Katarina Rukavina scite author profile

Sialorrhoea in Parkinson's disease (PD) is an often neglected yet key non-motor symptom with impact on patient quality of life. However, previous studies have shown a broad range of prevalence figures. To assess prevalence of drooling in PD and its relationship to quality of life, we performed a retrospective analysis of 728 consecutive PD patients who had a baseline and follow-up assessment as part of the Non-motor International Longitudinal Study (NILS), and for whom drooling presence and severity were available, assessed through the Non-Motor Symptoms Scale (NMSS). In addition, we analysed the prevalence of associated dysphagia through self-reported outcomes. Quality of life was assessed through the PDQ-8 scale. Baseline (disease duration 5.6 years) prevalence of drooling was 37.2% (score ≥ 1 NMSS question 19), and after 3.27 ± 1.74 years follow-up, this was 40.1% (p = 0.17). The prevalence of drooling increased with age (p < 0.001). The severity of drooling, however, did not change (p = 0.12). While in 456 patients without drooling at baseline, only 16% (n = 73) had dysphagia (question 20 of the NMSS), in those with drooling this was 34.3% (p < 0.001). At follow-up, the number of patients with dysphagia had increased, 20.4% with no drooling had dysphagia, and 43.6% with drooling had dysphagia. Both at baseline and follow-up, drooling severity was significantly positively associated with quality of life (PDQ-8; r = 0.199; p < 0.001). In moderately advanced PD patients, subjective drooling occurs in over one-third of patients and was significantly associated with decreased quality of life. Dysphagia occurred significantly more often in patients with drooling.

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Pain in Parkinson's disease: new concepts in pathogenesis and treatment

Rukavina

Leta

Sportelli

et al. 2019

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Purpose of reviewIn this review, we discuss the most recent evidence on mechanisms underlying pathological nociceptive processing in Parkinson's disease patients, as well as novel treatment strategies. Recent findingsIn Parkinson's disease, specific neurodegenerative changes may cause alterations in nociceptive processing at multiple levels. Optimization of dopaminergic therapies should always be the first step in the management of Parkinson's disease pain. Reportedly, rotigotine transdermal patch, a monoamine oxidase type B inhibitor safinamide (as an add-on therapy to levodopa), subcutaneous apomorphine and intrajejunal levodopa infusion therapy may have a beneficial effect on pain sensations in Parkinson's disease patients. Among the nondopaminergic pharmacological therapies, prolonged-release oxycodone/ naloxone and duloxetine may be effective in the treatment of chronic pain in Parkinson's disease. Botulinum toxin (BTX) injections should be considered for the treatment of dystonic Parkinson's disease pain. Deep brain stimulation (DBS) may lead to pain relief with a long-lasting effect in Parkinson's disease patients. Physiotherapy and physical activity in general are essential for Parkinson's disease patients suffering from pain.

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Potential of animal models for advancing the understanding and treatment of pain in Parkinson’s disease

Buhidma

Rukavina

Chaudhuri

et al. 2020

npj Parkinsons Dis.

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Pain is a commonly occurring non-motor symptom of Parkinson's disease (PD). Treatment of pain in PD remains less than optimal and a better understanding of the underlying mechanisms would facilitate discovery of improved analgesics. Animal models of PD have already proven helpful for furthering the understanding and treatment of motor symptoms of PD, but could these models offer insight into pain in PD? This review addresses the current position regarding pain in preclinical models of PD, covering the face and predictive validity of existing models and their use so far in advancing understanding of the mechanisms contributing to pain in PD. While pain itself is not usually measured in animals, nociception in the form of thermal, mechanical or chemical nociceptive thresholds offers a useful readout, given reduced nociceptive thresholds are commonly seen in PD patients. Animal models of PD including the reserpine-treated rat and neurodegenerative models such as the MPTP-treated mouse and 6hydroxydopamine (6-OHDA)-treated rat each exhibit reduced nociceptive thresholds, supporting face validity of these models. Furthermore, some interventions known clinically to relieve pain in PD, such as dopaminergic therapies and deep brain stimulation of the subthalamic nucleus, restore nociceptive thresholds in one or more models, supporting their predictive validity. Mechanistic insight gained already includes involvement of central and spinal dopamine and opioid systems. Moving forward, these preclinical models should advance understanding of the cellular and molecular mechanisms underlying pain in PD and provide test beds for examining the efficacy of novel analgesics to better treat this debilitating non-motor symptom.

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