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Procyclidine

Procyclidine is a synthetic that functions as a , crossing the blood-brain barrier to alleviate symptoms of and drug-induced extrapyramidal disorders such as and dystonias. Chemically known as α-cyclohexyl-α-phenyl-1-pyrrolidinepropanol , it exhibits atropine-like effects, including antispasmodic activity on , , and inhibition of salivation, without significant ganglion-blocking properties. First approved for clinical use by the FDA in 1955, procyclidine was typically administered orally in tablet form where available, with dosages starting at 2.5 mg three times daily for or extrapyramidal symptoms, titrated up to 20 mg daily as needed. As of 2025, it is discontinued in the United States but remains available in some other countries, such as the (oral form). In treating —including idiopathic, postencephalitic, and arteriosclerotic forms—procyclidine is particularly effective against rigidity, though it also reduces , , , and excessive salivation (sialorrhea). For extrapyramidal side effects induced by antipsychotics like phenothiazines or rauwolfia alkaloids, it counteracts symptoms such as muscle spasms and restlessness, often used adjunctively with these agents. Its penetration allows for targeted relief in neurological conditions, distinguishing it from peripheral anticholinergics. Common adverse effects include dry mouth, , , and , reflecting its profile, while serious risks involve , hallucinations, or exacerbation of in susceptible individuals. Contraindicated in angle-closure glaucoma, procyclidine requires cautious use in the elderly, pregnant patients, and children due to potential for or overdose toxicity. Although sometimes examined, s like procyclidine are not recommended for antipsychotic-induced due to lack of efficacy and potential to worsen symptoms, and ongoing research notes its potential for misuse due to psychoactive effects at high doses.

History

Discovery and development

Procyclidine was developed in the late to early at the Research Laboratories, part of Burroughs Wellcome & Co., as the most promising compound in a series of synthetic derived from modifications of structures, targeted at alleviating symptoms of neurological disorders like and extrapyramidal dysfunction. Efforts at the laboratories focused on creating agents with enhanced central activity and lower toxicity, building on the 19th-century recognition that compounds could mitigate Parkinson's symptoms. Early preclinical toxicity studies in mice, rats, and dogs confirmed procyclidine's low profile, with intravenous LD50 values around 60 mg/kg in mice and no significant organ changes after repeated dosing in rats, alongside demonstrations of its potency through effects like dilation and inhibition of salivation at doses of 5 mg/kg in dogs. These investigations also established procyclidine's ability to cross the blood-brain barrier, facilitating central effects essential for neurological applications. In comparison to natural anticholinergics such as atropine, procyclidine exhibited similar mydriatic and actions but with greater selectivity for central over peripheral effects and absence of sympathetic ganglion blockade at therapeutic doses up to 4 mg/kg, reducing unwanted systemic side effects.

Introduction and approval

was first marketed in the in November 1951 under the brand name Kemadrin as an agent for the symptomatic relief of . Developed in the late to early as part of efforts to synthesize improved compounds, it received initial regulatory approval in the United States by the in 1955. In the , it was marketed under the brand name Kemadrin shortly after its initial launch. The drug's entry into medical practice was indexed in the () database starting in 1966, reflecting its growing recognition in biomedical literature. Early clinical trials demonstrated procyclidine's efficacy in treating parkinsonian symptoms, with a key 1957 study involving 108 patients reporting significant improvements in rigidity, , and akinesia compared to . These trials, conducted primarily in settings, highlighted the drug's ability to provide relief with fewer side effects than earlier anticholinergics like , leading to its rapid integration into standard therapy for idiopathic and . Further investigations in the late confirmed its utility in alleviating oculogyric crises and other extrapyramidal manifestations, establishing a foundation for broader applications. During the 1960s and 1970s, procyclidine's indications expanded from primary Parkinson's disease treatment to the management of extrapyramidal symptoms induced by antipsychotic medications, as the widespread use of phenothiazines and other neuroleptics increased the incidence of drug-induced parkinsonism, dystonia, and akathisia. Clinical reports from this period showed procyclidine effectively counteracting these side effects, often at lower doses than required for idiopathic parkinsonism, prompting its routine prophylactic and therapeutic use in psychiatric settings. This evolution solidified its role as a key adjunct in antipsychotic therapy, with approvals and guidelines reflecting its dual indications by the mid-1970s.

Medical uses

Treatment of Parkinson's disease

Procyclidine may be considered as a second-line therapy for idiopathic Parkinson's disease in select cases, such as younger patients with tremor-dominant disease, particularly when first-line treatments like levodopa are insufficient or to address prominent motor symptoms such as rigidity and tremor. However, as of 2025, guidelines from organizations such as Parkinson's UK and the German Neurological Society advise against routine use of anticholinergics like procyclidine in Parkinson's disease, particularly in older adults, due to significant risks of cognitive impairment, confusion, hallucinations, and increased dementia risk; they are reserved for younger patients with prominent tremor unresponsive to other therapies. It helps reduce rigidity, alleviate tremor, and enhance coordination by acting as an anticholinergic agent that restores balance in the cholinergic-dopaminergic imbalance within the basal ganglia. This symptomatic relief targets the core motor impairments without altering disease progression. Typical dosing begins with 2.5 mg orally three times daily, with gradual increases of 2.5–5 mg daily every 2–3 days to achieve optimal response, reaching a of 15–30 mg per day divided into three or four administrations. Higher doses up to 60 mg daily may be tolerated in younger patients or those with , always titrated based on individual tolerance and symptom control. Clinical evidence indicates procyclidine provides greater improvement in rigidity compared to bradykinesia, with notable benefits also seen in reduction across patient cohorts. Studies of anticholinergics have shown motor function scores improved significantly versus , particularly for rigidity and coordination, though effects on bradykinesia were more modest. When combined with levodopa, procyclidine enhances overall symptom control in cases where monotherapy is inadequate, supporting its role as an adjunctive option.

Management of extrapyramidal symptoms

Procyclidine is indicated for the management of (EPS) induced by drugs, including drug-induced , , and acute , commonly associated with agents such as and other phenothiazines. These symptoms arise from blockade in the , and procyclidine counters them through its action, restoring cholinergic-dopaminergic balance. For acute EPS, such as severe dystonic reactions, intramuscular administration of 5 mg procyclidine provides rapid relief, often within minutes, making it suitable for settings. In contrast, prophylactic or ongoing oral begins at 2.5 mg three times daily, with increments of 2.5 mg daily until symptom control is achieved, typically reaching a maintenance dose of 10-30 mg per day divided into three to four doses. Oral dosing should be taken with or after meals to reduce gastrointestinal upset. The oral formulation exhibits an within 45-60 minutes, allowing for effective symptom alleviation in outpatient . Clinical supports its ; for instance, a controlled study in patients receiving neuroleptics found that prophylactic procyclidine prevented in all treated participants, compared to a 54% incidence in the group after three weeks. Additionally, reports confirm its success in relieving rigidity, , and in patients on antipsychotics, improving overall function and well-being.

Pharmacology

Pharmacodynamics

Procyclidine acts as a non-selective at muscarinic receptors, competitively inhibiting the binding of to these receptors. It exhibits primary affinity for the , , and M4 subtypes, with weaker interactions at M3 and M5 receptors. This antagonism occurs both centrally and peripherally, contributing to its therapeutic effects in conditions involving overactivity, such as and drug-induced . Binding affinity studies demonstrate that the (R)-enantiomer of procyclidine, which is the pharmacologically active form, has high affinity for M1 receptors expressed in human neuroblastoma cells (pKi = 8.4) and M4 receptors in rat striatum (pKi = 8.1), indicating Ki values of approximately 4 nM and 8 nM, respectively. For M2 receptors in rat cardiac tissue, the affinity is lower (pKi = 7.3, Ki ≈ 50 nM), highlighting a subtype selectivity profile that favors central over certain peripheral muscarinic effects. The (S)-enantiomer shows substantially reduced affinity across these subtypes, with 130-fold lower binding at M1 and M4 and 40-fold lower at M2 compared to the (R)-form. In the , procyclidine crosses the blood-brain barrier to block excess activity in the , thereby restoring the balance between and disrupted in parkinsonian states. This central muscarinic antagonism reduces tremors and rigidity by modulating striatal circuitry. Peripherally, it exerts effects similar to atropine, inhibiting muscarinic-mediated contractions and thereby alleviating muscle rigidity and spasms.

Pharmacokinetics

Procyclidine is rapidly absorbed from the following , with a of approximately 75%. Peak concentrations are typically reached within 1 to 2 hours after ingestion. The drug exhibits extensive distribution throughout the body, with a of about 1 L/kg, and is approximately 100% bound to proteins, primarily . Procyclidine readily crosses the blood-brain barrier, which facilitates its effects. Metabolism occurs primarily in the liver via enzymes, where about one-fifth of the oral dose undergoes followed by conjugation with . The plasma elimination is approximately 12 hours, and total body clearance is around 68 mL/min, reflecting a predominantly hepatic route with minimal first-pass effect. Excretion is mainly renal, with the conjugate appearing in urine and very little unchanged parent compound eliminated. Due to the renal route of elimination for metabolites, dosage adjustments may be necessary in patients with renal impairment to avoid accumulation.

Adverse effects

Common side effects

Procyclidine, an medication, commonly elicits mild to moderate adverse reactions stemming from its inhibition of muscarinic receptors. The primary effects include dry mouth, , , , and , which reflect the drug's peripheral actions on salivary glands, ocular , gastrointestinal , bladder function, and , respectively. These effects occur in up to 1 in 10 patients and are dose-dependent, with higher doses increasing their likelihood and intensity. Central nervous system manifestations, such as and drowsiness, are also frequently reported, arising from the drug's ability to cross the blood-brain barrier and affect transmission in the . In elderly individuals, mild may emerge as an additional effect due to age-related reductions in reserve and altered , necessitating cautious dosing in this population. These CNS effects similarly exhibit dose dependency and typically resolve with adjustment. Management of these common side effects focuses on symptom alleviation and tolerability optimization. Dose reduction under medical supervision can mitigate severity, while specific strategies like increased fluid intake and sugar-free lozenges address dry mouth effectively. Patients should monitor symptoms and consult healthcare providers if effects persist or worsen, particularly in vulnerable groups where risks may be amplified.

Serious adverse effects

Procyclidine, an medication, can lead to serious cognitive impairments, including , hallucinations, and issues, particularly in elderly patients where these effects may precipitate or exacerbate risk. Long-term use of drugs like procyclidine has been associated with an increased incidence of , with studies showing a dose-dependent relationship in older adults exposed to antiparkinsonian agents. These neuropsychiatric effects are more pronounced at higher doses and often reversible upon dose reduction or discontinuation. Cardiovascular complications from procyclidine include , which may occur even at therapeutic doses and requires caution in patients with preexisting heart conditions. Procyclidine is contraindicated in patients with angle-closure due to the risk of increased . Use with caution in patients with or prostatic hypertrophy, where it may worsen or . In special populations, procyclidine should be avoided in children, as its and have not been established, potentially leading to heightened toxicity. Elderly patients require cautious use with lower starting doses, as they face an elevated risk of falls from , , and cognitive side effects that impair and .

Toxicity and overdose

Overdose symptoms

Overdose of procyclidine typically manifests as central anticholinergic syndrome, characterized by , , restlessness, hallucinations (visual and auditory), hyperactivity, anxiety, and severe . In severe cases, progression may include seizures, , impaired , , and , particularly following large ingestions. may also occur as part of the central effects. Peripheral signs of procyclidine overdose include with pupils widely dilated and unreactive to light, dry mouth and mucous membranes, dry and flushed skin, , and . These symptoms represent an amplified version of the effects seen at therapeutic doses. Symptoms of procyclidine overdose often persist for more than 24 hours, with disorientation and potentially lasting 1–4 days before resolving into recuperative , attributable to the drug's elimination of approximately 12 hours. Risk factors for procyclidine overdose include involving other agents, which can potentiate through additive effects. Accidental is a concern in children, where even small amounts can lead to significant symptoms due to their lower body weight and immature metabolic pathways.

Overdose management

Management of procyclidine overdose primarily involves supportive care and targeted interventions for severe effects. Gastrointestinal with activated (50 g for adults or 1 g/kg for children) is recommended if occurred within 1-2 hours, as it can reduce absorption of the drug. Continuous vital sign monitoring, including cardiac rhythm, temperature, and mental status, is essential, along with intravenous fluids to maintain and address . For severe anticholinergic toxicity manifesting as or , serves as the specific , administered at 1-2 mg intravenously or subcutaneously in adults (0.02 mg/kg in children), with potential repetition every 10-30 minutes if needed, up to a maximum of 4 mg in the first hour. Careful monitoring for cholinergic side effects, such as or seizures, is required during administration. Benzodiazepines, such as 1-2 mg intravenously, are indicated for or seizures unresponsive to , but should be avoided in mild cases to prevent worsening . Hemodialysis is not effective for procyclidine removal due to its high protein binding (approximately 100% to ) and large . Patients should be observed in a monitored setting until symptoms resolve, typically within 24-48 hours, with resolution guided by clinical improvement rather than levels.

Chemistry

Chemical properties

Procyclidine, a synthetic agent, has the molecular formula C₁₉H₂₉NO for its form. The , which is the commonly used pharmaceutical form, has the formula C₁₉H₃₀ClNO. The is 287.44 g/mol for the base and 323.90 g/mol for the . In its physical form, procyclidine appears as a to off-white crystalline . It exhibits in and , facilitating its formulation and absorption in pharmacokinetic processes. The of the salt is approximately 225–226 °C, often with decomposition. Regarding stability, procyclidine is light-sensitive and moderately hygroscopic, requiring storage in airtight containers protected from light and moisture to maintain integrity. It demonstrates a of approximately 9.45 for its strongest basic site, reflecting its functionality, and a value of 4.13, indicating moderate that contributes to its ability to cross biological membranes.

Synthesis

Procyclidine is synthesized primarily through a involving cyclohexylmagnesium bromide and 1-phenyl-3-(pyrrolidin-1-yl)propan-1-one, yielding the tertiary alcohol structure of the compound after . This method, analogous to the synthesis of related anticholinergics like , allows for the direct addition of the cyclohexyl group to the carbonyl, forming the key carbon-carbon bond at the 1-position. The reaction is typically conducted in an ethereal solvent under anhydrous conditions, followed by quenching with or water to isolate the , which is then converted to the salt by treatment with . This route is efficient for producing the active pharmaceutical ingredient and has been documented in pharmaceutical synthesis literature. An alternative synthetic pathway utilizes the Reformatsky reaction starting from cyclohexyl phenyl ketone and ethyl 2-bromoacetate in the presence of zinc, generating a β-hydroxy intermediate. This is subsequently reduced using lithium aluminum hydride to afford 1-cyclohexyl-1-phenylpropane-1,3- as a key intermediate. The primary hydroxyl group of the is selectively activated to a , often via reaction with to form the 3-chloro derivative, which then undergoes with to introduce the pyrrolidinyl moiety at the 3-position. This multi-step approach provides flexibility for stereocontrol and has been employed in early preparations of procyclidine and its analogs. Key intermediates in these syntheses include the β-hydroxy from the Reformatsky step and the 1,3-, which serve as versatile building blocks for further functionalization. Variations may involve tosylation of the instead of chlorination for improved selectivity in the substitution step. The original synthesis process for procyclidine was developed by Burroughs in the mid-20th century, with detailed methods patented in the , establishing the foundational routes still referenced in modern pharmaceutical production.

Society and culture

Legal status and availability

Procyclidine is classified as a prescription-only in jurisdictions where it is marketed, requiring a valid prescription from a licensed healthcare provider for dispensing. In the and countries, it is authorized for medical use under national regulations as a licensed pharmaceutical product. In , it is regulated under of the Drugs and Rules, 1945, mandating that it not be sold by retail without the prescription of a registered medical practitioner. It is not designated as a under the conventions on psychotropic substances or national schedules such as the U.S. or the U.K. Misuse of Drugs Act. However, despite this status, procyclidine has potential for misuse due to its psychoactive effects at high doses, with reported cases of leading to and . The drug is widely available in , the , and through pharmacies and healthcare facilities, with oral tablet formulations commonly stocked for prescribed use. In the United States, however, procyclidine has limited availability; the branded product Kemadrin was discontinued, and no generic equivalents are currently marketed domestically, though the active ingredient remains FDA-approved under its original . Procyclidine is not included on the World Health Organization's Model List of , though it appears on some national lists for psychiatric and neurological applications. Import and export of procyclidine are subject to standard pharmaceutical regulations but face no specific restrictions as a non-controlled substance; however, travelers carrying it should verify destination country rules to ensure compliance with prescription documentation requirements. As of November 2025, there are no global shortages reported, but the has experienced temporary supply constraints for 5 mg tablets until early November and discontinuation of the 10 mg/2 ml injectable formulation by January 2026 due to low demand, reflecting a shift toward alternative therapies in some markets.

Brand names and formulations

Procyclidine is commercially available under several brand names worldwide, including Kemadrin in the and other regions, Procyclid in various markets, and additional international brands such as Arpicolin, Osnervan, and . Generic formulations are widely produced as procyclidine hydrochloride by multiple pharmaceutical companies. The primary include oral tablets in strengths of 2.5 mg and 5 mg, as well as an oral at 2.5 mg/5 mL. Injectable formulations are available as a 5 mg/mL for intramuscular or intravenous administration, typically supplied in 2 mL ampoules. Key manufacturers include Aspen Pharma Trading Limited for Kemadrin 5 mg tablets and Accord Healthcare Limited for the 5 mg/mL injection solution. In , generic versions are produced by companies such as Taj Pharmaceuticals and Axis Life Science Pvt. Ltd., offering tablets in 2.5 mg and 5 mg strengths. Packaging varies by form and manufacturer; tablets are often in amber bottles (50 or 100 count) or polypropylene containers (500 count), while injections come in neutral ampoules. Storage recommendations specify keeping products below 25°C, away from light and moisture, to maintain stability.