In 2017, Parkinson’s UK – the largest charitable funder of Parkinson’s disease research in Europe – took a bold step forward in their efforts to find novel therapies.
In addition to funding a wide range of small and large academic research projects and supporting clinical trials, they have also decided to set up ‘virtual biotech’ companies – providing focused efforts to develop new drugs for Parkinson’s, targeting very specific therapeutic areas.
In today’s post we will look at the science behind their first virtual biotech company: Keapstone.
A virtual world of bioscience. Source: Cast-Pharma
I have previously discussed the fantastic Parkinson’s-related research being conducted at Sheffield University (Click here to read that post). Particularly at the Sheffield Institute for Translational Neuroscience (SITraN) which was opened in 2010 by Her Majesty The Queen. It is the first European Institute purpose-built and dedicated to basic and clinical research into Motor Neuron Disease as well as other neurodegenerative disorders such as Parkinson’s and Alzheimer’s disease.
The research being conducted at the SITraN has given rise to multiple lines of research following up interesting drug candidates which are gradually being taken to the clinic for various conditions, including Parkinson’s.
It’s all very impressive.
And apparently I’m not the only one who thought it was impressive.
The motor features of Parkinson’s disease can be managed with treatments that replace the chemical dopamine in the brain.
While there are many medically approved dopamine replacement drugs available for people affected by Parkinson’s disease, there also are more natural sources.
In today’s post we will look at the science and discuss the research supporting one of the most potent natural source for dopamine replacement treatment: Mucuna pruriens
When asked by colleagues and friends what is my ‘plan B’ (that is, if the career in academia does not play out – which is highly probable I might add – Click here to read more about the disastrous state of biomedical research careers), I answer that I have often considered throwing it all in and setting up a not-for-profit, non-governmental organisation to grow plantations of a tropical legume in strategic places around the world, which would provide the third-world with a cheap source of levodopa – the main treatment in the fight against Parkinson’s disease.
Plan B: A legume plantation. Source: Tropicalforages
The response to my answer is generally one of silent wonder – that is: me silently wondering if they think I’m crazy, and them silently wondering what on earth I’m talking about.
As romantic as the concept sounds, there is an element of truth to my Plan B idea.
I have read many news stories and journal articles about the lack of treatment options for those people with Parkinson’s disease living in the developing world.
Hospital facilities in the rural Africa. Source: ParkinsonsLife
Some of the research articles on this topic provide a terribly stark image of the contrast between people suffering from Parkinson’s disease in the developing world versus the modernised world. A fantastic example of this research is the work being done by the dedicated researchers at the Parkinson Institute in Milan (Italy), who have been conducting the “Parkinson’s disease in Africa collaboration project”.
The researchers at the Parkinson Institute in Milan. Source: Parkinson Institute
The project is an assessment of the socio-demographic, epidemiological, clinical features and genetic causes of Parkinson’s disease in people attending the neurology out-patients clinic of the Korle Bu Teaching and Comboni hospitals. Their work has resulted in several really interesting research reports, such as this one:
Title: The modern pre-levodopa era of Parkinson’s disease: insights into motor complications from sub-Saharan Africa.
Authors: Cilia R, Akpalu A, Sarfo FS, Cham M, Amboni M, Cereda E, Fabbri M, Adjei P, Akassi J, Bonetti A, Pezzoli G.
Journal: Brain. 2014 Oct;137(Pt 10):2731-42.
PMID: 25034897 (This article is OPEN ACCESS if you would like to read it)
In this study, the researchers collected data in Ghana between December 2008 and November 2012, and each subject was followed-up for at least 6 months after the initiation of Levodopa therapy. In total, 91 Ghanaians were diagnosed with Parkinson’s disease (58 males, average age at onset 60 ± 11 years), and they were compared to 2282 Italian people with Parkinson’s disease who were recruited during the same period. In long-term follow up, 32 Ghanaians with Parkinson’s disease were assessed (with an average follow period of 2.6 years).
There are some interesting details in the results of the study, such as:
- Although Levodopa therapy was generally delayed – due to availability and affordability – in Ghana (average disease duration before Levodopa treatment was 4.2 years in Ghana versus just 2.4 years in Italy), the actual disease duration – as determined by the occurrence of motor fluctuations and the onset of dyskinesias – was similar in the two populations.
- The motor fluctuations were similar in the two populations, with a slightly lower risk of dyskinesias in Ghanaians.
- Levodopa daily doses were higher in Italians, but this difference was no longer significant after adjusting for body weight.
- Ghanaian Parkinson’s sufferers who developed dyskinesias were younger at onset than those who did not.
Reading these sorts of research reports, I am often left baffled by the modern business world’s approach to medicine. I am also left wondering how an individual’s experience of Parkinson’s disease in some of these developing nations would be improved if a cheap alternative to the dopamine replacement therapies was available.
Are any cheap alternatives available?