Pain in Parkinson's Disease With Motor Fluctuations. (PAINinPD)

Pain (spontaneous pain) is a fundamental non-motor symptom (NMS) of Parkinson's disease (PD) that is prevalent throughout the condition and often unrecognized and undertreated. Different types of pain have been described in association with PD including musculoskeletal, dystonic, central and neuropathic pain. Although musculoskeletal pain is the most commonly reported, a number of patients experience multiple types of pain which are more frequent and disabling in the intermediate phase of disease and which ultimately have a significant negative impact on the patient's quality of life. Despite its relevance, the pathophysiological mechanisms underlying pain in PD are yet to be fully understood. An abnormal nociceptive input processing in the central nervous system leading to hypersensitivity to evoked pain probably underlies all the different pain types experienced by PD patients and also intervene in pain-free PD patients. Additional factors including female gender, depression, disease duration, motor complications, postural abnormalities, medical conditions associated with painful symptoms (osteoporosis, rheumatic or degenerative joint disease,) probably contribute to the quality and distribution of spontaneous pain. Abnormalities in pain processing may be the consequence of decreased basal ganglia dopaminergic neurotransmission, as dopamine has been demonstrated to modulate pain perception in supraspinal regions involved in the pain pathways, including insula, anterior cingulate cortex, thalamus and periaqueductal grey. Furthermore, a neurodegeneration involving non-dopaminergic systems (such as g-aminobutyric acid, glutamate, noradrenaline, and serotonin) that modulate pain processing in other regions of the central nervous systems may also play a relevant role. The variegated pain dimension experienced by PD patients makes its therapeutic management a demanding challenge for clinicians.

The study of the scalp laser-evoked potentials (LEPs) (evoked pain) allows a non-invasive exploration of pain central pathways in humans. This technique proved useful in elucidating the physiopathology underlying different pain syndromes. Some data show that LEPs are altered in PD, in both pain-free PD patients and in PD patients with different kinds of pain, with amplitude reduction in N2/P2 component. Acute levodopa challenge had no effect in normalizing the decreased pain threshold/LEPs observed in PD patients in early Parkinson's disease while in PD patients with motor complications it partially increased pain threshold. This is consistent with the hypothesis that motor complications and pain may share common pathophysiological mechanisms which include not only dopaminergic but also non-dopaminergic systems dysfunction (25).This study has been conceived to study spontaneous pain (and/or evoked pain by laser stimulation) in PD patients (with or without pain) with motor fluctuations under drugs-on (Safinamide Metansolfonato or Rasagilina Mesilato).