Clinical Trial Details
— Status: Withdrawn
Administrative data
NCT number |
NCT04407390 |
Other study ID # |
H-20026601 |
Secondary ID |
|
Status |
Withdrawn |
Phase |
Phase 2
|
First received |
|
Last updated |
|
Start date |
June 1, 2020 |
Est. completion date |
May 1, 2022 |
Study information
Verified date |
September 2022 |
Source |
University of Copenhagen |
Contact |
n/a |
Is FDA regulated |
No |
Health authority |
|
Study type |
Interventional
|
Clinical Trial Summary
The purpose of this study is to investigate whether nicotinamide riboside supplementation can
attenuate the severity of SARS-CoV-2 infections in elderly patients.
A major event in aging is the loss of the central metabolite nicotinamide adenine
dinucleotide (NAD+) that appear to be important in the proinflammatory environment that occur
during aging. Notably, recent work from our and other groups suggest that aging can be
ameliorated by even a short-term treatment of the NAD+ precursor nicotinamide riboside.
Nicotinamide riboside has recently been shown to be able to return aging tissues to a younger
state even after short term treatment. This vitamin B3- analog is naturally occurring, is
readily taken up through oral administration and has been tested in human trials with few
side effects. In this randomized double blinded case-control trial, the investigators will
treat elderly (>70 year old) COVID19 patients with 1 g of nicotinamide riboside (NR-E) or
placebo for 2 weeks and investigate if this affects the clinical course of the disease.
Description:
Currently the number of SARS-CoV-2 positive patients are increasing worldwide and healthcare
systems are attempting to cope with the massive pressure that this pandemic results in. Given
the highly infectious virus and the relatively high mortality, this pandemic will likely
result in many thousand casualties. Interventions are direly needed.
During the early reports of the pandemic it quickly became apparent that mortality was
primarily attributed to the elderly population. Indeed, the mortality rate of young adults
was around 0.2% while elderly Covid-19 patients displayed a mortality rate of ~20%. Thus,
fatality rates increase ~100 fold when comparing young adults to elderly individuals.
A major event in aging is the loss of the central metabolite nicotinamide adenine
dinucleotide (NAD+) that appear to be important in the proinflammatory environment that occur
during aging. Notably, recent work from our and other groups suggest that aging can be
ameliorated by even a short-term treatment of the NAD+ precursor nicotinamide riboside.
Nicotinamide riboside has recently been shown to be able to return aging tissues to a younger
state even after short term treatment. This vitamin B3- analog is naturally occurring, is
readily taken up through oral administration and has been tested in human trials with few
side effects. The purpose of this aim is to investigate if nicotinamide riboside can reduce
the severity of COVID-19 in patients aged 70 or older.
The elderly population is particularly problematic because long term respirator use for these
patients is connected with a substantial mortality risk. Interventions that can keep them
from fulminant respiratory failure is therefore of critical importance.
1.2 Study treatment: Nicotinamide riboside Nicotinamide riboside (NR-E, supplied by Elysium
Health) is a naturally occurring vitamin B3 analog produced by yeast and found in multiple
food products at low concentration. Many organisms including humans cannot produce
nicotinamide riboside but have evolved methods to convert this into the central redox
modulator NAD+.
The efficacy and safety of nicotinamide riboside has been tested in a number of studies in
both healthy controls and in patients suffering from metabolic disease, a risk factor for an
adverse outcome of COVID-19 patients. Since this is a natural compound widely found in nature
no subjects have yet developed allergic responses to the molecule, and repeated doses of up
to 2 g orally per day have demonstrated an acceptable safety profile.
No treatment-emergent adverse events have so far been reported for nicotinamide riboside
1.3 Rationale NAD+ is emerging as a central metabolic molecule involved in multiple
age-related pathways including inflammation and metabolic control. Notably, 2 weeks
nicotinamide riboside treatment increases metabolic output, normalizes muscle function and
reverses hypoxic responses in old mice. Recently, NAD+ has been shown to positively activate
the inflammatory response in various tissue and may be involved in polarizing macrophages
towards the M1 lineage and facilitate resolution of inflammation. Previously it was shown
that SARS-CoV-1 evades activation of the immune response and exogenous activation of
macrophages leads to a better outcome of SARS-CoV-1 infection. Thus, activation of elderly
macrophages via NAD+ replenishment could be an efficacious strategy in COVID-19 patients. In
addition, NAD+ replenishment may facilitate overall greater resilience of elderly patients
considering the anti-aging effects of nicotinamide riboside allowing these patients to better
cope with infections.
1.4 Rationale for study design and doses The purpose of this study is to investigate whether
nicotinamide riboside supplementation can attenuate the severity of SARS-CoV-2 infections.
The chosen dosage is 1 g per day given orally. This is lower than 2 g previously given to
healthy elderly individuals, however, this particular patient population have not been
treated with nicotinamide riboside previously so a slightly lower dose was chosen. In
addition, there is data suggesting that NAD+ regulates circadian rhythm and the dose is
therefore given in the morning.
The study design is as follows: Elderly patients (>70 years old) seen with suspected COVID-19
at Bispebjerg hospital that are not requiring oxygen therapy are subjected to a COVID-19
test. The patients will be asked if they want to participate in this trial. If the patients
agree and if the COVID-19 test is positive the patients will be randomized to either placebo
or 1g nicotinamide riboside daily. Previous work has shown an efficacious increase in NAD+
levels combined with better physiological outcomes after 2 weeks treatment in preclinical
trials. The investigators will therefore treat patients for 2 weeks total with a primary
outcome of the study being hypoxic respiratory failure as defined by needing oxygen therapy.
The patients will be evaluated in the ambulatory at day 7 and after the treatment ends at day
14. Follow up in the ambulatory will occur three months after enrollment. If a patient is
admitted to the hospital during the treatment period the treatment continues for the full two
weeks. To evaluate outcomes, untargeted metabolomics and the NAD-ome will be measured in
peripheral blood mononucleated cells (PBMCs) upon enrolment, at day 7 and immediately after
the study as well as at follow up three months later. Changes in the epigenetic landscape is
a strong biomarker of age and is affected by NAD+ and epigenetic evaluation will be performed
in the PBMCs. Next generation machine learning data analysis will be applied to identify
predictors of clinical outcome.