Rasagiline

Importance of Nanoparticles for the Delivery of Antiparkinsonian Drugs

Parkinson's disease (PD) affects around ten million people worldwide and is considered the second most prevalent neurodegenerative disease after Alzheimer's disease. In addition, there is a higher risk incidence in the elderly population. The main PD hallmarks include the loss of dopaminergic neurons and the development of Lewy bodies. Unfortunately, motor symptoms only start to appear when around 50-70% of dopaminergic neurons have already been lost. This particularly poses a huge challenge for early diagnosis and therapeutic effectiveness. Actually, pharmaceutical therapy is able to relief motor symptoms, but as the disease progresses motor complications and severe side-effects start to appear. In this review, we explore the research conducted so far in order to repurpose drugs for PD with the use of nanodelivery systems, alternative administration routes, and nanotheranostics. Overall, studies have demonstrated great potential for these nanosystems to target the brain, improve drug pharmacokinetic profile, and decrease side-effects.

Pharmacological aspects of the neuroprotective effects of irreversible MAO-B inhibitors, selegiline and rasagiline, in Parkinson's disease

The era of MAO-B inhibitors dates back more than 50 years. It began with Kálmán Magyar's outstanding discovery of the selective inhibitor, selegiline. This compound is still regarded as the gold standard of MAO-B inhibition, although newer drugs have also been introduced to the field. It was revealed early on that selective, even irreversible inhibition of MAO-B is free from the severe side effect of the non-selective MAO inhibitors, the potentiation of tyramine, resulting in the so-called 'cheese effect'. Since MAO-B is involved mainly in the degradation of dopamine, the inhibitors lack any antidepressant effect; however, they became first-line medications for the therapy of Parkinson's disease based on their dopamine-sparing activity. Extensive studies with selegiline indicated its complex pharmacological activity profile with MAO-B-independent mechanisms involved. Some of these beneficial effects, such as neuroprotective and antiapoptotic properties, were connected to its propargylamine structure. The second MAO-B inhibitor approved for the treatment of Parkinson's disease, rasagiline also possesses this structural element and shows similar pharmacological characteristics. The preclinical studies performed with selegiline and rasagiline are summarized in this review.

Enantiopure synthesis of 7-(1-pyrindanyl)propargyl ethers as rasagiline analogues via chemical or enzymatic resolution of 1-pyrindan-7-ol

Enantiopure 7-(1-pyrindanyl)propargyl ethers – rasagiline analogues – were efficiently obtainedviachemical and/or enzymatic resolution of the racemic precursor 1-pyrindan-7-ol.

Rasagiline: a review of its use in the treatment of idiopathic Parkinson's disease

Rasagiline (Azilect(®)) is an oral, second-generation, selective, irreversible monoamine oxidase-B (MAO-B) inhibitor approved in the US for the treatment of Parkinson's disease. In randomized, controlled trials, oral rasagiline 1 mg once daily was superior to placebo in the symptomatic treatment of early Parkinson's disease, both as monotherapy or as an adjunct to dopamine agonists. Comparisons of early-start and delayed-start treatment suggested a disease-modifying effect for rasagiline, but the results were equivocal. Rasagiline 0.5 or 1 mg/day was also superior to placebo as adjunctive therapy to levodopa in Parkinson's disease patients with motor fluctuations. Rasagiline was generally well tolerated in clinical trials, displaying a placebo-like tolerability profile in several studies. Cost-utility studies predicted that rasagiline, either as monotherapy or adjunctive therapy, would be a cost-effective treatment option. Therefore, oral rasagiline is a valuable therapeutic option for use in all stages of Parkinson's disease.

Rasagiline: a review of its use in the treatment of idiopathic Parkinson's disease

Rasagiline (Azilect®), a selective, irreversible, monoamine oxidase-B inhibitor, is available in the EU, the US and in several other countries worldwide, including Canada and Israel. It is indicated for the treatment of idiopathic Parkinson's disease as monotherapy or as adjunctive therapy to levodopa in patients [corrected]with end-of-dose fluctuations in the EU and for the treatment of adult patients with the signs and symptoms of idiopathic Parkinson's disease in the US. This article reviews the pharmacological properties, therapeutic efficacy and tolerability of rasagiline as monotherapy or as adjunctive therapy to levodopa in patients with Parkinson's disease. Oral rasagiline as monotherapy or as adjunctive therapy to levodopa was effective in the symptomatic treatment of adult patients with Parkinson's disease participating in double-blind, placebo-controlled, multinational studies. In patients with early Parkinson's disease, monotherapy with rasagiline 1 mg/day (recommended dosage) significantly slowed the rate of worsening (i.e. an increase in the Unified Parkinson's Disease Rating Scale [UPDRS] score) in the ADAGIO and TEMPO studies, with the results from the ADAGIO study for rasagiline 1 mg/day suggesting a slowing of clinical progression. However, at the higher dosage of 2 mg/day, rasagiline met the primary endpoint in the TEMPO study and the first, but not the second, of three hierarchical primary endpoints in the ADAGIO study. Compared with delayed-start rasagiline monotherapy, early initiation was associated with a slower long-term progression of the clinical signs and symptoms of Parkinson's disease in the TEMPO study. As adjunctive therapy to levodopa in the LARGO and PRESTO studies, rasagiline 0.5 and/or 1 mg/day significantly reduced the total daily 'off' time (primary efficacy endpoint) and significantly improved the Clinical Global Impression score, the UPDRS activities of daily living subscale score during 'off' time and the UPDRS motor subscale score during 'on' time compared with placebo in patients with advanced Parkinson's disease. Although rasagiline showed neuroprotective properties both in vitro and in vivo, identifying its potential to slow clinical progression in the clinical setting has been elusive to date and was not definitively demonstrated in the studies discussed in this article. Additional rasagiline studies specifically designed to assess the clinical progression of Parkinson's disease while addressing the potentially confounding factors of the delayed-start study design would therefore be of interest. As monotherapy or as adjunctive therapy to levodopa, rasagiline was generally well tolerated, with the frequency and nature of treatment-emergent adverse events generally similar across clinical studies and between rasagiline and placebo groups. Therapy with rasagiline appears to be associated with a low incidence of cognitive and behavioural adverse events. Thus, oral rasagiline as monotherapy or as adjunctive therapy to levodopa provides a useful option in the treatment of adult patients with Parkinson's disease.

Trends in the molecular pathogenesis and clinical therapeutics of common neurodegenerative disorders

The term neurodegenerative disorders, encompasses a variety of underlying conditions, sporadic and/or familial and are characterized by the persistent loss of neuronal subtypes. These disorders can disrupt molecular pathways, synapses, neuronal subpopulations and local circuits in specific brain regions, as well as higher-order neural networks. Abnormal network activities may result in a vicious cycle, further impairing the integrity and functions of neurons and synapses, for example, through aberrant excitation or inhibition. The most common neurodegenerative disorders are Alzheimer’s disease, Parkinson’s disease, Amyotrophic Lateral Sclerosis and Huntington’s disease. The molecular features of these disorders have been extensively researched and various unique neurotherapeutic interventions have been developed. However, there is an enormous coercion to integrate the existing knowledge in order to intensify the reliability with which neurodegenerative disorders can be diagnosed and treated. The objective of this review article is therefore to assimilate these disorders’ in terms of their neuropathology, neurogenetics, etiology, trends in pharmacological treatment, clinical management, and the use of innovative neurotherapeutic interventions.

Rasagiline: a review of its use in the management of Parkinson's disease

Rasagiline (Azilect) is a novel, selective, irreversible second-generation inhibitor of monoamine oxidase type B (MAO-B). It is administered orally once daily and is approved in the US, Canada, Mexico, Israel and the EU for use as monotherapy and as adjunct therapy in the treatment of Parkinson's disease. Results of well designed clinical studies indicate that rasagiline is effective as initial monotherapy and improves Parkinson's symptomatology in patients with early Parkinson's disease. In addition, when administered in conjunction with levodopa, in patients with moderate to advanced disease and motor fluctuations, rasagiline reduces mean daily 'off' time and increases daily 'on' time without troublesome dyskinesias, compared with controls. Rasagiline is generally well tolerated as monotherapy and adjunctive therapy and is administered once daily. Thus, rasagiline, administered as a simple and convenient dosage regimen, is a well tolerated and effective option for monotherapy in patients with early Parkinson's disease and for adjunctive therapy in patients with moderate to advanced disease.

Community and Long-Term Care Management of Parkinson???s Disease in the Elderly

Parkinson's disease affects up to 1 million people in the US, most of them elderly. Motor and non-motor symptoms can be significantly disabling to the point of necessitating institutionalisation. Age-related changes in drug absorption, distribution, metabolism and excretion complicate the treatment of elderly patients with Parkinson's disease. General management principles include initiation of medication at low doses with gradual titration based on clinical effects, avoidance of certain classes of drugs (e.g. anticholinergics), and attention to polypharmacy and its risk for potentially toxic drug interactions. Levodopa remains the most efficacious anti-Parkinson's disease medication and should be the cornerstone of therapy in the elderly Parkinson's disease patient. Use of dopamine receptor agonists, amantadine and anticholinergic drugs in the elderly is limited by high risk for psychotoxicity. Catechol-O-methyltransferase inhibitors may be used to augment levodopa in the setting of 'wearing off' (i.e. motor fluctuations). Monoamine oxidase type B (MAO-B) inhibitors can be used across the spectrum of disease severity, but selegiline (deprenyl), the prototype in this class, is characterised by low and erratic bioavailability of the parent drug and conversion to amphetamine metabolites that may increase the risk of adverse events. A new orally disintegrating tablet formulation overcomes some of these limitations. Rasagiline is a new, selective, second-generation MAO-B inhibitor that is chemically and metabolically distinct from selegiline. The favourable safety profile of rasagiline in the elderly and its once-daily formulation may maximise drug adherence and improve outcomes.

Pharmacokinetic optimisation in the treatment of Parkinson's disease : an update

Pharmacotherapy for Parkinson's disease is focused on dopaminergic drugs, mainly the dopamine precursor levodopa and dopamine receptor agonists. The elimination half-life (t(1/2)) of levodopa from plasma (in combination with a decarboxylase inhibitor) of about 1.5 hours becomes more influential as the disease progresses. The long-duration of response to levodopa, which is evident in early Parkinson's disease, diminishes and after a few years of treatment motor performance is closely correlated to the fluctuating plasma concentrations of levodopa. Absorption of levodopa in the proximal small intestine depends on gastric emptying, which is erratic and may be slowed in Parkinson's disease. The effects of levodopa on motor function are dependent on gastric emptying in patients in the advanced stages of disease. The current treatment concept is continuous dopaminergic stimulation (CDS). Sustained-release formulations of levodopa may provide more stable plasma concentrations. Oral liquid formulations shorten the time to reach peak concentration and onset of effect but do not affect plasma levodopa variability. The t(1/2) of levodopa can be prolonged by adding a catechol-O-methyltransferase inhibitor (entacapone or tolcapone), which may reduce fluctuations in plasma concentrations, although both peak and trough concentrations are increased with frequent administration. Intravenous and enteral (duodenal/jejunal) infusions of levodopa yield stable plasma levodopa concentrations and motor performance. Enteral infusion is feasible on a long-term basis in patients with severe fluctuations. Among the dopamine receptor agonists the ergot derivatives bromocriptine, cabergoline, dihydroergocryptine and pergolide, and the non-ergot derivatives piribedil, pramipexole and ropinirole, have longer t(1/2) compared with levodopa. Thus, they stimulate dopamine receptors in a less pulsatile manner, yet pharmacokinetic studies of repeated doses of dopamine receptor agonists are few. Optimisation of these drugs is often performed with standardised titration schedules. Apomorphine and lisuride have short t(1/2) and are suitable for subcutaneous infusion, with results similar to those of levodopa infusion. Transdermal administration of dopamine receptor agonists such as rotigotine might be an alternative in the future. In general, initial dopamine receptor agonist monotherapy is associated with poorer motor performance and lower incidence of motor complications compared with levodopa. Buccal administration of the monoamine oxidase-B inhibitor selegiline (deprenyl) provides better absorption and less formation of metabolites compared with standard tablets. To conclude, several new drugs, formulations and routes of administration have been introduced in the treatment of Parkinson's disease during the last decade, mainly with CDS as the aim. CDS can be approached by optimising the use of dopaminergic drugs based on pharmacokinetic data.