Pharmacokinetic drug evaluation of CVT-301 for the treatment of Parkinson’s disease

Therapeutic effect of an inhaled levodopa dry powder formulation on off episodes in patients with Parkinson's disease

Background

Limited treatment options with a rapid onset of action are available to treat off episodes in Parkinson's disease (PD) patients. Therefore, the development of rapid onset formulations, for instance with levodopa, is warranted, which was the reason to investigate an inhalable formulation of levodopa.

Objectives

The primary objective was to determine the duration until maximum effect is reached of inhaled levodopa on the improvement of motor function of PD patients. The secondary objective was to compare the time until maximal effect and the maximal effect of inhaled levodopa versus oral levodopa.

Design

Open-label randomized two-way one-period crossover trial.

Methods

Nine PD patients in the 'off state' received one dose of inhaled levodopa (90 mg) from Cyclops® and one dose of levodopa orodispersible tablet (100 mg) on two consecutive days in a randomized order. A timed tapping test, Timed Up and Go test (TUG test) and Movement Disorders Society Unified Parkinson's Disease Rating Scale (MDS-UPDRS) III score were performed pre-dose and on set time points up to 90 min post-dose as measure for motor function. In addition, blood samples were taken for a pharmacokinetic evaluation (T max, C max and area under the concentration time curve (AUC) 0-3 h).

Results

The maximal effect of inhaled levodopa was reached at 30 min (tapping test), at 75 min (TUG test) and at 60 min (UPDRS III). The positive effect on the UPDRS was statistically significant within 20 min after inhalation. After oral administration, C max and AUC 0-3 h were found to be significant higher (p = 0.028 and p = 0.028, respectively) than after pulmonary administration. T max was achieved significantly (p = 0.028) faster after inhalation. The motor function examinations showed a similar maximum clinical improvement after pulmonary and oral administration and although not significant, inhaled levodopa results in a shorter median duration to maximum clinical effect for the TUG and timed finger-tapping test compared with oral administration (TUG: inhalation 55.0 and oral 67.5 min, timed finger-tapping test: inhalation 35.0 and oral 57.5 min). After the levodopa inhalation, there were no adverse events observed and no significant differences found in long-function parameters.

Conclusion

Inhaled levodopa from Cyclops® shows promising data as a rescue therapy for PD patients with off episodes, not responsive to the current oral therapies.

Trial registration

The study protocol was approved by the local ethics board 'Regionale toetsingscommissie patiëntgebonden onderzoek' (RTPO) in Leeuwarden, The Netherlands (approval number RTPO1019). The study was registered in in the Dutch trial register (LTR) with identification number NL6876. From 5 March 2024 on, the research data on onderzoekmetmensen.nl are known as 'Overview of Medical Research in the Netherlands' (OMON). This means the use of the name LTR has thus been dropped. Now, it is registered in the OMON with the same identification number (NL6876, Effectiveness of inhaled levodopa in PD | Research with human participants (onderzoekmetmensen.nl)). All patients provided written informed consent.

Molecular Mechanisms and Therapeutic Strategies for Levodopa-Induced Dyskinesia in Parkinson's Disease: A Perspective Through Preclinical and Clinical Evidence

Parkinson's disease (PD) is the second leading neurodegenerative disease that is characterized by severe locomotor abnormalities. Levodopa (L-DOPA) treatment has been considered a mainstay for the management of PD; however, its prolonged treatment is often associated with abnormal involuntary movements and results in L-DOPA-induced dyskinesia (LID). Although LID is encountered after chronic administration of L-DOPA, the appearance of dyskinesia after weeks or months of the L-DOPA treatment has complicated our understanding of its pathogenesis. Pathophysiology of LID is mainly associated with alteration of direct and indirect pathways of the cortico-basal ganglia-thalamic loop, which regulates normal fine motor movements. Hypersensitivity of dopamine receptors has been involved in the development of LID; moreover, these symptoms are worsened by concurrent non-dopaminergic innervations including glutamatergic, serotonergic, and peptidergic neurotransmission. The present study is focused on discussing the recent updates in molecular mechanisms and therapeutic approaches for the effective management of LID in PD patients.

Emerging Pharmacotherapies for Motor Symptoms in Parkinson's Disease

Parkinson's disease (PD) is the second commonest neurodegenerative disorder in the older adult and is characterized by progressive disabling motor symptoms of bradykinesia, tremor, rigidity, postural instability and also non motor symptoms that affect quality of life. The pharmacotherapy of PD consists of oral, transdermal, and subcutaneous medications, as well as invasive advanced therapies at later stages of the disease. PD medications are often started as monotherapy but with the progression of the illness often there is a need to add more medications and frequently comprises of a challenging polypharmacotherapy. Adverse effects of pharmacotherapy often add to the problems of adequate treatment. Patients and physicians have to prioritize treatment goals on the most disabling symptoms and the safest and most effective treatments. Almost every year newer medications and modes of delivery continue to be researched and added to the therapeutic armamentarium. This review article outlines existing and emerging pharmacotherapies for motor symptoms in PD.

An evaluation of the efficacy and value of CVT-301 for the treatment of Parkinson's disease

Introduction: Levodopa is the most effective drug in the treatment of Parkinson's disease, but its chronic treatment is linked to the occurrence of motor complications with fluctuations of motor performance and dyskinesia. Unpredictable OFF episodes can be severe and disabling and current rescue medications cannot always be used safely. Rescue therapy is characterized by a rapid and predictable ON response and the safety profile of levodopa will represent a major advantage for patients affected by unresponsive OFF episodes.Areas covered: CVT-301 is a new inhaled formulation of LD recently developed as a self-administered treatment for OFF periods. Herein, the pharmacodynamic and pharmacokinetic properties, efficacy, and safety of CVT-301 are reviewed.Expert opinion: CVT-301 may offer several potential advantages including increased systemic bioavailability through pulmonary absorption, rapid onset of action, avoidance of first-pass drug metabolism, and less plasma level variability. It should be noted that the delivery device used has been described as relatively simple to use, but the few steps required to prepare and self-administer the dose can be challenging for PD patients during their OFF state. Additionally, resolution of an OFF episode requires the administration of two capsules of CVT-301, which further complicates the use of the device.

Levodopa Inhalation Powder: A Review in Parkinson's Disease

Levodopa inhalation powder (Inbrija^®) is approved for the intermittent treatment of OFF episodes in patients with Parkinson's disease (PD) treated with levodopa/dopa-decarboxylase inhibitor (LD-DCI) in the EU and specifically with carbidopa/levodopa in the USA. The approved dosage is 84 mg taken as needed up to five times a day. Administered via a breath-actuated inhaler, this formulation enables levodopa to bypass the gastrointestinal (GI) tract and, instead, rapidly enter the bloodstream through the pulmonary system. In the 12-week, double-blind, placebo-controlled, phase III SPAN-PD trial, as-needed levodopa inhalation powder 84 mg improved motor symptoms during OFF periods in PD patients (aged 30-86 years) treated with levodopa and carbidopa or benserazide. The likelihood of achieving an ON state 60 min postdose was significantly higher in the levodopa inhalation powder than the placebo group, with most patients in the levodopa inhalation powder group experiencing improvements in PD symptoms. Findings from longer-term, 52-week phase III studies were consistent with those from the SPAN-PD trial with regards to the treatment of OFF episodes. Levodopa inhalation powder was generally well tolerated and did not noticeably affect pulmonary function in PD patients. Providing a nonintrusive, convenient treatment method, levodopa inhalation powder is a promising option for the intermittent treatment of OFF episodes in patients with PD treated with a LD-DCI.

A selective and sensitive UFLC-MS/MS method for the simultaneous determination of five alkaloids from Piper longum L. and its application in the pharmacokinetic study of 6-OHDA-induced Parkinson's disease rats

The alkaloids from Piper longum L. (PLA) mainly contain piperine (PPR), piperlongumine (PPL), Δα,β-dihydropiperlonguminine (DPPL), piperanine (PPRA) and pellitorine (PLTR), which have neuroprotective effects on a 6-OHDA-induced rat model of Parkinson's disease (PD). To elucidate the pharmacokinetic profiles of these main compounds in PD rats, we developed a rapid, selective and sensitive ultra-fast liquid chromatography-electronic spray ionization-tandem mass spectrometry (UFLC-ESI-MS/MS) method which was validated for the simultaneous determination of the 5 absorbed compounds in the plasma of 6-OHDA-induced PD rats. The plasma samples were pretreated using a protein precipitation method with methanol/acetonitrile (1 : 1, v/v). The analytes and internal standard (IS) were separated on a Phenomenex Gemini C18 column using gradient elution with a mobile phase consisting of acetonitrile and a 0.1% formic acid aqueous solution at a flow rate of 0.5 mL min-1. The total chromatographic running time was 4.5 min. The detection was performed with positive electrospray ionization (ESI) using the multiple reaction monitoring (MRM) mode of transitions at m/z 286.2 → 201.2, m/z 274.2 → 201.2, m/z 276.2 → 135.1, m/z 288.2 → 135.1, m/z 224.1 → 168.2, and m/z 472.1 → 436.1 for PPR, PPL, DPPL, PPRA, PLTR and IS, respectively. All five analytes showed excellent linearity (R > 0.995) within the concentration range of 0.20-5000 ng mL-1. The established method was then applied to investigate the pharmacokinetics of multi-components (PPR, PPL, DPPL, PPRA and PLTR) in PD rats after oral administration of PLA. The results showed that no obvious differences were observed in the pharmacokinetic parameters of PPR, PPL, DPPL, PPRA and PLTR in PD rats compared with those in sham rats after oral administration of PLA except for MRTs for PPR, PPL and PLTR. Additionally, the activities of superoxide dismutase (SOD) were related to the concentrations of the multi-components in plasma.