Sexual side effects are rare when using aripiprazole.

Antipsychotics: Common Side Effects and Relative Adverse Effects

Antipsychotics are medications used to treat various mental health conditions, including schizophrenia and bipolar disorder. However, they can also cause side effects that can be bothersome of even serious. The most common side effects of antipsychotics are listed in the table below, which includes the adverse effects associated with their receptor activity.

Antidopaminergic effects: These effects are related to the medication’s ability to block dopamine receptors in the brain. They can cause galactorrhoea, gynecomastia, menstrual disturbance, lowered sperm count, reduced libido, Parkinsonism, dystonia, akathisia, and tardive dyskinesia.

Anticholinergic effects: These effects are related to the medication’s ability to block acetylcholine receptors in the brain. They can cause dry mouth, blurred vision, urinary retention, and constipation.

Antiadrenergic effects: These effects are related to the medication’s ability to block adrenaline receptors in the body. They can cause postural hypotension and ejaculatory failure.

Histaminergic effects: These effects are related to the medication’s ability to block histamine receptors in the brain. They can cause drowsiness.

The Maudsley Guidelines provide a rough guide to the relative adverse effects of different antipsychotics. The table below summarizes their findings, with +++ indicating a high incidence of adverse effects, ++ indicating a moderate incidence, + indicating a low incidence, and – indicating a very low incidence.

Drug Sedation Weight gain Diabetes EPSE Anticholinergic Postural Hypotension Prolactin elevation
Amisulpride – + + + – – +++
Aripiprazole – +/- – +/- – – –
Asenapine + + +/- +/- – – +/-
Clozapine +++ +++ +++ – +++ +++ –
Flupentixol + ++ + ++ ++ + +++
Fluphenazine + + + +++ ++ + +++
Haloperidol + + +/- +++ + + +++
Olanzapine ++ +++ +++ +/- + + +
Paliperidone + ++ + + + ++ +++
Pimozide + + – + + + +++
Quetiapine ++ ++ ++ – + ++ –
Risperidone + ++ + + + ++ +++
Zuclopenthixol ++ ++ + ++ ++ + +++

Overall, it is important to discuss the potential side effects of antipsychotics with a healthcare provider and to monitor for any adverse effects while taking these medications.

Understanding Biotransformation: A Metabolic Process for Excretion

Biotransformation is a metabolic process that occurs primarily in the liver, but also in other organs such as the kidneys, intestine, adipose, skin, and lungs. Its main function is to facilitate the excretion of both exogenous and endogenous substances by altering their chemical structures through a series of reactions. Enzymes found in the cytoplasm, endoplasmic reticulum, and mitochondria of cells catalyze these reactions, which can cause the substrate to become inactive, active, of even toxic.

Biotransformation is divided into three phases. Phase I reactions involve oxidation, reduction, of hydrolysis of the drug, yielding a polar, water-soluble metabolite that is often still active. Phase II reactions consist of adding hydrophilic groups to the original molecule, a toxic intermediate, of a nontoxic metabolite formed in phase I, to increase its polarity. The most common method is conjugation with glucuronic acid, but other groups such as sulphate, amino acids, acetate, and methyl can also be added. Phase III reactions occur post-phase II, where a chemical substance can undergo further metabolism and excretion through active transport into the urinary of hepatobiliary system.

Understanding biotransformation is crucial in pharmacology and toxicology, as it affects the efficacy and toxicity of drugs and other substances. By facilitating the excretion of these substances, biotransformation helps maintain homeostasis in the body and prevent accumulation of potentially harmful compounds.

Aripiprazole does not affect the QTc interval and has minimal risk of extrapyramidal side effects, sedation, of weight gain. Amisulpride, citalopram, and quetiapine have a moderate effect on the QTc interval, which requires ECG monitoring due to a prolongation of >10 msec. Haloperidol has a high effect on the QTc interval, which mandates ECG monitoring due to a prolongation of >20 msec.

Semorinemab is a potential treatment for dementia that works by targeting the N-terminal region of the tau protein. By binding to tau, it aims to reduce its spread within neurons and slow down the progression of the disease.

Mechanisms of Action of Different Drugs

Understanding the mechanisms of action of different drugs is crucial for medical professionals. It is a common topic in exams and can earn easy marks if studied well. This article provides a list of drugs and their mechanisms of action in different categories such as antidepressants, anti dementia drugs, mood stabilizers, anxiolytic/hypnotic drugs, antipsychotics, drugs of abuse, and other drugs. For example, mirtazapine is a noradrenaline and serotonin specific antidepressant that works as a 5HT2 antagonist, 5HT3 antagonist, H1 antagonist, alpha 1 and alpha 2 antagonist, and moderate muscarinic antagonist. Similarly, donepezil is a reversible acetylcholinesterase inhibitor used as an anti dementia drug, while valproate is a GABA agonist and NMDA antagonist used as a mood stabilizer. The article also explains the mechanisms of action of drugs such as ketamine, phencyclidine, buprenorphine, naloxone, atomoxetine, varenicline, disulfiram, acamprosate, and sildenafil.

The pharmacodynamics of Mirtazapine are complex and have received conflicting feedback. However, according to the manufacturer’s leaflet and preclinical studies, Mirtazapine is a potent antagonist of 5-HT2 and 5-HT3 receptors, with no significant affinity for the 5-HT1A and 5-HT1B receptors. It is also a potent antagonist of histamine (H1) receptors, which may explain its sedative effects, and a moderate peripheral a1 adrenergic antagonist, which may cause occasional orthostatic hypotension. Additionally, it is a moderate antagonist at muscarinic receptors, which may explain the low incidence of anticholinergic side effects. Although not stated by the manufacturer, there is considerable evidence that Mirtazapine is also an alpha 2 antagonist, which was likely discovered after the preclinical studies.

Mechanisms of Action of Different Drugs

Understanding the mechanisms of action of different drugs is crucial for medical professionals. It is a common topic in exams and can earn easy marks if studied well. This article provides a list of drugs and their mechanisms of action in different categories such as antidepressants, anti dementia drugs, mood stabilizers, anxiolytic/hypnotic drugs, antipsychotics, drugs of abuse, and other drugs. For example, mirtazapine is a noradrenaline and serotonin specific antidepressant that works as a 5HT2 antagonist, 5HT3 antagonist, H1 antagonist, alpha 1 and alpha 2 antagonist, and moderate muscarinic antagonist. Similarly, donepezil is a reversible acetylcholinesterase inhibitor used as an anti dementia drug, while valproate is a GABA agonist and NMDA antagonist used as a mood stabilizer. The article also explains the mechanisms of action of drugs such as ketamine, phencyclidine, buprenorphine, naloxone, atomoxetine, varenicline, disulfiram, acamprosate, and sildenafil.

Enzyme induction can accelerate drug metabolism and increase the risk of inadequate treatment. This process is often triggered by drugs such as ethanol, rifampin, barbiturates (e.g. phenobarbital, primidone), phenytoin, and carbamazepine. Carbamazepine, for instance, induces its own metabolism through cytochrome P450 enzymes 3A4 and 2E1. Typically, enzyme induction boosts glucuronyl transferase activity, which enhances drug conjugation.

Antipsychotics are commonly used to treat various mental health conditions. Most atypical antipsychotics require twice daily administration due to their short half-lives, except for olanzapine, aripiprazole, and risperidone. These medications have longer half-lives and can be administered once daily. A recent randomized controlled trial compared once versus twice daily dosing of risperidone and olanzapine and found no significant difference in effectiveness and efficacy outcomes. However, the study suggests that once-daily dosing may be preferable due to lower mean dose and better side effect profile, especially for olanzapine.

ACE inhibitors, which typically have names ending in -pril such as perindopril and ramipril, as well as ACE II receptor antagonists like losartan and candesartan, have been found to elevate lithium levels.

Lithium – Pharmacology

Pharmacokinetics:
Lithium salts are rapidly absorbed following oral administration and are almost exclusively excreted by the kidneys unchanged. Blood samples for lithium should be taken 12 hours post-dose.

Ebstein’s:
Ebstein’s anomaly is a congenital malformation consisting of a prolapse of the tricuspid valve into the right ventricle. It occurs in 1:20,000 of the general population. Initial data suggested it was more common in those using lithium but this had not held to be true.

Contraindications:
Addison’s disease, Brugada syndrome, cardiac disease associated with rhythm disorders, clinically significant renal impairment, untreated of untreatable hypothyroidism, low sodium levels.

Side-effects:
Common side effects include nausea, tremor, polyuria/polydipsia, rash/dermatitis, blurred vision, dizziness, decreased appetite, drowsiness, metallic taste, and diarrhea. Side-effects are often dose-related.

Long-term use is associated with hypothyroidism, hyperthyroidism, hypercalcemia/hyperparathyroidism, irreversible nephrogenic diabetes insipidus, and reduced GFR.

Lithium-induced diabetes insipidus:
Treatment options include stopping lithium (if feasible), keeping levels within 0.4-0.8 mmol/L, once-daily dose of the drug taken at bedtime, amiloride, thiazide diuretics, indomethacin, and desmopressin.

Toxicity:
Lithium salts have a narrow therapeutic/toxic ratio. Risk factors for lithium toxicity include drugs altering renal function, decreased circulating volume, infections, fever, decreased oral intake of water, renal insufficiency, and nephrogenic diabetes insipidus. Features of lithium toxicity include GI symptoms and neuro symptoms.

Pre-prescribing:
Before prescribing lithium, renal function, cardiac function, thyroid function, FBC, and BMI should be checked. Women of childbearing age should be advised regarding contraception, and information about toxicity should be provided.

Monitoring:
Lithium blood levels should be checked weekly until stable, and then every 3-6 months once stable. Thyroid and renal function should be checked every 6 months. Patients should be issued with an information booklet, alert card, and record book.

Antidepressants can cause sexual dysfunction as a side-effect, although the rates vary. The impact on sexual desire, arousal, and orgasm can differ depending on the type of antidepressant. It is important to rule out other causes and consider non-pharmacological strategies such as reducing the dosage of taking drug holidays. If necessary, switching to a lower risk antidepressant of using pharmacological options such as phosphodiesterase inhibitors of mirtazapine augmentation can be considered. The Maudsley Guidelines 14th Edition provides a helpful table outlining the risk of sexual dysfunction for different antidepressants.

The liver plays a significant role in breaking down clozapine through the action of CYP450 enzymes, with CYP1A2, CYP3A4, and CYP2D6 being particularly involved in the process.

The Cytochrome P450 system is a group of enzymes that metabolize drugs by altering their functional groups. The system is located in the liver and small intestine and is involved in drug interactions through enzyme induction of inhibition. Notable inducers include smoking, alcohol, and St John’s Wort, while notable inhibitors include grapefruit juice and some SSRIs. CYP2D6 is important due to genetic polymorphism, and CYP3A4 is the most abundant subfamily and is commonly involved in interactions. Grapefruit juice inhibits both CYP1A2 and CYP3A4, while tobacco smoking induces CYP1A2. The table summarizes the main substrates, inhibitors, and inducers for each CYP enzyme.