Best practice in the management of behavioural and psychological symptoms of dementia

Brain lesions and type of dementia

Dementia-related brain lesions and changes in neurotransmission have been linked to specific BPSD. ¹ Their effect may be moderated by other biological factors such as comorbidity or treatment-related factors, as well as the individual’s genetic make-up.

In the course of Alzheimer’s disease (AD), psychotic symptoms were found to be associated with neuronal loss in several brain regions, including the hippocampus, parahippocampal gyrus and various brain stem nuclei. ³⁹ In mixed (vascular and AD) dementia, vascular factors may trigger hallucinations, illusions, anxiety, dysphoria, aggression and delirium.^39–41

Besides the aphasic forms, FTD is defined by behavioural features (bv-FTD or behavioural variant of FTD). These features are present from the early stages of the disorder and include loss of interest and apathy, as well as disinhibition, including inappropriate sexual behaviour and impulsive behaviours that are more frequent than in other dementias. ³⁹ Both sporadic and familial forms of FTD have been described.^42,43 Similar to AD, a number of neurotransmitter and cortico-limbic changes have been linked to behavioural disruptions in FTD.^1,42,44 Clearly, FTD is an important differential diagnosis, particularly in the early dementia stages. It is different from the frontal variant of AD, ⁴⁵ and BPSD in FTD are probably less amenable to efficient treatment than in other forms of dementia.

Many neuroanatomical studies have been conducted that link BPSD to dementia-related brain lesions. For example, apathy was associated with hypoperfusion in the anterior cingulate cortex and fronto-subcortical structures,^1,46 giving rise to a disconnection model of apathy between the prefrontal cortex and the mediodorsal and anterior thalamic nuclei. ⁴⁷ However, hypoperfusion in frontal or temporal lobes was also found to correlate with aggression and psychosis. ¹ A variety of functional and structural parameters including, for example, white matter changes, ⁴⁸ atrophy patterns and vascular damage contribute to BPSD.^48,49

Changes in neurotransmission and neuromodulation

Changes in neurotransmission and neuromodulation have been found to correlate with BPSD. In AD, changes in cholinergic activity in the frontal and temporal cortices may be linked to aberrant motor activity and aggressive behaviour.^50,51 Visual hallucinations in DLB seem to be linked with cholinergic deficits in the temporal cortex. ⁵⁰ In AD, aggression was reported to be related to reduced dopamine concentration in the temporal cortex. ⁴⁴ Decreased norepinephrine neurons in the locus coeruleus are accompanied by aggressive behaviour.^1,52 Similarly, apathy was correlated with dopaminergic dysfunction in AD.^31,53,54 Serotonin concentration correlated positively with aggressiveness, depressed mood, anxiety, agitation and restlessness. ¹ Interestingly, serotonin and, thus, SSRIs, may improve hippocampal neurogenesis, ⁵⁵ and synaptic plasticity and survival of neurons are linked to the glutamatergic pathway.^1,56,57 Severe glutamate loss in AD may result in psychotic symptoms. Significant GABA decrease in the frontal and temporal cortex and high GABA plasma concentration were found in severe AD that correlated with depression and apathy. ¹ As drugs acting on the above-mentioned neurotransmitter systems are legion, it is evident that many of them can either cause or favour the development of BPSD ⁵⁸ or, on the contrary, have a potentially positive influence on them. Further pathway disorders related to neuromodulator and neuroendocrine systems have been proposed as correlates of BPSD, as well as circadian rhythms and sleep disorders,^1,59,60 including those of the hypothalamic–pituitary–adrenal axis or the homocystein metabolism. ⁶¹

A number of findings suggest a genetic vulnerability for BPSD, though this field of research is still in its infancy. As an example, AD subjects who are ApoEε4 carriers had more delusions and agitation/aggressive behaviours than non-ApoEε4 carriers. ⁶² Given the implication in BPSD of neurotransmitter changes, it may come as no surprise that specific polymorphisms may predispose to BPSD.^62–64

Physical disorders and pain

Physical disorders are often a central element in the understanding of BPSD and must be evaluated and treated accordingly.^1,6,58,65 Among the most frequent somatic causes of BPSD are pain, infections, electrolyte imbalances or metabolic disorders, urinary retention, constipation, cerumen and others. Any of these may cause BPSD and a thorough medical examination is therefore a requirement. Especially pain often leads to BPSD of various types, such as insomnia, aggressiveness or agitation. ⁶⁶ Looking for pain-inducing factors and eliminating them is pivotal, as pain is too often undetected and therefore undertreated in people with dementia.

Personality traits

Personality changes occur when dementia develops. In AD, a predictable change seems to occur independently of the previous personality, in that neuroticism usually increases while extraversion, openness and conscientiousness tend to decrease, with agreeability remaining more stable. ⁶⁷ Furthermore and apart from its obvious face validity, there is increasing evidence that our personality – what we are as persons – contributes to the clinical expression of dementia. Thus, some personality traits may favour, or on the contrary protect against, BPSD. Thus, in AD, increased neuroticism as a premorbid personality trait may be associated with a higher risk for depression,^1,65,68,69 and even be a risk factor for cognitive decline and AD.^70,71 Patients who have been suspicious or aggressive before dementia starts are more likely to have BPSD than those without these traits.^1,69 However, such correlations have not always been found ⁶⁸ and one of the more significant limitations of most of the studies currently available is the use of retrospective personality ratings, subjecting their findings to possible inaccuracies. Psychiatric diseases may be risk factors for dementia as this has been established for depression and for BPSD. ⁷²

Life events

Stressful life events in childhood or adulthood may favour BPSD in dementia through, among other etiopathogenic lines, increased vulnerability related to hippocampal hypotrophy and behavioural inhibition or insecure attachment.^56,73–75 Thus, overt attachment behaviour towards a family member or stranger was pronounced in old nursing home residents depending on the degree of cognitive impairment, suggesting that dementia eroded feelings of security and activated attachment behaviours.^76,77 Securely attached individuals with dementia displayed more positive affect than avoidantly attached individuals. ⁷⁸

Environmental risks

Environmental factors, both physical and social, are likely to precipitate or buffer BPSD. Thus, lower levels of BPSD are associated with well-being of nursing home residents, which is in turn related to environmental characteristics such as unobtrusive safety features, variety of spaces in environments with calm, single rooms available, small facility size, and optimization of levels of stimulation, taking into account the capacities of each patient. ¹ Similarly, caregiver distress can exacerbate BPSD and family discord or altered communication in the family need to be assessed.^79,80

Psychosocial interventions

Psychoeducation for patients and caregivers can reduce BPSD.^6,86–88 Multi-component single and group session programmes are effective if they focus on stressful events, provide both information about the disease and assistance, and allow for exchange on experiences as to how to deal with daily problems. Group sessions are more disburdening for caregivers when they include training in behavioural management techniques.^87,88 Coping strategy-based family carer therapy and tailored activities for people with dementia and their caregivers were found to improve quality of life of people with dementia living at home. ⁸⁸ Psychoeducational interventions may be accompanied by social counselling, organizing assistance and supporting patients and caregivers. Psychosocial interventions, in general, decrease caregiver depression and can help delay the institutionalization of patients. ⁸⁹

Nursing care

The need-driven dementia-compromised behaviour model (NDB) can help understand BPSD as a dysfunctional expression of needs. ⁹⁰ Based on this model, behavioural analysis in nursing care may recognize the patient’s urgent needs and reveal their causes. Some factors causing BPSD, such as pain, hunger or thirst, can be satisfied immediately. However, personality characteristics and the biography of the patient, comorbidities and the lack of personal resources can complicate the course of the disease. The Serial Trial Intervention, based on the NDB model, uses systematic serial assessments and sequential trials of treatments to identify and treat unmet needs that may be the underlying cause of BPSD. It has been shown to reduce BPSD and the use of psychotropic drugs. ⁹¹ Special nursing care interventions targeting vocalization ⁹² and sexual disinhibition ⁹³ may be helpful to comfort patients.

Physical activity

Regular exercise improves physical fitness, behaviour, cognition and functioning in older people. ⁹⁴ There is strong evidence that regular physical activity improves physical, cognitive, functional and behavioural outcomes also in patients with dementia and can help reduce BPSD. ⁹⁴ Usually, training programmes are based on walking (mobility training) or they combine walking with different types of isotonic exercises.

Sensory stimulation and music therapy

Music therapy and multisensorial stimulation techniques such as snoezelen are effective in reducing agitation and disruptive behaviour during sessions and immediately after the intervention.^6,86 However, there is no evidence for long-term effects. Biography-related music and combination with sensory stimulation seem to be more effective.

Reality orientation and cognitive stimulation therapy

These interventions are based on the idea that a better orientation in daily life to persons, time or surroundings can improve BPSD. ⁸⁶ Reality orientation therapy is more effective in combination with other techniques in improving mood and decreasing BPSD. Derived from reality orientation therapy, cognitive stimulation therapy addresses current problems in functioning using information processing. ⁸⁶ There are some immediate effects on BPSD, but the data are inconsistent.

Validation therapy

This patient-centred technique intends to resolve unfinished conflicts by encouraging and positively validating expression of feelings. ⁸⁶ There is some evidence that positively validating expression of feelings may reduce irritability.

Reminiscence therapy

Reminiscence therapy uses objects from daily life to stimulate memory and enable people to value their experiences. ⁸⁶ This intervention can improve mood.

Psychotherapeutic interventions

Psychological therapies have been investigated in mild to moderate dementia. The highest level of evidence of efficacy is available for cognitive behavioural techniques.^6,86,95,96 Focusing on daily problems, psychotherapeutic interventions are more effective if caregivers are involved in the process. Combination with psychoeducation and family counselling improves effectiveness.^96,97 Behavioural management techniques improve depression, anxiety, aggression and agitation in dementia. ⁸⁶ The effect is significant and lasts for months. Since caregivers can also develop depression during the care process, they can also benefit from individual psychotherapy.

Antidementia drugs

There is some evidence that cholinesterase inhibitors and memantine may be useful in the management of BPSD.^{6,14,98–101} Cholinesterase inhibitors may improve affective features in mild to moderate dementia. Cholinesterase inhibitors and memantine may be effective to treat BPSD. Indeed, donepezil may alleviate the following BPSD in mild to moderate dementia: apathy, depression, tension, irritability. There are similar findings for galantamine and rivastigmine. However, treatment of agitation in AD by donepezil appears to be inefficient. In conclusion, cholinesterase inhibitors have a certain efficacy on negative symptoms.^6,102 Memantine may be more effective on positive symptoms including agitation, delusions and hallucinations, as well as aggression in moderate to severe AD.^6,102 However, more recent trials specifically designed for treatment of agitation challenge these findings as they failed to demonstrate a benefit.^99,103,104 Finally, antidementia drugs may reduce the incidence of BPSD. There are also data that provide some evidence for the preventive efficacy of Ginkgo biloba extract EGb 761® in the treatment of dementia patients with clinically relevant BPSD. ¹⁰⁵

Antidepressants

Depression and anxiety are among the most common BPSD and an effective antidepressive therapy in dementia can improve both cognition and affective symptoms as well as other forms of BPSD, such as agitation and aggressiveness.^6,14,106 Tricyclic antidepressants are not recommended because of their anticholinergic adverse events. SSRIs have reasonable tolerability and favourable treatment response. In dementia, SSRIs (specifically citalopram) are as efficacious as atypical antipsychotics for treating agitation. ¹⁰⁷ SSRIs can be associated with severe adverse effects such as QT-prolongation and hyponatraemia.

Antipsychotics

First, it is important to state that antipsychotics have not been approved for clinical use in dementia, except for risperidone, at least in some countries. Thus, clinicians ought to refer to their country’s legislation before introducing an antipsychotic drug to treat BPSD. Atypical antipsychotics such as risperidone and aripiprazole are among the most often (and probably too often) prescribed drugs in BPSD. They are effective in the treatment of psychotic symptoms, agitation and aggression.^2,14,108,109 Haloperidol may be considered in the treatment of delirium in dementia, but it is not recommended for a different use in dementia. Haloperidol is only recommended for delirium because of its high potential for side-effects. Adverse events associated with atypical antipsychotics include anticholinergic effects, orthostatic hypotension, seizures, metabolic syndrome, weight gain, extrapyramidal symptoms, sedation and QT-prolongation. The increased mortality and the risk for cerebrovascular incidents have led to a black box warning for the use of antipsychotics in dementia. Antipsychotics can be necessary and helpful in the treatment of certain BPSD, but their use must be limited in time. Regular evaluations of risks and benefits are necessary throughout the course of the treatment. ¹¹⁰ While the evidence on the efficacy of quetiapine for BPSD is mixed, it is widely used clinically. ¹¹¹ Due to its favourable side-effect profile, particularly regarding extrapyramidal signs, quetiapine may be of particular value for BPSD, especially in patients with Parkinsonian features, despite conflicting evidence. ¹¹²

Mood stabilizers

Although carbamazepine shows some benefit for agitation in dementia, mood stabilizers are often associated with severe side-effects.^2,14,113 Thus, valproic acid is not recommended. There is some clinical experience and limited evidence for gabapentine and lamotrigine in the treatment of BPSD.

Benzodiazepines

Evidence for the efficacy of benzodiazepines in BPSD is lacking. Benzodiazepines are associated with sedation, dizziness, falls, worsening cognition, respiratory depression, dependency and paradoxical disinhibition in the elderly. They are thus only recommended for the management of an acute crisis,^6,14 if other methods fail. Their use must be limited in time and they should not be prescribed as hypnotics.

Other substances

Hypnotics such as zopiclone, zolpidem or zaleplone can have similar side-effects as benzodiazepines. ⁶ They are used for sleep disorders in dementia over a limited period of time and at small doses. Sedative antidepressants such as trazodone seem to improve sleep duration. Melatonin and melatonin receptor agonists can be effective in treating circadian sleep disorders.^34,35