The most common side effects of benzodiazepines are related to their sedating and muscle-relaxing action. They include
drowsiness, dizziness, and decreased alertness and concentration. Lack of
coordination may result in falls and injuries, particularly in the elderly. Another result is impairment of driving skills and increased likelihood of road traffic accidents. Decreased libido and erection problems are a common side effect. Depression and
disinhibition may emerge.
Hypotension and suppressed breathing (
hypoventilation) may be encountered with intravenous use. The
long-term effects of benzodiazepine use can include
cognitive impairment as well as affective and behavioural problems. Feelings of turmoil, difficulty in thinking constructively, loss of sex drive,
agoraphobia and social phobia, increasing anxiety and depression, loss of interest in leisure pursuits and interests, and an inability to experience or express feelings can also occur. Not everyone, however, experiences problems with long-term use. Additionally, an altered perception of self, environment and relationships may occur. Compared to other sedative-hypnotics, visits to the hospital involving benzodiazepines had a 66% greater odds of a serious adverse health outcome. This included hospitalization, patient transfer, or death, and visits involving a combination of benzodiazepines and non-benzodiazepine receptor agonists had almost four times increased odds of a serious health outcome. In September 2020, the US
Food and Drug Administration (FDA) required the
boxed warning to be updated for all benzodiazepine medicines to describe the risks of abuse, misuse, addiction, physical dependence, and withdrawal reactions consistently across all the medicines in the class.
Cognitive effects The short-term use of benzodiazepines adversely affects multiple areas of cognition, the most notable being that it interferes with the formation and consolidation of memories of new material and may induce complete
anterograde amnesia. This meta-analysis found that long-term use of benzodiazepines was associated with moderate to large adverse effects on all areas of cognition, with
visuospatial memory being the most commonly detected impairment. Some of the other impairments reported were decreased IQ, visiomotor coordination, information processing, verbal learning, and concentration. The authors of the meta-analysis
aggression, violence,
impulsivity,
irritability and suicidal behavior sometimes occur. However, they occur with greater frequency in recreational abusers, individuals with
borderline personality disorder, children, and patients on high-dosage regimes. In these groups,
impulse control problems are perhaps the most important risk factor for disinhibition; learning disabilities and neurological disorders are also significant risks. Most reports of disinhibition involve high doses of high-potency benzodiazepines.
Long-term worsening of psychiatric symptoms While benzodiazepines may have short-term benefits for anxiety, sleep, and agitation in some patients, long-term (i.e., greater than 2–4 weeks) use can result in a worsening of the very symptoms the medications are meant to treat. Potential explanations include exacerbating cognitive problems that are already common in anxiety disorders, causing or worsening
depression and suicidality, disrupting sleep architecture by inhibiting deep stage sleep, and reducing coping with trauma/stress and increasing vulnerability to future stress. The latter two explanations may be why benzodiazepines are ineffective and/or potentially harmful in
PTSD and
phobias. Anxiety, insomnia and irritability may be temporarily exacerbated during withdrawal, but psychiatric symptoms after discontinuation are usually less than while taking benzodiazepines. Functioning significantly improves within one year of discontinuation.
Physical dependence, withdrawal, and post-withdrawal syndromes 2 mg and 5 mg diazepam tablets, which are commonly used in the treatment of
benzodiazepine withdrawal.
Tolerance Tolerance and
dependence are risks of chronic benzodiazepine use, and can result in doses within the therapeutic range ceasing to offer meaningful symptomatic relief after prolonged use. Tolerance develops at different rates and to different degrees to the sedative, hypnotic, anticonvulsant, muscle relaxant, and
anxiolytic effects of benzodiazepines. A review of benzodiazepine tolerance concluded that it "appears that tolerance develops relatively quickly for the sedative and anticonvulsant actions of benzodiazepines, whereas tolerance to anxiolytic and amnesic effects probably does not develop at all", although the included
randomized controlled trial evidence is limited to 22 weeks. A review of
clonazepam in the treatment of psychiatric disorders concluded that longitudinal data supports anxiolytic benefit without tolerance during long-term use, including an
open-label study finding continued benefit at three years. However, the review concludes that long-term
RCT evidence is scant. A study of benzodiazepine sensitivity found that patients treated chronically with alprazolam did not differ from untreated patients in terms of anxiolytic response to diazepam, suggesting a lack of anxiolytic tolerance. However, controversy remains regarding tolerance to anxiolytic effects, with some publications reporting that there is little evidence of continued efficacy beyond 4–6 months Some evidence suggests that partial tolerance does develop, and that, "memory impairment is limited to a narrow window within 90 minutes after each dose". A major disadvantage of benzodiazepines is that tolerance to therapeutic effects develops relatively quickly, while many adverse effects persist. Tolerance develops to hypnotic and myorelaxant effects within days to weeks, and to anticonvulsant effects within weeks to months. Therefore, benzodiazepines are unlikely to be effective long-term treatments for sleep. While BZD therapeutic effects may disappear with tolerance, depression and impulsivity with high suicidal risk commonly persist. and question their use for anxiety disorders such as PTSD and OCD. This may explain why patients commonly increase doses over time and many eventually take more than one type of benzodiazepine after the first loses effectiveness. Additionally, because tolerance to benzodiazepine sedating effects develops more quickly than does tolerance to brainstem depressant effects, those taking more benzodiazepines to achieve desired effects may experience sudden respiratory depression, hypotension or death. Most patients with anxiety disorders and PTSD have symptoms that persist for at least several months,
Withdrawal symptoms and management 5 mg capsules, which are sometimes used as an alternative to
diazepam for
benzodiazepine withdrawal. Like diazepam it has a long
elimination half-life and long-acting
active metabolites. Discontinuation of benzodiazepines or abrupt reduction of the dose, even after a relatively short course of treatment (two to four weeks), may result in two groups of symptoms:
rebound and
withdrawal. Rebound symptoms are the return of the symptoms for which the patient was treated, but worse than before. Withdrawal symptoms are the new symptoms that occur when the benzodiazepine is stopped. They are the main sign of
physical dependence. The most frequent symptoms of withdrawal from benzodiazepines are insomnia, gastric problems,
tremors, agitation, fearfulness, and
muscle spasms. Severe symptoms usually occur as a result of abrupt or over-rapid withdrawal. Abrupt withdrawal can be dangerous and lead to
excitotoxicity, causing damage and even death to nerve cells as a result of excessive levels of the excitatory neurotransmitter
glutamate. Increased glutamatergic activity is thought to be part of a compensatory mechanism to chronic GABAergic inhibition from benzodiazepines. Therefore, a gradual reduction regimen is recommended. Symptoms may also occur during a gradual dosage reduction, but are typically less severe and may persist as part of a protracted
withdrawal syndrome for months after cessation of benzodiazepines. Approximately ten percent of patients experience a notable protracted withdrawal syndrome, which can persist for many months or in some cases a year or longer. Protracted symptoms tend to resemble those seen during the first couple of months of withdrawal, but usually are of a sub-acute level of severity. Such symptoms do gradually lessen over time, eventually disappearing altogether. Benzodiazepines have a reputation with patients and doctors for causing a severe and traumatic withdrawal; however, this is in large part due to the withdrawal process being poorly managed. Over-rapid withdrawal from benzodiazepines increases the severity of the withdrawal syndrome and increases the failure rate. A slow and gradual
withdrawal customised to the individual and, if indicated, psychological support is the most effective way of managing the withdrawal. Opinion as to the time needed to complete withdrawal ranges from four weeks to several years. A goal of less than six months has been suggested,
Nonbenzodiazepines are contraindicated during benzodiazepine withdrawal as they are
cross tolerant with benzodiazepines and can induce dependence. Antipsychotics are not recommended for benzodiazepine withdrawal (or other CNS depressant withdrawal states) especially
clozapine,
olanzapine or low potency
phenothiazines, e.g.,
chlorpromazine as they lower the seizure threshold and can worsen withdrawal effects; if used extreme caution is required. Withdrawal from long-term benzodiazepines is beneficial for most individuals.
Dementia Several studies have drawn an association between long-term benzodiazepine use and neurodegenerative disease, particularly Alzheimer's disease. It has been determined that long-term use of benzodiazepines is associated with increased dementia risk, even after controlling for
protopathic bias. Unlike previous imaging studies limited to MRI techniques, the utilization of a dual PET CT scanner to track the binding of the radioligand florbetapir to beta-amyloid provides stronger neuroimaging data with respect to alzheimer's related pathophysiology. Indeed, Avid's florbetapir PET technique has received FDA approval for diagnosing alzheimer's disease. However, it is important to note that there is still no causal evidence regarding how benzodiazepines affect the risk of alzheimer's disease or dementia.
Infections Some observational studies have detected significant associations between benzodiazepines and respiratory infections such as pneumonia where others have not. A large meta-analysis of pre-marketing randomized controlled trials on the pharmacologically related Z-Drugs suggest a small increase in infection risk as well. An immunodeficiency effect from the action of benzodiazepines on GABA-A receptors has been postulated from animal studies.
Cancer A meta-analysis of observational studies has determined an association between benzodiazepine use and cancer, though the risk across different agents and different cancers varied significantly.
Pancreatitis The evidence suggesting a link between benzodiazepines (and Z-Drugs) and pancreatic inflammation is very sparse and limited to a few observational studies from
Taiwan. A criticism of confounding can be applied to these findings as with the other controversial associations above. Further well-designed research from other populations, as well as a biologically plausible mechanism, is required to confirm this association. ==Overdose==