfeifer M,Browning-Ferrando M. Detoxification of 1,024 alcoholic patients withoutpsychoactive drugs. JAMA. 239:1409-1410, 1978
30. Mayo-Smith MF. Pharmacologicalmanagement of alcohol withdrawal. A meta-analysis and evidence-based practiceguideline. American Society of Addiction Medicine Working Group onPharmacological Management of Alcohol Withdrawal. JAMA 278:144-151, 1997
31. Daeppen JB, Gache P, Landry U, Sekera E, Schweizer V,Gloor S, Yersin B.
Symptom-triggered vsfixed-schedule doses of benzodiazepine for alcohol withdrawal: a randomizedtreatment trial. Arch Intern Med 162: 1117-1121, 2002
32. Myrick H, Brady KT, Malcolm R.Divalproex in the treatment of alcohol withdrawal.
Am J Drug Alcohol Abuse 26: 155-160,2000
Appendix 1. Addiction Research Foundation Clinical InstituteWithdrawal Assessment
Appendix 1
CIWA-Ar
|Patient:__________________________ Date: ________________ Time: _______________.(24 hour clock, midnight = 00:00) |
|[pic] |
|Pulse or heart rate, taken for one minute:_________________________ Blood pressure:______ |
|[pic] |
|NAUSEA AND VOMITING -- Ask "Do you feel sick to your stomach? Have you|TACTILE DISTURBANCES -- Ask "Have you any itching, pins and needles sensations, any burning, |
|vomited?" Observation. |any numbness, or do you feel bugs crawling on or under your skin?" Observation. |
|0 no nausea and no vomiting |0 none |
|1 mild nausea with no vomiting |1 very mild itching, pins and needles, burning or numbness |
|2 |2 mild itching, pins and needles, burning or numbness |
|3 |3 moderate itching, pins and needles, burning or numbness |
|4 intermittent nausea with dry heaves |4 moderately severe hallucinations |
|5 |5 severe hallucinations |
|6 |6 extremely severe hallucinations |
|7 constant nausea, frequent dry heaves and vomiting |7 continuous hallucinations |
|[pic] |[pic] |
|TREMOR -- Arms extended and fingers spread apart. Observation. |AUDITORY DISTURBANCES -- Ask "Are you more aware of sounds around you? Are they harsh? Do they |
|0 no tremor |frighten you? Are you hearing anything that is disturbing to you? Are you hearing things you |
|1 not visible, but can be felt fingertip to fingertip |know are not there?" Observation. |
|2 |0 not present |
|3 |1 very mild harshness or ability to frighten |
|4 moderate, with patient's arms extended |2 mild harshness or ability to frighten |
|5 |3 moderate harshness or ability to frighten |
|6 |4 moderately severe hallucinations |
|7 severe, even with arms not extended |5 severe hallucinations |
| |6 extremely severe hallucinations |
| |7 continuous hallucinations |
|[pic] |[pic] |
|PAROXYSMAL SWEATS -- Observation. |VISUAL DISTURBANCES -- Ask "Does the light appear to be too bright? Is its color different? |
|0 no sweat visible |Does it hurt your eyes? Are you seeing anything that is disturbing to you? Are you seeing |
|1 barely perceptible sweating, palms moist |things you know are not there?" Observation. |
|2 |0 not present |
|3 |1 very mild sensitivity |
|4 beads of sweat obvious on forehead |2 mild sensitivity |
|5 |3 moderate sensitivity |
|6 |4 moderately severe hallucinations |
|7 drenching sweats |5 severe hallucinations |
| |6 extremely severe hallucinations |
| |7 continuous hallucinations |
|[pic] |[pic] |
|ANXIETY -- Ask "Do you feel nervous?" Observation. |HEADACHE, FULLNESS IN HEAD -- Ask "Does your head feel different? Does it feel like there is a |
|0 no anxiety, at ease |band around your head?" Do not rate for dizziness or lightheadedness. Otherwise, rate severity.|
|1 mild anxious |0 not present |
|2 |1 very mild |
|3 |2 mild |
|4 moderately anxious, or guarded, so anxiety is |3 moderate |
|inferred |4 moderately severe |
|5 |5 severe |
|6 |6 very severe |
|7 equivalent to acute panic states as seen in severe |7 extremely severe |
|delirium or acute schizophrenic reactions | |
|[pic] |[pic] |
|AGITATION -- Observation. |ORIENTATION AND CLOUDING OF SENSORIUM -- Ask "What day is this? Where are you? Who am I?" |
|0 normal activity |0 oriented and can do serial additions |
|1 somewhat more than normal activity |1 cannot do serial additions or is uncertain about date |
|2 |2 disoriented for date by no more than 2 calendar days |
|3 |3 disoriented for date by more than 2 calendar days |
|4 moderately fidgety and restless |4 disoriented for place/or person |
|5 | |
|6 | |
|7 paces back and forth during most of the interview, | |
|or constantly thrashes about | |
| |Total CIWA-Ar Score ______ |
| |Rater's Initials ______ |
| |Maximum Possible Score 67 |
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