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Huntington’s disease therapeutics conference 2020 – Day 3

HDBuzz reports from the annual Huntington’s disease therapeutics conference in Palm Springs

Rachel and Sarah report from the Huntington’s Disease Therapeuticstherapeutics treatments Conference – the biggest annual gathering of HD researchers.

Be sure to catch up on Day 1 and Day 2.

Thursday morning – Huntingtin lowering

Muñoz-Sanjuan showing us a summary of HTT lowering strategies
Muñoz-Sanjuan showing us a summary of HTT lowering strategies

Good morning everyone! We are back for Day 3 at the CHDI meeting in Palm Springs which is all about huntingtin lowering. There are a LOT of researchers and companies interested in huntingtin lowering!

We know lowering huntingtin proteinhuntingtin protein The protein produced by the HD gene. (HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15) in mice and rats does help with HD symptoms and progression, and that it is possible to lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 in other animals. However, the million dollar question is whether we can lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 in humans and whether this helps treat patients. Other big questions are when we should lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 – do we need to do this before patients show symptoms, or later? And do we need to lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 in specific brain areas? Or should this be done in the whole brain? All things that current clinical trials are trying to answer.

We can be optimistic that clinical trials will help us answer these questions. Scientists have developed lots of ways to try and lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 as well as all sorts of tools to measure HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 levels in the brain. There are also a lot of alternative strategies in the pipeline.

Our first speaker is Ignacio Munoz-Sanjuan from CHDI, discussing the timing of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lower strategies. Munoz-Sanjuan is also very actively involved in patient outreach in Latin America. Munoz-Sanjuan started a non-profit centered around his efforts in patient outreach called Factor H.

Scientists want to make sure any therapies they develop are safe for patients. HD affects the whole body so whilst we focus on HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering in the brain, its important to understand the effects of treatment on the whole patient. Neurodegenerationneurodegenerative A disease caused by progressive malfunctioning and death of brain cells (neurons) is a difficult problem to target – scientists in other fields such as Alzheimer’s and Parkinson’s are also concerned about how best to treat patients, it’s not an easy task to make these new medicines, so we should be cautious moving forward.

One attractive area for HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering are small molecules. These are medicines that would be taken as a pill, so lots of people are quite interested in developing this strategy further. But this likely wouldn’t specifically target expanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15, but rather total HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15. One key question in HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering is timing – when should we be treating to stop the disease? Can we reverse any damage that has been done or can we treat at later disease stages? Researchers don’t want to give unnecessary medicines to patients if they don’t have to. The brain is a really complex organ and it is important to remember that while mouse models are useful for investigating some aspects of HD progression, a mouse brain is not a human brain. Using lots of different models of HD is key for studying how well drugs might work. However, mice are critical for advancing HD research. Since timing of treatment is a hot topic, researchers have been following what happens to reversal of cellular effects in mice. Very excitingly, researchers are finding that HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering in mice can prevent and reverse deficits in striatal neuronsneuron Brain cells that store and transmit information – the most affected cell type in the brain of HD patients – amazing news!

Now, we move onto the promise of HD biomarkers. A quick recap that these are the measures scientists can make in patients to track how HD is progressing. Good biomarkers can help inform clinicians on how and when to best treat patients. CHDI has spent a long time developing new imaging techniques that will let us visualise how much HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 is in the brain, and whereabouts it is. To do this, they have developed a new molecule that specifically binds to the HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 protein molecule when it forms into certain clump structures. This is called a PET tracer or PET ligand, because the scanners it shows up in are called PET scanners – short for positron emission tomography. The molecule is able to cross into the brain so could be used to help track HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering. Already, CHDI and team are measuring lowering of these HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 clumps in different HD mouse models. They are trying HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering in different areas of the mouse brain and also treating mice which are different ages.

Another question scientists are trying answer is by how much should we lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 protein in cells? What level might help treat patients? What levels are safe? We can use the HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 PET ligand and other experiments to measure the lowering levels after treatment and can then see which mouse models recover at which levels of lowering. This might help translate discoveries from mice to humans.

The next speaker is Mark Bevan from Northwestern University, discussing his work lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 in a specific brain region.

The research Bevan is sharing with us today is focused on how HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering in certain brain areas might change the way the brain works and how this could affect symptoms in patients. Like many others, Bevan is interested in cell type-specific differences caused by HD. His group is finding that specific kinds of neuronsneuron Brain cells that store and transmit information are less active, while others seem to be unaffected in mouse models of HD. By looking in HD models of mice, Bevan has found that there are differences in the way neuronsneuron Brain cells that store and transmit information talk to one another and is using his experiments looking at neuronneuron Brain cells that store and transmit information-to-neuronneuron Brain cells that store and transmit information communication to study the effect of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering in these mice. By lowering HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 in HD mice, Bevan is seeing that motor deficits are improved – the mice are able to move longer distances at a faster speed. Great news since current human clinical trials haven’t yet disclosed data regarding changes they might be seeing in symptoms. Bevan and colleagues are continuing to look at HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering on other motor deficits and so forth in their mouse models.They hope their findings might inform how HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering therapies could translate to the clinic.

Next up is Marcy MacDonald from Massachusetts General Hospital whose talk is intriguingly titled “the outer limits”! From the Enroll-HD study, researchers are finding there is lots of variability that comes from factors other than CAG length. While this has been a big finding in the HD field, it really indicates how complex this disease is, even though we know the genetic cause. Another huge thanks to all the Enroll-HD participants. Hopefully you’ve noticed a theme that many researchers are making great use of the data you’re providing – thank you! While we all have the HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 gene and HD patients have a longer CAG than others, we also have other small variations in the HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 gene sequence that researchers like MacDonald are interested in studying and targeting therapeutically.

MacDonald’s team has generated stacks of data on what can modify disease progression in HD. They are sharing all their data so that scientists all over the world can work together on it – many pairs of eyes are always better than one. Serendipitously, MacDonald identified people that have reduced expression of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15. These people are just fine, so researchers know that reducing HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 to at least that level shouldn’t have detrimental effects. Since HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 expression levels vary within the population and people seem to be just fine, this is really good news for HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering strategies. It suggests that altering HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 levels might not have negative side effects. One thing to note though, is that when HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 is lowered (specifically in liver), the cells are less able to sustain stress in mouse models. So again, it’s very important for researchers to test safety thoroughly for all HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lower strategies.

Because HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 expression levels vary within the population, researchers also need to be aware that the starting levels of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 for patients in HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering trials may differ. So one could imagine in the future a more personalized approach may be adopted for each patient. These are all points that companies running HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering trials are considering in their trial design. We all look forward to hearing more updates from these trials in the afternoon session.

Thursday afternoon – taking huntingtin lowering into the clinic

CHDI is coordinating efforts from a huge team of scientists to move work forward quickly
CHDI is coordinating efforts from a huge team of scientists to move work forward quickly

Good afternoon! This session focuses on translating HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering to the clinic. Our first talk is by Charlotte Sumner from Johns Hopkins. She’ll be discussing some of the challenges associated with targeting genes therapeutically.

While Sumner primarily focuses on a different neurodegenerativeneurodegenerative A disease caused by progressive malfunctioning and death of brain cells (neurons) disease called spinal muscular atrophy (SMA), there’s currently an ASOASOs A type of gene silencing treatment in which specially designed DNA molecules are used to switch off a gene treatment for SMA so the HD field can learn a lot from watching what they’re doing. Similarly to HD, we know the precise genetic causes for SMA. However, our understanding of what’s happening with the protein molecules in the cell is much more hazy so the drivers of disease are not completely clear. Because the genetics are clear, there are a number of different gene therapies which have been developed for SMA. In addition to an approved ASOASOs A type of gene silencing treatment in which specially designed DNA molecules are used to switch off a gene therapy, there are also small molecules (taken in a pill) which lower the target gene currently under review at the FDA. A single dose or “one-shot” gene replacement therapy which fixes the DNA sequence directly has also been shown to work well in young children with SMA and work is ongoing to see if this treatment would work well for older patients. Some patients in the SMA trials improved dramatically across various metrics that were measured. These findings are very encouraging for the field of HD research, where we hope to apply some of the successful strategies they’ve found in the field of SMA. Earlier in the conference we tweeted about researchers who were interested in determining when is the best time to treat HD. In the field of SMA they’ve found that timing really matters, so it’s great to see that HD research is on the right track.

Because some SMA patients have responded differently to treatments, SMA researchers are keen to get more patient data to understand potential reasons for this variation. This reinforces why studies such as Enroll-HD will be helpful for HD research. Now SMA researchers are trying to work out the best way to treat and monitor their patients i.e. how much of the medicine to give? When and how often should it be given? This should hopefully further improve patient outcomes. Again, similarly to HD, SMA researchers are interested in neurofilament as a biomarkerbiomarker a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable. for disease progression. They are monitoring neurofilament levels in patients who are treated with the different SMA therapies and neurofilament levels seem to drop over time with treatment.

The next talk is from Anastasia Khvorova who works at the University of Massachusetts Medical School and will be telling us about HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering using a technique called RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene. Similar to ASOsASOs A type of gene silencing treatment in which specially designed DNA molecules are used to switch off a gene, RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene-based therapeuticstherapeutics treatments target the message of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 rather than the DNA or the protein, acting to destroy the middle step so that protein is never produced. You can read more about RNAi and how it differs from ASOs here.

To test how the HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15-targeting RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene affects disease, Khvorova and her team first analyzed the effects in mice. The first step was to measure how widely their treatment spread in the brain – very promising results! After treatment, they found HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 was significantly reduced in many areas of the brain. This work targeted both expanded and unexpanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15, but they’re also working on approaches that will just target expanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15. Making some clever tweaks to the RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene molecules, Khvorova and team were able to make their treatment selective for just the expanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 message so that only this protein is lowered, not the unexpanded. However, it should be noted that this will only work in ~35 % patients who have a slight difference in their huntingtin gene sequence called a SNPsingle nucleotide polymorphisms a single-letter spelling difference in a gene. SNPs, pronounced 'snips', are common and most don't change the function of the gene. (pronounced “snip”). This allows the RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene treatment to select for the expanded over the unexpanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15. Next they wanted to see how their RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene treatment worked in larger animal models, so they moved from mice to sheep. Using sheep they tested various delivery methods for the treatment finding they could inject into the brain or CSFCSF A clear fluid produced by the brain, which surrounds and supports the brain and spinal cord. and it works the same.

After sheep, Khvorova and colleagues moved into monkeys and again saw that the RNAiRNA interference A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene treatment spread fairly nicely across the brain and through the spinal cord. It stays in these regions for quite a long time so they don’t expect to have to treat very frequently.In a very early safety study in these monkeys, the therapy seems safe at the dose tested. Similarly, early data from a sheep safety study showed the therapy was safe under the conditions that the scientists tested. The exciting news is that HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 is significantly lowered in these early studies in monkeys. The levels of other genes seem to be unchanged which means the off-target or side effects appear to be low in the way the scientists measured in their experiment. Nonetheless, looking for even small changes in other genes is really important so work is ongoing by Khvorova and colleagues to make sure that there are no differences and confirm the safety of this therapy. This technology is thought to be very promising by Khovrova and colleagues, as well as CHDI. It could be used to change the levels of other proteins in the brain such as those identified as modifiers for symptom onset in HD patients or other targets. One of the things they’re paying attention to is cost. They’re trying to keep the cost down so it can be widely available to all HD patients. We’re really looking forward to more updates about this promising research as they move toward the clinic!

Our next speaker is Astrid Valles-Sanchez from uniQure. She’ll be telling us about uniQure’s approach to lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15. UniQure has a treatment called AMT-130 to lower HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 and is currently performing a clinical trialclinical trial Very carefully planned experiments designed to answer specific questions about how a drug affects human beings to determine the safety of this treatment. AMT-130 is designed to be a one-time injection of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering treatment into the brain. Valles-Sanchez is focusing her talk on biomarkers they’re assessing to measure how effective this treatment will be to modify HD disease progression. When they look in a pig model, they find that their treatment is detected in the CSFCSF A clear fluid produced by the brain, which surrounds and supports the brain and spinal cord. out to 2 years. In monkeys, they detected their treatment out to 6 months, when the animals were sacrificed. Similarly to other studies, uniQure want to check that their therapy is spreading out across the brain to see where it might be working. In the pig model 12 months after treatment, they analyzed tissue from different areas across the brain to see how effectively their treatment lowered HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15. They find significant lowering of expanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 with the strongest lowering in brain regions most affected by HD. uniQure also looked at expanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 levels in the CSFCSF A clear fluid produced by the brain, which surrounds and supports the brain and spinal cord. after treating HD pig models with AMT-130, but in this particular experiment, the levels in the CSFCSF A clear fluid produced by the brain, which surrounds and supports the brain and spinal cord. do not correlate to levels of HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 found in the brain. Scientists at uniQure are interested in using magnetic resonancemagnetic resonance A technique using powerful magnetic fields to produce detailed images of the brain in living humans and animals spectroscopy (MRS), a non-invasive way to look at the brain, to see whether there are any changes in chemicals called metabolitesMetabolite a chemical produced by cells as they break down fuels for energy that are found in different areas of the brain after treatment.

The final talk of the conference is from Scott Schobel who will be telling us about some very preliminary new results from the Roche trial. These results come from a 15 month open labelopen label A trial in which the patient and doctor know what drug is being used. Open label trials are susceptible to bias through placebo effects. extension in manifestmanifest after HD diagnosis, or when symptoms are already showing (symptomatic) HD patients, we should be a bit cautious in interpreting this data as its still very early days, but its exciting nonetheless to see what they found.

And thats is for this years HD Theraputics Conference! Be sure to catch up on Day 1 here, and Day 2 here and keep up with the conversation on Twitter. As many projects in the field of HD research, this has been a large collaborative effort of many researchers working together to get this out. RG6042 has a new name! It’s called tominersen which is what the therapy will be called from now on. Patients in the original safety study were kept on an open labelopen label A trial in which the patient and doctor know what drug is being used. Open label trials are susceptible to bias through placebo effects. extension which means that after the safety trial ended, they continued to receive the therapy and the data we will see today is what scientists have found since the end of the safety study. Recap – this therapy is NOT selective for the expanded HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 gene, it is designed to lower both expanded and unexpanded huntingtin proteinhuntingtin protein The protein produced by the HD gene. levels. Folks at Roche and their collaborators have been working for many years now with different animal models to work out how much they would need to reduce levels of huntingtin proteinhuntingtin protein The protein produced by the HD gene. and how they might measure that lowering of protein by looking at the CSFCSF A clear fluid produced by the brain, which surrounds and supports the brain and spinal cord.. It was two years ago at the CHDI meeting that Sarah Tabrizi from UCL delivered the first results of the safety study. In just 2 short years we’ve made huge advances in HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 lowering with many strategies now available – very exciting!

From the safety study, it looked as though HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 protein levels could be reduced with tominersen in a dose-dependent manner. This means that the protein was lowered more in patients who received more of the treatment in the small number of patients tested. The open labelopen label A trial in which the patient and doctor know what drug is being used. Open label trials are susceptible to bias through placebo effects. extension tested 2 dosing strategies – participants either were dosed either every month or every other month. This type of design was critical for determining how often patients would need to take tominersen. They found that good huntingtin lowering was observed even when tominersen was taken every other month. The two patient groups had very few folks not complete this extension study – we are all grateful to these patients for their commitment to the trial! Given the metrics that Roche examined, the data indicates that tominersen should be taken every other month rather than every month. Because they found the less frequent dosing was effective in lowering HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15, they modified the strategy for the next arm of the study (Phase IIIphase III The phase in the development of a new treatment where clinical trials are conducted using many patients, to determine whether the treatment is effective) to reduce the number of doses and test dosing every 16 weeks – much less demanding for patients!

Tracking levels of neurofilament, a proposed HD biomarkerbiomarker a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable. to monitor disease progression, could be helpful to see how effective the treatment is and Roche are continuing to investigate neurofilament levels in the clinical trialclinical trial Very carefully planned experiments designed to answer specific questions about how a drug affects human beings. They found that NFLNfL biomarker of brain health levels have an initial rise, but amounts seem to decrease and even out by the 15 month mark. Roche are interested in understanding the NfLNfL biomarker of brain health biomarkerbiomarker a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable. further and are looking into the underlying biology which might link HTTHTT one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15 and NfLNfL biomarker of brain health. There is more clinical work in the pipeline at Roche which will hopefully continue to inform HD researchers about how effective this therapy might be. Schobel has kindly shared his slides online!

And that’s all folks! We hope these live tweets have been helpful for you all to follow along, we’re excited for next year already!

The authors have no conflicts of interest to declare.

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Topics

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Glossary

ASOs
A type of gene silencing treatment in which specially designed DNA molecules are used to switch off a gene
biomarker
a test of any kind – including blood tests, thinking tests and brain scans – that can measure or predict the progression of a disease like HD. Biomarkers may make clinical trials of new drugs quicker and more reliable.
clinical trial
Very carefully planned experiments designed to answer specific questions about how a drug affects human beings
CSF
A clear fluid produced by the brain, which surrounds and supports the brain and spinal cord.
HTT
one abbreviation for the gene that causes Huntington’s disease. The same gene is also called HD and IT-15
huntingtin protein
The protein produced by the HD gene.
magnetic resonance
A technique using powerful magnetic fields to produce detailed images of the brain in living humans and animals
manifest
after HD diagnosis, or when symptoms are already showing
Metabolite
a chemical produced by cells as they break down fuels for energy
neurodegenerative
A disease caused by progressive malfunctioning and death of brain cells (neurons)
neuron
Brain cells that store and transmit information
NfL
biomarker of brain health
open label
A trial in which the patient and doctor know what drug is being used. Open label trials are susceptible to bias through placebo effects.
phase III
The phase in the development of a new treatment where clinical trials are conducted using many patients, to determine whether the treatment is effective
RNA interference
A type of gene silencing treatment in which specially designed RNA molecules are used to switch off a gene
single nucleotide polymorphisms
a single-letter spelling difference in a gene. SNPs, pronounced 'snips', are common and most don't change the function of the gene.
therapeutics
treatments

More glossary terms…

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