Obesity Clinical Trial
Official title:
Time of Recovery and Prognostic Factors of COVID-19 Pneumonia
It has been reported that nearly half of the patients who are hospitalized for Covid-19
pneumonia have on admission old age or comorbidities.
In particular, hypertension was present in 30% of the cases, diabetes in 19%, coronary heart
disease in 8% and chronic obstructive lung disease in 3% of the patients.
Amazingly, in the two major studies published in the Lancet (Zhou F et al Lancet 2020) and in
the New England Journal of Medicine (Guan W et al 2020), the weight of the subjects as well
their body mass index (BMI) were omitted. However, obesity, alone or in association with
diabetes, can be a major predisposition factor for Covid-19 infection.
The primary end-point of our prospective, observational study is to assess the recovery rate
in patients with diagnosis of Covid-19 pneumonia. Among the other secondary end-points, we
intend to find the predictors of the time to clinical improvement or hospital discharge in
patients affected by Covid-19 pneumonia.
It has been reported that nearly half of the patients who are hospitalized for Covid-19
pneumonia have on admission old age or comorbidities.
In particular, hypertension was present in 30% of the cases, diabetes in 19%, coronary heart
disease in 8% and chronic obstructive lung disease in 3% of the patients.
Amazingly, in the two major studies published in the Lancet and in the New England Journal of
Medicine, the weight of the subjects as well their body mass index (BMI) were omitted.
However, obesity, alone or in association with diabetes, can be a major predisposition factor
for Covid-19 infection.
Obesity is associated with a systemic low-grade inflammation state with increase circulating
levels on many pro-inflammatory cytokines, such as IL-1β and IL-6 .
Belonging to the innate immune system but sharing characteristics with the adaptive immunity,
natural killer (NK) cells are activated in the white adipose tissue of subjects with obesity
where they proliferate and trigger M1 macrophage accumulation.
NK cells are the first line of defense against viral infections. They mediate cytolysis or
apoptosis of virus-infected cells. Moreover, NK cells release pro-inflammatory cytokines with
antiviral activity.
Not only NK cells frequency is reduced in subjects with obesity but also their cytotoxic
capabilities are reduced.
A lower NK cell activity is also present in subjects with type 2 diabetes .Therefore,
subjects with obesity and/or type 2 diabetes should have an enhanced susceptibility to viral
infections.
It has been shown that hypertension is associated with Covid19 infection in 24-30% of the
cases while diabetes was present in 12% to 22% of the patients.
It is now recognized that lipids perform numerous indispensable cellular functions and some
of them are involved in the activation of the immune active cells. In addition, lipids are
involved in multiple steps in the virus replication cycle, and a recent article showed how
metabolic remodelling of host lipids is significantly associated with the propagation of the
human-pathogenic coronavirus.
Lipids show both pro-inflammatory and anti-inflammatory activities and interact with the
immune response through the activation of lipid-reactive T cells. Ceramides (Cer),
phospholipid or sphingolipid, but also amino acids and free fatty acids (FFA), activate the
pro-inflammatory pathways resulting in the activation of toll like receptor-4 (TLR-4) and
Lysophosphatidylcholines (LPC) that play a role in cell proliferation and activation of
T-cells.
The platelet-activating factor, (also known as PAF, PAF-acether or AGEPC, i.e.
acetyl-glyceryl-ether-phosphorylcholine), can also be involved. PAF is a potent phospholipid
activator and mediator of many leukocyte functions, platelet aggregation and degranulation,
inflammation, and anaphylaxis. Moreover, it is an important mediator of bronchoconstriction.
We hypothesize that several lipids may serve as biomarkers of patients who will develop a
more severe reaction to the virus. Measurement of plasma lipidomic profile will help in
finding subjects more at risk to severe pulmonary disease and in helping to target treatment
strategy.
The primary end-point of our prospective, observational study is to assess the recovery rate
in patients with diagnosis of Covid-19 pneumonia. Among the other secondary end-points, we
intend to find the predictors of the time to clinical improvement or hospital discharge in
patients affected by Covid-19 pneumonia.
Clinical improvement is defined as the reduction in severity of Covid-19 pneumonia expressed
as the transition from a higher severity to a less severity condition. The possible outcomes
are 1. Death; 2. hospitalization, requiring extracorporeal membrane oxygenation and/or
invasive mechanical ventilation; 3. hospitalization, requiring nasal high-flow oxygen therapy
and/or noninvasive mechanical ventilation; 4. hospitalization, requiring supplemental oxygen;
5. hospital discharge.
Secondary endpoints will include liver, kidney or multiorgan failure, cardiac failure, the
efficacy of different pharmaceutical treatment against Covid-19 and the development of
predictors and biomarkers of the severity of Covid-19 infection.
Methods Before starting the study, the protocol will be submitted to and approved by the
local Ethical Committees at the Fondazione Policlinico Universitario A. Gemelli IRCCS,
Catholic University, Rome, Italy. Before enrollment each subject will sign the informed
consent.
Inclusion criteria: hospitalized subjects of both sexes aged 18 years or older with diagnosis
of pneumonia, confirmed by chest imaging and oxygen saturation (SaO2) ≤ 94% in ambient air,
Covid-19 test positive, given informed consent to data collection from the patient or from
the patient's legal representative if the patient is too unwell to provide consent.
Exclusion criteria: age lower than 18 years, pregnancy or breast-feeding. Nasopharyngeal swab
samples will be taken for quantitative real-time polymerase chain reaction to make diagnosis
of Covid19 (2 repeated tests).
Data collected include time of symptoms (cough, fever, dyspnea, conjunctivitis, diarrhea,
asthenia, arthralgia) age, sex, height, weight, education, alcohol and smoking habits,
morbidities, plasma glucose, creatinine, transaminases, γ-GT, total cholesterol,
HDL-cholesterol, triglycerides, complete blood count, D-dimer, lactic acid dehydrogenase
(LDH), high-sensitivity C-reactive protein (hs-CRP), creatinkinase (CK), ferritin, albumin,
HbA1c, chest X rays, chest CT scan, therapy for pneumonia, other treatments including
anti-hypertensive and anti-hyperglycemic agents, body temperature, blood pressure, and oxygen
flow rate or other types of oxygen treatment.
Five ml of plasma divided in aliquots of 1 ml each will be also obtained and stored at −80°C
in anonymized way for future analysis, including third parties.
Primary end-point The primary end-point of the study is to compare the mean recovery rate in
patients with diagnosis of Covid-19 pneumonia, who present with complications at the time of
hospital admission (such as diabetes, obesity, cardiovascular disease, hypertension or
respiratory failure), with the mean recovery rate in patients without any of the
above-mentioned complications.
Secondary end-points
A secondary end-point of the study is the comparison of the survival curves (times to
improvement) in the two groups (patients with and without complications) and among patients
presenting with different types of complications:
1. Hypertension
2. Obesity and/or type 2 diabetes
3. Cardiovascular disease
4. Chronic obstructive lung disease
5. None of the above diseases Other endpoints are liver, kidney or multiorgan failure,
cardiac failure, the efficacy of different pharmaceutical treatment against Covid-19 and
the development of predictors and biomarkers of the severity of Covid-19 infection.
Sample size The sample size computation (20) is performed under the following hypotheses: the
rate of recovery for patients without complications is supposed to be 98%; the average rate
of recovery for patients with one of the following complications: diabetes, obesity,
cardiovascular disease, hypertension or chronic respiratory failure, is supposed to be 88%.
Moreover, it is supposed that the ratio between the sizes of the two groups is k=Nc/Nwc = 1,
under the assumption that 50% of patients with Covid-19 pneumonia have one of the
above-mentioned complications. We are, in fact, including overweight and obesity. To reach a
power of 0.80, with a ratio k of 1, the probabilities of improvement equal to pc = 0.88 and
pwc =0.98 and with an expected difference rates of 0.10, the sample size required is 198
patients if α is equal to 0.05.
Statistics The association between recovery and patient groups will be tested by means of a
Fisher exact test. A Cox Proportional-Hazard regression will be used to compare survival
curves (times to improvement) among the studied groups by correcting for the administered
therapy and for all the quantitative collected variables. Quantitative variables, measured at
hospital admission, will be compared among groups using ANOVA. In univariable analyses,
categorical variables, as gender, education, alcohol consumption and smoke habits will be
analysed by means of a Chi-Squared test to study their association with the recovery, while a
logistic regression model will be used to test possible quantitative predictors of recovery.
A multivariable logistic model, with a stepwise selection procedure, will be then used to
test all the variables that are significant in a univariable analysis.
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