cbd parkinson’s plus

The most common symptoms are outlined below, but many people have only a few symptoms.


CBD occurs when cells in specific parts of the brain – the cortex and basal ganglia – are damaged as a protein called tau builds up and over time causes harmful clumps. In normal brains, tau is broken down to avoid a build-up, but in CBD this does not happen.


Changes in personality, such as apathy, irritability, and decreased interest in things previously enjoyed may be noticed by family and friends.

There is a clear need for therapies that target other pharmacological systems. A multimodal approach combining activity on dopaminergic as well as non-dopaminergic system would be very helpful and needs to be explored.

Although clinical diagnosis relies on the presence of cardinal motor features, PD is also associated with numerous non-motor symptoms that can be equally disabling than the motor symptoms or even more so. Drugs that enhance intracerebral dopamine concentrations or stimulate dopamine receptors remain the main treatment for motor symptoms. None of available treatments have proven to be neuroprotective or disease-modifying. Dopaminergic drugs are particularly effective during the early stages of the disease. However, PD invariably progresses, and long-term use of these medications may lead to reduced drug efficacy and the development of complications such as motor fluctuations and dyskinesias.

In this issue of the Brazilian Journal of Psychiatry, a research group from Faculdade de Medicina de Ribeirão Preto, Universidade de São Paulo, Brazil, addressed animal and human clinical studies involving the use of CBD for PD.1 The authors discussed the biological bases for a potential effect of CBD in this setting, as well as preclinical and clinical studies of CBD in PD. The latter, all conducted by their group, are an open-label study,2 a case series,3 and a randomized controlled trial.4 The open-label pilot study was conducted with six PD patients with psychotic symptoms, lasting at least 3 months before study entry, that could not be controlled by reduction of antiparkinsonian medications.2 Oral CBD doses ranging from 150-400 mg/day, combined with classic antiparkinsonian agents, reduced psychotic symptoms evaluated by different scales (the Brief Psychiatric Rating Scale and the Parkinson Psychosis Questionnaire), with no influence on cognitive and motor signs and no severe side effects. The second study was a case series of four PD patients with REM sleep behavior disorder (RBD).3 All had prompt, substantial, and persistent reductions in he frequency of RBD after CBD treatment. After drug discontinuation, the complex movements of RBD returned with baseline frequency and intensity. The third study was an exploratory double-blind trial of CBD versus placebo.4 Twenty-one PD patients without dementia or comorbid psychiatric conditions were assigned to three groups of seven subjects each who were treated with placebo, CBD 75 mg/day, or CBD 300 mg/day. Participants were assessed with respect to motor and general symptoms score (Unified Parkinson’s Disease Rating Scale [UPDRS]) and well-being and quality of life (Parkinson’s Disease Questionnaire [PDQ-39]). There were no differences across groups in motor score. However, the groups treated with CBD 300 mg/day had significantly different mean total scores in the PDQ-39. The authors point to a possible effect of CBD in improving measures related to quality of life in PD patients without psychiatric comorbidities.

All of these studies showed interesting results, but sample sizes were very small and the duration of follow-up was very short. The Movement Disorder Society Evidence-Based Medicine Committee recommendations for treatments of PD published in 2018 concluded that there was insufficient evidence to support the use of CBD for the treatment of PD at the time.5

Universidade Federal de Ciências da Saúde de Porto Alegre (UFCSPA), Porto Alegre, RS, Brazil, Irmandade da Santa Casa de Misericórdia de Porto Alegre (ISCMPA), Porto Alegre, RS, Brazil

Parkinson’s disease (PD) is a common and complex neurological disorder that encompasses a range of clinical, epidemiological, and genetic subtypes. Loss of dopaminergic neurons in the substantia nigra leading to striatal dopamine depletion is the core mechanism underlying the cardinal motor features of PD. Although depletion of dopamine is the most notable neurotransmitter change in PD, other neurochemical changes occur and contribute to PD symptomatology. Many regions of the nervous system outside the basal ganglia are also involved in PD. The underlying molecular pathogenesis involves multiple pathways and mechanisms, such as α-synuclein proteostasis, mitochondrial function, oxidative stress, calcium homeostasis, axonal transport, and neuroinflammation.

Unlike most of the motor features of PD, many non-motor symptoms do not respond to dopaminergic therapy, and some are indeed aggravated by them, with great impact on patient quality of life. The refractoriness of these symptoms to dopaminergic therapy implicates non-dopaminergic mechanisms. Therefore, current needs in the management of symptomatic patients with PD include dopamine-unresponsive axial motor impairments and non-motor symptoms, such as dementia, depression, anxiety, psychosis, and pain.