Delirium was also termed as an acute confusional state, toxic or metabolic encephalopathy, acute brain failure, is essentially defined by DSM-5 criteria as an impairment in attention and awareness that develops over a relatively short time interval and associated with additional cognitive deficits. The term “ICU psychosis” is an unfortunate and outdated misnomer for delirium. This term was previously used to refer to hyperactive delirium within the intensive care unit (ICU) setting and came into use when the high prevalence of delirium was recognized in this population.
Because delirium represents the most common clinical manifestation of acute brain dysfunction in ICU affecting up to 83% of ICU patients on mechanical ventilation (MV), new-onset confusion in the adult patient always warrants further evaluation. However, the clinical evaluation must be accurate as it can often be difficult to distinguish it from other clinical conditions. DSM-5 criteria explicitly state that these new changes in mentation must be in the absence of a neurocognitive disorder that could explain the confusion, and do not occur in the setting of a reduced level of arousal (e.g., coma). Thus, although an identifiable cause of the delirium is often not found, a thorough evaluation for reversible causes of delirium is warranted, and multiple causes may be present in combination. In this regard, there is a large array of possible causes of delirium that range from intoxication and withdrawal states to other serious neurological insults like meningitis and stroke. The prevention, identification, and management of delirium has important consequences for patient outcomes, both during admission and after discharge.
Regardless of the clinical setting, there are three subtypes of delirium categorized according to the psychomotor behavior:
While hyperactive delirium is the more commonly identified form of delirium outside the ICU, the hypoactive (24.5% to 43.5%) and mixed (52.5%) types are more often observed in ICU patients. Hyperactive ICU delirium accounts for approximately 23% of cases. It is characterized by agitation, restlessness, emotional lability, and positive psychotic features such as hallucinations, illusions that often interfere with the delivery of care. It should be remembered that new-onset psychotic symptoms in older adult patients are unlikely to be a primary mental illness, and search for a pharmacological or physiological cause should be carried out. Hypoactive delirium is commonly characterized by confusion, sedation, apathy, decreased responsiveness, slowed motor function, withdrawn attitude, lethargy, and drowsiness. This type of delirium is often underrated and is associated with a worse prognosis. Mixed delirium is the most frequent type, accounting for about half of the total cases. It is a combination of the two forms previously described, and patients manifest a fluctuation of hypoactive and hyperactive features.
It is necessary to maintain a broad differential and a low threshold for suspicion of other inciting insults that may be the cause of delirium. The identifiable leading causes of delirium broadly include, but are not limited to:
Risk Factors for Delirium
The literature has identified multiple risk factors. Among these, the most studied are mentioned:
Interestingly, a mnemonic bundle (DELIRIUM) was proposed (Saint Louis University Geriatrics Division and St. Louis Veterans Affairs) for assessing the main causes of delirium:
D=DrugsE=Eyes, ears, and other sensory deficitsL=Low O2 states such as heart attack, stroke, and pulmonary embolismI=InfectionR=Retention (of urine or stool)I=Ictal stateU=Underhydraton/undernutritionM=Metabolic causes (e.g., diabetes, sodium abnormalities)
Within the ICU setting, numerous risks have been identified:
The prevalence of delirium in the community ranges from 1 to 2% but increases to up to 10-30% in elderly patients presenting to the emergency department. On the general medical unit, the prevalence further increases to approximately 14 to 24% and continues to rise to upwards of 70 to 87% within the ICU. Post-operative rates range from approximately 15 to 53% of older adults.
The delirium pathophysiology is not fully elucidated and may not be due to a single pathway given the wide variety of causes. It is generally thought to be an interplay between unique patient characteristics such as advanced age, and cognition, and physiological insults. Many theoretical mechanisms have been proposed that range from neurotransmitter dysregulation, neuroinflammation with microglial activation, oxidative stress, neuronal aging, and sleep-wake cycle dysfunction, among other theories.
Derangements of different neurotransmitter pathways have been seen in the pathophysiology of delirium, most importantly, dopamine and acetylcholine. Dopamine excess and acetylcholine depletion have been found linked to delirium. Other neurotransmitters like glutamate, gamma-aminobutyric acid, serotonin, and endorphins also play a role.
Inflammatory markers produced during a critical illness like cytokines, chemokines, tumor necrosis factor-alpha initiate a sequence of events leading to microvascular compromise, thrombin formation, and endothelial damage. Inflammation can cause brain dysfunction by decreasing cerebral blood flow due to the formation of microaggregates of fibrin, platelets, neutrophils, red blood cells in the cerebral microvasculature.
Another hypothesis is the reduction of cerebral oxidative metabolism leading to alteration of neurotransmission. Failure of cerebral oxidative metabolism is found to be important in the pathogenesis of multiple organ dysfunction in critical illness.
Neurotransmitters level and function are directly influenced by plasma concentration of many amino acids, and decreased availability of neutral amino acids can lead to delirium in patients admitted to ICU.
There may be some cross-talk between proposed pathways that explain the different phenotypic presentations of delirium (hyperactive, hypoactive, and mixed), but not enough evidence exists at this time to definitively describe the pathophysiology behind this condition.
History will reveal deficits in attention and awareness with at least one alteration in cognition (per DSM-5 criteria for delirium). These changes often develop within a short time frame and are frequently noted to fluctuate during the day. An existing or emerging neurocognitive disorder must not better explain these changes. Classic assessment of orientation to person, place, situation, and time may not be enough for evaluation of delirium, as patients can be alert and oriented to all of these but still meet criteria. The course of delirium can last days to months. Additional symptoms include positive psychotic symptoms, confusion, lethargy, and drowsiness, among other symptoms.
A complete neurological and physical exam should be performed and may reveal clues suggesting the cause of delirium. The presence of a fever, for example, provides clues of an infectious etiology, whereas focal neurological deficits may indicate a neurological or vascular cause of the delirium.
Thorough patient history may reveal other clues, including a history of substance or alcohol abuse that may suggest intoxication, withdrawal, or relevant vitamin deficiency.
Laboratory and radiographic testing should be done in the light of the patient's history and physical exam, with the following investigations providing a partial list of what should be considered:
ICU Delirium Assessments:
The Confusion Assessment Method-ICU (CAM-ICU) and the Intensive Care Delirium Screening Checklist (ICDSC) are both extensively validated and used for delirium diagnosis and evaluation of delirium over time. They allow the assessment of attention, orientation, memory. Of note, both tools allow nonpsychiatric ICU personnel to diagnose the complication rapidly and reliably and can be adopted even when the patient is unable to speak due to endotracheal intubation.
The CAM-ICU provides two steps. In the first one, the level of consciousness/arousal is evaluated through a standardized sedation scale such as the Richmond Agitation-Sedation Scale (RASS). This latter is a 10-point scale ranging from +4 to -5, where a RASS value of 0 indicates a calm and alert patient; RASS scores of -4 and -5 are indicative of coma and cannot be further assessed for delirium. All other individuals (moderately sedated, RASS score -3 or more alert) should also be evaluated through the second step assesses patients for four characteristics of delirium. The categories include acute onset of altered mental status, inattention, disorganized thinking, or altered level of consciousness. Three out of four features are required for a diagnosis of delirium. The tools, validated in 1990, has been updated by Marcantonio et al. in 2014, in the 3-Minute Diagnostic Assessment for Delirium (3D-CAM). It is an algorithm easy to perform and can be used by personnel with minimal additional training.
Through the ICDSC, the level of consciousness is firstly evaluated on a 5-point scale (A to E) that ranges from unresponsive (A) to exaggerated response (E). Patients who are scored in the categories 'A=No response' or 'B=Response to intense and repeated stimulation' are no further assessed. The other patients (C to E levels of consciousness) are checked for information collected during the previous 24 hours, investigating eight items (rated present or absent) with a total score of 0 to 8. A score of 4 or greater is considered diagnostic of delirium.
I addition to the tools for ICU detection, a careful clinical assessment must be performed. For instance, it is mandatory to perform frequent vitals and/or neuro checks.
Pharmacological and Non-pharmacological Management Strategies:
It is generally accepted that there are no identified therapies (medications or interventions) proven to decrease the duration of delirium. As a consequence, treating the underlying physiological insult is of key importance. Also, other interventions should be considered for delirium management:
Interventions for symptomatic ICU treatment can be divided into pharmacological and non-pharmacological strategies.
There is much debate regarding the utility of antipsychotics and other medications such as physostigmine, rivastigmine, and donepezil in preventing and decreasing the duration of delirium. In the ICU setting, although there is no evidence that treatment with haloperidol will reduce the duration of delirium, it is the most commonly adopted treatment. Moreover, there is some evidence that atypical antipsychotics may be useful.
In the general medical ward, there is some evidence that targeting modifiable risk factors and multicomponent patient-centered approaches may decrease the incidence and average duration of delirium. These include interventions improving cognitive impairment, good sleep hygiene, mobility, vision, and hearing. Besides, strategies for preventing infection, dehydration, constipation, and hypoxia are mandatory. Currently, no pharmacological agents have enough evidence to recommend their use in preventing delirium. In the ICU setting, mechanically ventilated adult patients at risk of developing delirium may benefit from dexmedetomidine infusions (e.g., 0.1 μg/kg per hour) over BDZs infusions in regards to decreasing the prevalence of delirium. Melatonin is probably useful for ICU delirium, but further studies are needed. There is also evidence that early mobilization of the adult ICU patient population may reduce the duration and incidence of delirium.
A mnemonic ABCDEF bundle was proposed for assessing and preventing the complication.
Wassenaar et al. proposed the UNDERPIN-ICU (nUrsiNg DEliRium Preventive INterventions in the ICU), which consists of standardized protocols aimed at implementing several modifiable risk factors for delirium. The interventions are mainly focused on cognitive impairment, sleep deprivation, immobility, and visual and hearing impairment. Different tools for ICU delirium prevision, such as the prediction model for delirium (PRE-DELIRIC) and the early prediction model for delirium (E-PRE-DELIRIC), have been proposed. Both models showed a have moderate-to-good performance.
Delirium is a diagnosis of exclusion and requires accurate clinical testing and observation. Several conditions must be considered for the differential diagnoses.
Patients with delirium have a more extended hospital stay, and six months' survival is lower than do the patients without delirium. Delirium can lead to long term cognitive impairment in patients who survive critical illness.
Patients that develop delirium may have numerous complications including:
In addition, there is a rise in the cost of care
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