Chemotherapies

Cancer patients frequently suffer mental and behavioural changes, which can present at any stage of the illness. The changes may be multifactorial in origin, i.e. secondary to the disease process, adverse effects of the treatment and the psychological distress associated with cancer diagnosis (Reference Holland, Andersen and BreitbartHolland 2013). It is thus difficult to recognise the adverse effects and specifically attribute them to a drug from the prescribed combination of chemotherapy.

Almost all chemotherapeutic agents are associated with significant psychiatric adverse effects. Commonly reported adverse effects include cognitive impairment (≈75%), delirium or confusional state (≈30%) and psychotic symptoms (Reference Ferrando, Levenson and OwenFerrando 2010; Reference Janelsins, Kohli and MohileJanelsins 2011). Predisposing factors such as age, dementia, functional impairment, nature and severity of illness, and malnutrition increase the risk of experiencing delirium during hospital admissions (Reference Holland, Andersen and BreitbartHolland 2013). Mood symptoms or disorders (manic or depressive), anxiety symptoms, agitation and suicidal behaviour may also be seen but are less common (Reference Ferrando, Levenson and OwenFerrando 2010; Reference Holland, Andersen and BreitbartHolland 2013). Some chemotherapeutic agents, such as vincristine, vinblastine, procarbazine, asparaginase and tamoxifen, may produce depressive symptoms (Reference Mehta and RothMehta 2015). Delirium has been associated with methotrexate (intrathecal or intravenous), 5-fluorouracil, vincristine, vinblastine, bleomycin, carmustine, cisplatin, asparaginase, procarbazine, cytosine arabinoside and ifosfamide (Reference Mehta and RothMehta 2015).

‘Chemobrain’ or cancer therapy-associated cognitive change is a phenomenon identified in patients who have received chemotherapy and hormonal therapy and have experienced difficulty in executive functions, multitasking, short-term memory recall and attention (Reference Mehta and RothMehta 2015). These cognitive changes seem to be dose-dependent, and certain chemotherapeutic agents, including methotrexate, fludarabine, cytarabine, 5-fluorouracil and cisplatin, are associated with worse cognitive effects (Reference Wefel, Kesler and NollWefel 2015).

If the psychiatric symptoms are severe, active psychiatric intervention is required. Psychotropic drugs must be carefully selected to avoid adverse interactions with chemotherapeutic agents, including interactions that potentially limit the therapeutic efficacy of chemotherapy (Reference Holland, Andersen and BreitbartHolland 2013).

Immunomodulators

Immunomodulator drugs modulate (i.e. stimulate or suppress) the activity of immune system and are widely used in clinical practice. These drugs are generally prescribed for the treatment of cancers, lymphomas and autoimmune disorders, as well as post-organ transplantation and in the management of allergies. They include cytokines (interferons), interleukins, calcineurin inhibitors, corticosteroids, retinoic acid compounds and antihistamines. Adverse effects of immunomodulators include mood disturbance, insomnia, cognitive impairment and delirium (Reference Heinrich and MarcangeloHeinrich 2009).

Calcineurin inhibitors (ciclosporin, tacrolimus) are reported to produce neurotoxic effects in 40–60% of organ transplant recipients (Reference BechsteinBechstein 2000). The risk increases with biochemical and electrolyte derangements, intravenous drug administration or disruption of the blood–brain barrier (Reference BechsteinBechstein 2000). Interferons and interleukins have been implicated in psychiatric adverse effects such as depression, anxiety, psychosis, suicidal ideation, hypomanic symptoms and cognitive impairment (Reference Myint, Schwarz and SteinbuschMyint 2009). Interferons are frequently associated with affective disturbance, with depressive disorders seen in 16–58% of individuals. The disturbance may appear weeks or months into treatment and is more frequently associated with high-dose therapy (Reference Raison, Demetrashvili and CapuronRaison 2005; Reference Myint, Schwarz and SteinbuschMyint 2009). Depressive disorders are more of a concern with interferon-α (especially interferon-α2b) than interferon-β (Reference Raison, Demetrashvili and CapuronRaison 2005). Isotretinoin is known to be associated with depression, suicidal ideation and psychosis (Reference Borovaya, Olisova and RuzickaBorovaya 2013). The frequency of depressive disorders during treatment with this drug varies from 1 to 11% in different studies, but it is unclear whether this is a consequence of isotretinoin therapy (Reference Borovaya, Olisova and RuzickaBorovaya 2013). The effect is not known to be related to dose or duration of treatment, or to previous psychiatric illness. Antihistamines are known to be associated with sedation, cognitive impairment, agitation, psychosis and delirium (Reference Turjanski and LloydTurjanski 2005; Reference Simons and SimonsSimons 2008). These effects are more pronounced with first-generation H₁ antagonists and are rarely seen with newer agents (Reference AbramowiczAbramowicz 2008; Reference Simons and SimonsSimons 2008). H₂ antagonists (especially cimetidine) have a risk of causing cognitive impairment and delirium in elderly and seriously ill patients (Reference AbramowiczAbramowicz 2008).

Corticosteroids are the most commonly prescribed immunomodulators and are used for a variety of medical conditions. Psychiatric complications are not rare and range from clinically significant anxiety, insomnia, emotional lability, irritability and cognitive impairments to severe mood disorders, psychotic disorders, delirium and reversible dementia (Reference Kenna, Poon and De Los AngelesKenna 2011; Reference Judd, Schettler and BrownJudd 2014). Dependence is an unusual but serious adverse effect of corticosteroid use and is based on the propensity of these drugs to induce euphoria as well as a characteristic withdrawal syndrome, in addition to directly influencing reward circuitry (Reference Kenna, Poon and De Los AngelesKenna 2011). Transient mild to moderate subsyndromal psychiatric symptoms are seen in approximately 13–62% of patients, while the incidence of major or severe symptoms ranges from 5 to 10% across studies (Reference Warrington and BostwickWarrington 2006). These adverse effects have a rapid onset after starting corticosteroids (usually within 1–2 weeks), and the likelihood of psychiatric symptoms follows a striking dose–response correlation. Hypomania and mania are the most common acute adverse effects, while the risk of depression increases after long-term or chronic corticosteroid therapy (Reference Kenna, Poon and De Los AngelesKenna 2011; Reference Judd, Schettler and BrownJudd 2014). The risk of adverse effects is not significantly associated with history of psychiatric disorder or prior episodes of steroid-induced psychiatric symptoms (Reference Kenna, Poon and De Los AngelesKenna 2011).

Cardiovascular drugs

Numerous medications acting on the cardiovascular system have been associated with neuropsychiatric adverse effects, ranging from mood symptoms to cognitive effects to psychosis (Reference Huffman and SternHuffman 2007). Among the antihypertensives, calcium channel blockers, angiotensin-converting enzyme (ACE) inhibitors and angiotensin II receptor antagonists are associated with mood symptoms, psychosis and delirium, although the rates are low (Reference Ferrando, Levenson and OwenFerrando 2010; Reference ParkerParker 2012). However, diuretics may cause confusion and delirium secondary to electrolyte imbalance. Centrally acting agents such as clonidine, methyldopa and reserpine are consistently associated with fatigue and sedation (Reference Huffman and SternHuffman 2007). Depression was previously thought to be associated with beta-blockers (especially propranolol), methyldopa and reserpine. However, recent syntheses of data suggested that these associations are much weaker than originally believed (Reference Celano, Freudenreich and Fernandez-RoblesCelano 2011; Reference ParkerParker 2012). Fatigue and sedation are common adverse effects with clonidine (35%), beta-blockers (>10%) and ACE inhibitors (>5%) (Reference Sidhu and BalonSidhu 2008). Several anti-arrhythmic drugs are associated with psychosis and delirium. Lipid-lowering drugs (statins) have previously been the focus of controversy, owing to concern regarding suicidal ideation and behaviour; however, several large prospective studies and meta-analyses failed to establish a causal association (Reference Celano, Freudenreich and Fernandez-RoblesCelano 2011). Most of the literature on major adverse effects of cardiovascular drugs is based on case reports and case series, and results from the few available well-controlled trials are mixed and inconclusive. Cardiovascular drugs may not consistently cause neuropsychiatric symptoms in the general population, although idiosyncratic reactions are possible (Reference Huffman and SternHuffman 2007).

Anticonvulsants

Adverse psychiatric effects associated with anticonvulsants are observed in about 15–20% of patients with epilepsy (Reference Perucca and GilliamPerucca 2012). Major effects of these drugs are behavioural and personality changes, mood disorders (especially depression), suicidal behaviour and psychosis (Reference Ferrando, Levenson and OwenFerrando 2010). In early 2008, the US Food and Drug Administration (FDA) issued a warning of an increased risk of suicidal ideation and behaviour during treatment with anticonvulsant drugs. The warning was based on a meta-analysis of 199 trials focusing on 11 anticonvulsants prescribed for various conditions, including epilepsy and psychiatric disorders, and later in the same year it was amended to include all anticonvulsant drugs (FDA 2008). However, no black box warning or prescription restrictions were imposed. Subsequent efforts at replicating the FDA meta-analysis and conclusions primarily by means of post-marketing observational studies have had mixed results. The risk of developing adverse psychiatric effects varies considerably among anticonvulsants, with comparatively higher risks associated with barbiturates, vigabatrin, tiagabine, topiramate, levetiracetam, zonisamide and felbamate (Reference Perucca and GilliamPerucca 2012). Recent evidence suggests that individual susceptibility plays an important part; for example, a positive psychiatric history is reported as an important risk factor for developing adverse psychiatric effects with some anticonvulsants (e.g. topiramate, levetiracetam) (Reference Perucca and GilliamPerucca 2012). The extent of suicide risk associated with anticonvulsants remains an open question, requiring caution and a high level of suspicion on the part of the clinician.

Anti-Parkinsonian drugs

Almost all anti-Parkinsonian drugs are associated with psychosis (20–30%), sleep disturbance, cognitive impairment and mood changes (Reference Zahodne and FernandezZahodne 2008). Patients with advanced disease, prolonged duration of treatment, cognitive impairment and dyskinesias are at higher risk of developing these adverse effects (Reference Ferrando, Levenson and OwenFerrando 2010). Impulsive and compulsive behaviours, including pathological gambling, hypersexuality, compulsive shopping, compulsive eating, excessive engagement in hobbies, punding and dopamine dysregulation syndrome are other serious side-effects of dopaminergic medications (Reference RajaRaja 2012). The estimated prevalence of impulse control disorders is as high as 14% among patients with Parkinson's disease treated with these medications (Reference RajaRaja 2012). The propensity to develop adverse effects is highest with anticholinergics, followed by amantadine, dopamine agonists and catechol-O-methyltransferase (COMT) inhibitors, and is least with the use of levodopa (Reference Zahodne and FernandezZahodne 2008). For management of adverse effects, drugs are sequentially reduced or withdrawn. When this strategy is not successful, antipsychotic treatment may be more appropriate. Quetiapine is the antipsychotic of choice in such cases, owing to more favourable tolerability than clozapine and other antipsychotics.

Antiretroviral drugs

Antiretroviral drugs are known to be associated with a wide range of symptoms, varying from sleep disturbance and mood disorders to cognitive impairment and psychosis (Reference Abers, Shandera and KassAbers 2014). Establishing aetiology is challenging because of the considerable overlap between the adverse effects of antiretroviral drugs and the complications of HIV infection. Variable cerebrospinal fluid penetration of individual antiretroviral drugs may contribute to differences in potential effects (the greatest effects are found with efavirenz, and the least with tenofovir) (Reference SuvadaSuvada 2013). Adverse effects are usually dose related. Patients with a psychiatric history are more vulnerable. Among the antiretrovirals, efavirenz has been associated with the highest risk of adverse effects (>50%), with depression and sleep disorders being the most common effects (Reference Abers, Shandera and KassAbers 2014). These significant and distressing adverse effects may lead to poor adherence and interruption of antiretroviral therapy. Pharmacological management of these effects is complicated by significant interactions between antiretroviral and psychotropic drugs, which may necessitate withdrawal of a drug or change in treatment regimen.

Antitubercular drugs and other antibiotics

Adverse reactions have been mainly reported with cycloserine (9.7–50%), isoniazid (1.9%), ethionamide (1–2%) and fluoroquinolones (1–4.4%) (Reference Pachi, Bratis and MoussasPachi 2013). The risk of adverse reactions is increased with age, malnutrition, history of hepatitis, and HIV or hepatitis C virus infection (Reference Pachi, Bratis and MoussasPachi 2013). Several classes of antibiotics have side-effects ranging from minor confusion and irritability to severe encephalopathy and suicide (Reference Turjanski and LloydTurjanski 2005). Delirium is the most common adverse effect and is seen especially at high doses and in the presence of other risk factors. Quinolones and penicillins have higher risk of causing major psychiatric symptoms, including psychosis (Reference Ferrando, Levenson and OwenFerrando 2010). Amoxicillin (a penicillin-group antibiotic) is among the top ten most commonly prescribed drugs associated with psychiatric side-effects (Reference Hubbard, Levenson and PatrickHubbard 1991). Commonly prescribed antimalarial drugs (mefloquine, chloroquine etc.) have also been reported to be associated with psychiatric adverse effects, including sleep disorders, anxiety and depression (Reference Holvey, Connolly and TaylorHolvey 2010).

Drugs for endocrine disorders

Apart from corticosteroids, relatively little information is available regarding the psychiatric adverse effects of drugs acting on the endocrine system. Adverse effects of oral hypoglycaemics are secondary to hypoglycaemia or their insulin-like psychiatric effects, which include anxiety, dysphoria, irritability and confusion (Reference Ferrando, Levenson and OwenFerrando 2010). Previous reports have suggested that hormone replacement therapy and oral contraception may be associated with negative mood changes in women, but findings have been inconsistent. However, more recent findings indicate the potential benefits of these therapies in the prevention of depression among women (Reference Keyes, Cheslack-Postava and WesthoffKeyes 2013; Reference Gordon and GirdlerGordon 2014; Reference Cheslack-Postava, Keyes and LoweCheslack-Postava 2015). There is evidence in support of oestrogen-based therapies in the treatment of depression among perimenopausal and early postmenopausal women, but not women who are well into the postmenopausal period (Reference Gordon and GirdlerGordon 2014). Antithyroid medications have not been documented to cause any psychiatric side-effects. Good-quality evidence suggests that supraphysiological doses of anabolic steroids can directly cause hypomanic or manic symptoms, extending to aggression and violence (Reference Kersey, Elliot and GoldbergKersey 2012). The risk of dependence and development of depressive symptoms on drug withdrawal has also been documented (Reference Kersey, Elliot and GoldbergKersey 2012). Dopamine agonists used for hyperprolactinaemia also carry a risk of psychosis.

Analgesics

Non-steroidal anti-inflammatory drugs (NSAIDs) are frequently used in clinical practice, accounting for approximately 5–10% of all drug prescriptions (Reference Onder, Pellicciotti and GambassiOnder 2004). Psychiatric symptoms are rare but relevant, considering the common use of these drugs. Major adverse effects include changes in cognition, mood state (rarely psychosis), sleep disturbance, and precipitation or exacerbation of pre-existing psychiatric disorders. The underlying mechanism is unclear, although it is hypothesised to be a probable consequence of impairment in neurotransmission modulated by prostaglandins in susceptible individuals (Reference Onder, Pellicciotti and GambassiOnder 2004). Therefore, NSAIDs should be used with caution in high-risk individuals with pre-existing psychiatric illness and in the postpartum period. NSAID-related psychiatric adverse events have most commonly involved indomethacin and selective COX-2 inhibitors.

Surgery and critical care

Post-operative cognitive dysfunction is not uncommon after a major surgery and is usually short lived (Reference ParkerParker 2012). It is more common with general rather than regional anaesthesia, especially in the presence of other risk factors and medications. Malignant hyperthermia is a rare, potentially fatal adverse effect of some anaesthetics and neuromuscular blockers in genetically susceptible individuals (Reference Ferrando, Levenson and OwenFerrando 2010). Delirium is a major adverse effect of drugs commonly used in surgery and critical care.

Respiratory drugs and muscle relaxants

Beta agonists used for bronchial asthma and chronic obstructive pulmonary disease may lead to psychiatric symptoms secondary to their sympathomimetic actions (Reference Sidhu and BalonSidhu 2008). Over-the-counter drugs used for respiratory conditions, such as combinations of antihistamines and decongestants, can potentially lead to psychosis and delirium (Reference AbramowiczAbramowicz 2008). Skeletal muscle relaxants may also induce a variety of psychiatric symptoms.

Herbal remedies

Various alternative medicinal products are used by patients for a wide range of physical and psychiatric conditions, either alone or concomitant with allopathic medicine. With a few exceptions, there is a lack of systematic research and reliable data about the efficacy and safety of these herbal medicines (Reference ErnstErnst 2003, Reference Ernst2007; Reference Bersani, Coviello and ImperatoriBersani 2015). However, data are gradually accumulating data on adverse effects of some of these drugs, which are widely available without prescription over the counter and online. These effects may be associated with the primary ingredient or the contaminants found in the preparations. Confusion, encephalopathy, psychotic symptoms, drowsiness and mood disturbances have been reported in the literature, although their exact prevalence is unknown (Reference ErnstErnst 2003, Reference Bersani, Coviello and ImperatoriBersani 2015). Panax ginseng, ephedra, yohimbine, jimson weed, passionflower, liquorice, kava, ginkgo and St John's wort are some of the implicated herbal remedies (Reference ErnstErnst 2003; Reference Bersani, Coviello and ImperatoriBersani 2015). Use to the extent of dependence has been reported with products with stimulant-like properties (e.g. ephedra, yohimbine) (Reference Bersani, Coviello and ImperatoriBersani 2015).