Levodopa: back to the future

Abstract

After 50 years of clinical use, oral levodopa (LD) therapy remains the gold standard of symptomatic efficacy in the treatment of Parkinson’s disease (PD) [1–3] Compared with other dopaminergic therapies, dopamine replacement with levodopa is associated with the greatest improvement in motor function as assessed by the Unified Parkinson’s Disease Rating Scale (UPDRS) [4, 5]. In addition, responsiveness to oral levodopa has become a key diagnostic criterion for PD. However, long-term treatment with LD is often complicated by the development of various types of motor response oscillations over a day as well as drug-induced dyskinesia, a complication characterized by erratic involuntary movements. Such treatment-related motor complications eventually develop in the majority of patients and are found in about one-third of patients after only 8 months of exposure [6]. Once established, motor complications are difficult to treat and can develop into a significant source of disability. In extreme cases, treatment-induced dyskinesia may completely annihilate the therapeutic benefit initially gained from the drug. Despite an impressive body of experimental and clinical research, the precise mechanisms underlying the development of these levodopa-related motor complications remain incompletely understood. The most popular current hypothesis assumes that both motor fluctuations and dyskinesia are related to discontinuous delivery of oral levodopa to its site of action in the brain, resulting in intermittent or pulsatile dopamine receptor stimulation [7]. Indeed, after decades of clinical use and research, the best way to deliver levodopa to the brain remains elusive. Simple notions, such as the recommended starting dose, the best formulation to initiate therapy or the optimum dosing frequency, remain a matter of discussion among experts. The development of motor complications like response oscillations and drug-induced involuntary movements in the majority of PD patients has evolved as a major limitation to long-term success of oral levodopa substitution [8]. Motor complications are believed to reflect neuroplastic changes in basal ganglia motor loops induced by chronic pulsatile dopamine receptor stimulation and, on these grounds, an important part of the research in clinical pharmacology of PD is still directed at modifying and improving the delivery of levodopa aiming for constant drug delivery. The search for strategies of continuous levodopa delivery is ongoing, including the need to optimise duodenal delivery systems in terms of convenience and hardware problems. This supplement of the Journal of Neurology includes the proceedings of an International Symposium on Levodopa, held in Catania, Italy on 3–4 April 2009, organized by the Italian Association of Movement Disorders and PD (DISMOV-SIN) and endorsed by the Movement Disorder Society. All the main topics related to the current role of levodopa in the pharmacology of PD are covered in this supplement, including general issues (update on pharmacodynamic and pharmacokinetic properties), the use in clinical practice according to the different national M. Zappia Dipartimento di Neuroscienze, Universita di Catania, Catania, Italy