Millions of people worldwide have survived an admission to the intensive care unit (ICU), and the number of survivors is growing [1]. While these patients have survived a life-threatening illness, most survivors suffer important long-term complications [2]. Post-intensive care syndrome (PICS) is a term that describes the cognitive, psychological, physical and other consequences that plague ICU survivors [3, 4]. Our aim is to discuss the prevalence, risk factors, impact, prevention and management of PICS.
Short abstract
Post-intensive care syndrome (PICS): inpatient prevention and outpatient recognition are essential http://bit.ly/2GCgz1q
Millions of people worldwide have survived an admission to the intensive care unit (ICU), and the number of survivors is growing [1]. While these patients have survived a life-threatening illness, most survivors suffer important long-term complications [2]. Post-intensive care syndrome (PICS) is a term that describes the cognitive, psychological, physical and other consequences that plague ICU survivors [3, 4]. Our aim is to discuss the prevalence, risk factors, impact, prevention and management of PICS.
Prevalence and risk factors
Cognitive impairment occurs in 30–80% of ICU survivors, it may vary in severity and often lasts for years [3, 5]. Psychiatric illnesses, such as anxiety, depression or post-traumatic stress disorder (PTSD), occur in 8–57% of patients and also can persist for years [3]. New physical impairment occurs in 25–80% of patients [3, 6]. In addition, patients may have new symptoms such as dyspnoea or pain, sexual dysfunction, impaired pulmonary function, and impaired exercise tolerance [7, 8]. The prevalence of post-ICU sequelae varies widely among different patient populations. Some patients survive ICU illness without any significant impairment, but a notable proportion experience impairment in multiple areas [9].
Major risk factors and potential biological mechanisms for post-ICU deficits have previously been outlined [10]. The major risk factor for long-term cognitive impairment is presence of delirium and duration of delirium [5, 11]. Other possible associations include hypoglycaemia, hyperglycaemia, hypoxaemia, hypotension and sedation [10]. Risk factors for post-ICU physical impairment may include a diagnosis of acute respiratory distress syndrome, prolonged mechanical ventilation, sepsis, multiorgan failure, exposure to systemic corticosteroids and others [10]. A higher frequency of post-ICU psychological sequelae has previously been associated with pre-ICU psychiatric symptoms, younger age, female sex, poor recall of the ICU stay and ICU sedation [10].
Impact of PICS
PICS-related impairments often have a profound impact on patients' and families' lives. Approximately one third of patients do not go back to work, another third of patients do not go back to their pre-ICU job or at the same pre-ICU salary [6]. Some patients cannot afford medications or travel to outpatient follow-up or to pay for in-home physical therapy sessions due to financial constraints or lack of resources. In addition, ICU survivors are at high risk for readmission to the hospital and ICU [12]. One quarter of patients require assistance in activities of daily living a year after ICU admission and this can have a tremendous effect on family members [6]. Approximately half of families providing care have to make a major adjustment to their working life, usually limiting the household salary [6]. Some families have to move to a less expensive home, lose their savings, delay medical care for other family members, or delay educational plans [13]. Family members can also develop anxiety, depression and PTSD that can persist beyond the hospitalisation, termed PICS-family [14].
Prevention of PICS
Several interventions have been found to prevent the development of psychological, cognitive, and physical consequences of ICU hospitalisation. The American College of Critical Care Medicine and the Society of Critical Care Medicine updated the Clinical Practice Guidelines for the Management of Pain, Agitation, and Delirium in Adult patients in the Intensive Care Unit (ICU PAD guidelines) in 2018 [15]. The focus of these guidelines has been adapted into the “ABCDEF” bundle, an evidence-based guide to direct treatment to prevent long-term cognitive impairment, delirium and physical decline in the ICU [16]. This refers to A) assess and manage pain, B) breathing trials and spontaneous awakening, C) choice of sedative, D) daily delirium monitoring, E) early mobility, and F) family engagement and empowerment [16]. Because delirium is associated with mortality in adult ICU patients and is a significant risk factor for cognitive impairment after admission, a significant proportion of the ICU PAD guidelines emphasis is on prevention and treatment of delirium [15, 16]. The guidelines also highlight daily interruption of sedatives for awakening trials. Daily awakening trials, as compared to awakening trials at provider discretion, have been shown to shorten mechanical ventilation by more than 2 days and length of stay in the ICU by 3.5 days [17]. Sedation should be with non-benzodiazepine medications and level of sedation should be frequently assessed objectively [15]. Early mobilisation also reduces physical decline, loss of muscle mass, and decreases the duration of delirium [18]. As such, ICUs are employing early mobilisation and integration of physical therapists and occupational therapists into the ICU setting. Encouragingly, use of the “ABCDEF” bundle has led to a three-fold increase in patients returning to independent functioning after hospital discharge in some populations [2].
ICU diaries, where ICU survivors can read what family members and ICU staff wrote about the patient's ICU experiences, have consistently been shown to reduce PTSD [8, 19, 20].
Post-ICU clinics
While the majority of ICU patients experience one or more post-ICU impairments, these impairments often go undiagnosed and are inadequately treated. Several possible reasons for inadequate diagnosis and treatment are outlined in table 1.
Table 1.
Possible contributors to inadequate diagnosis and treatment of PICS impairments in the outpatient setting
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Post-ICU clinics, first started in 1985 in the UK, were designed to evaluate and treat ICU survivors [21]. The objectives of post-ICU clinics include measurement of post-ICU health including assessments such as a 6-min walk test (6MWT) and/or spirometry to aid in the diagnosis of post-ICU impairments, symptom management, medication reconciliation, discussion of prognosis, and implementation of physical, psychological and cognitive rehabilitation [21]. While the composition and size of each post-ICU clinic is different, most have a team-based approach and may include physicians, nurse practitioners, social workers, physical therapists, occupational therapists, nurses, pharmacists and psychologists. While ∼30% of ICU patients in the UK currently undergo dedicated outpatient follow-up 2–3 months after ICU discharge [21], many other countries have only recently adopted the post-ICU clinic model and have much lower rates of dedicated follow-up. Unfortunately, post-ICU clinics have not been found to improve health-related quality of life more than the standard of care [8]. It can be difficult to predict which patients will benefit from specific ICU-centred follow-up, but it has been suggested that dedicated follow-up should be offered to patients that were on mechanical ventilation for more than 2 days between six and 12 weeks after hospital discharge [22].
Post-ICU rehabilitation
Rehabilitation efforts with physical and occupational therapists during ICU admission and shortly after represents an important strategy to improve patient outcomes. Rehabilitation efforts should be focused at all three domains of PICS: psychological, physical and cognitive [23, 24]. Regarding physical rehabilitation, outpatient programmes vary, but typically span 6–12 weeks after discharge and can include patient-directed exercises, in-home therapist sessions, telehealth delivery of therapy and can be bundled with cognitive rehabilitation [4, 23, 24]. In one small study, patient-directed rehabilitation exercises showed improvement in 6MWT and anxiety and depression scores [4]. Another study demonstrated improved independent activities of daily living in an intervention group undergoing a 12-week outpatient rehabilitation programme, but strength, as measured by the Timed Up and Go test, was not statistically different between the intervention and control groups [24]. There has been limited, but promising data for post-ICU cognitive rehabilitation [23]. In one randomised control trial, a 12-week cognitive and physical rehabilitation programme improved patients' cognitive executive functioning at 3 months [23]. Standardised cognitive rehabilitation protocols, such as the Goal Management Training protocol, have been developed to guide patients' rehabilitation [24]. Currently, it is recommended that patients with cognitive dysfunction, as defined by a Mini-Mental State Examination score <24, receive ongoing assessment of their cognitive status 3–6 months following discharge [23]. Regarding psychological rehabilitation, there is not a standardised approach. However, telephone-based techniques are an efficient and feasible method to counsel patients following discharge and have shown promise in improving patients' and caregivers' ability to cope [25].
ICU survivor peer support groups
There are a number of models for peer support groups including: community-based groups, psychologist led sessions, peer support meetings within follow-up ICU clinics, patient mentor–mentee relationships and telemedicine, among others [26]. One of the hurdles that prevent patients from seeking out or attending these groups is their inability to identify their deficits as related to their ICU admission [26]. It is likely that increased awareness of PICS among patients early in the discharge process and early introduction of the concept of peer support groups would help facilitate patients' recognition of their post-ICU deficits and encourage them to seek support.
Conclusion
In conclusion, although mortality of ICU patients has declined significantly in recent decades, morbidity after admission remains a significant issue. Certain preventative measures during ICU admission and rehabilitation efforts after admission show promise in reducing cognitive and physical consequences in ICU survivors. Post-ICU clinics have the potential to diagnose and treat deficits from ICU illness early, but at this time their efficacy has not been shown to be significantly better than the standard of care. Awareness of how to identify and manage PICS deficits is sorely needed among the clinicians who evaluate ICU survivors. More work is needed to standardise follow-up approaches and emphasis on prevention of cognitive, physical and psychological sequelae from the ICU is essential.
Footnotes
Conflict of interest: G.A. Colbenson has nothing to disclose.
Conflict of interest: A. Johnson is co-chair of SCCMs Thrive Peer Support Collaborative.
Conflict of interest: M.E. Wilson has nothing to disclose.
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