Obesity Clinical Trial
Official title:
Fish or Nuts? Dietary Effects on Cardiometabolic Risk Factors and Persistent Organic Pollutants
Obesity represents one of the most important public health challenges for the societies.
Although excess energy intake and physical inactivity are major causes of obesity and
cardiometabolic disorders, emerging evidence has linked persistent organic pollutants (POPs)
with the global epidemic of type 2 diabetes. However, the potential impacts of POPs on
obesity and cardiometabolic risk in humans remain poorly known. On the other side systematic
reviews and meta-analyses conducted in recent years strongly support a protective association
between eating nuts and CVD. The investigators will conduct a randomized controlled clinical
trial in adults. The main research questions are: a. Does consumption of fatty fish increase
levels of POPs in overweight and obese adult norwegian men and women compared to a control
group not consuming fatty fish? b. Does consumption of fatty fish affect markers of
cardiometabolic risks (blood pressure, lipids, glucose and CRP) in overweight and obese adult
norwegian men and women compared to a control group not consuming fatty fish? c. Does
consumption of nuts improve markers of cardiometabolic risks in overweight and obese adult
Norwegian men and women compared:1. to a control group not consuming nuts or fatty fish and
2. to a group consuming fatty fish.
Clinical significance of study: If an increase in POP levels is seen, and correlates with
cardiometabolic risks, this may indicate the need to look further at a causal relation
between POPs and cardiometabolic disease and risk factors particularly type 2 diabetes. If
eating nuts improves CVD risk factors compared to not eating nuts, or to eating fatty fish,
this could be important dietary information for populations at high risk of CVD.
Today more than one-fifth of the adult Norwegian population is obese, and the prevalence of
abdominal obesity has increased disproportionately in women. Cardiometabolic disorders
(metabolic syndrome, type 2 diabetes) follow in the wake of obesity increasing health burdens
on the population. Persistent organic pollutants (POPs) are lipophilic chemicals like
dioxins, polychlorinated biphenyls (PCBs), and organochlorine pesticides (OPs) that
bioaccumulate in living organisms for many years. In humans POPs are mainly stored in adipose
tissue, and these chemicals have been detected in plasma of all populations, including
babies. Humans are mainly exposed to POPs through the consumption of fatty rich food, with
the highest levels of POPs being present in fatty fish. Because of the presence of
polyunsaturated n-3 fatty acids, eating fatty fish has been generally associated with good
health outcomes. However, questions have arisen whether POPs and other pollutants are
impairing the nutritional benefits of fish (5). Dietary modification is a major cornerstone
of prevention and treatment of obesity and cardiovascular disease (CVD). Evidence has linked
the Mediterranean diet to prevention of CVD and sustained weight loss. The Mediterranean diet
as consumed traditionally consists of bread, legumes, vegetables and fruits, nuts, olive oil,
and limited red meats, meat products, butter, hard margarine and sugar as well as moderate
alcohol intake. Acceptance and feasibility of the Mediterranean diet is limited in
non-Mediterranean countries and in certain groups and requires modification according to
local culture and norms. In Norway, official dietary recommendations advise that the
population should eat lots of vegetables, fruit, berries, whole grains, legumes, nuts and
fish and that processed and red meats, salt and sugar should be limited (11). Nuts are a
powerhouse of protein, fiber, unsaturated fatty acids including n-3 fatty acids and
phytochemicals, and are easy to incorporate into the diet. Evidence links nuts to reduced
rates of CVD and overweight. Dietary recommendations most likely to reduce CVD risk in
patients with overweight or obesity are controversial. If eating fatty fish regularly worsens
metabolic regulation, an alternative to fatty fish may be eating nuts. This study aims to
clarify the effects of eating fatty fish compared to nuts on cardiovascular risk factors and
levels of POPs in patients with overweight or obesity who are at risk of CVD. 2.0 Insulin
resistance is tightly related to abdominal obesity and is accompanied by a host of changes in
cardiometabolic risk factors including low HDL cholesterol, high triglycerides, and
subclinical inflammation (shown as high CRP), disturbances that lead to CVD. Other
characteristics include high levels of adipokines (leptin, visfatin) and decreased
adiponectin, an insulin-sensitizing hormone. Clinically the presence of three or more of five
risk factors, namely abdominal obesity, low HDL cholesterol, high triglycerides, high fasting
glucose, and high blood pressure, characterizes metabolic syndrome. Insulin resistance can be
measured most precisely by the hyperinsulinemic euglycemic clamp method, but this method is
time consuming and can only be applied to limited samples. Clinically, insulin resistance is
suggested by high C-peptide. The Homeostasis Model Assessment index can be calculated to
estimate insulin resistance (HOMA-IR) using fasting glucose and insulin levels. 3.1 Obesity
and POPs Factors affecting the homeostasis between POPs stored in adipose tissue and
circulating blood concentrations are not clear. Both higher and lower POP levels have been
reported in obese versus lean individuals. These associations may differ according to the
compound and previous exposure. Less chlorinated PCBs, dichlorodiphenyldichloroethylene (DDE)
and dioxin showed adjusted odds ratio of 2-3 for abdominal obesity in data from seniors.
Because studies are mostly cross-sectional, or obtained data on weight change
retrospectively, causation between POP levels and obesity remains speculative. Weight loss
reduces adipose tissue storage increasing concentrations in blood in the short term, though
drastic weight loss decreases the total body burden. 3.3 Farmed fish as a source of POPs -
studies from Norway A much cited study published in 2004 found that farmed salmon had
significantly higher POP burdens than wild salmon and that farmed salmon from Europe were
significantly more contaminated than farmed salmon from South and North America. Since that
time, levels of some POPs like dioxins are likely to have decreased, as current aquaculture
feed increasingly is based on plant oils. However, other contaminants like OPs and polycyclic
aromatic hydrocarbons (PAH), which are omnipresent in vegetable oils, are largely present in
farmed fish. Recently, significant amounts of POPs were reported to remain in Norwegian
salmon. Importantly, proportions of n-3 fatty acids have decreased by about 50%. High levels
of POPs have been shown in coastal Norwegian populations, as well as associations between
marine food consumption and concentrations of POPs (26, 27). Further studies have shown that
oily fish is the main source of PCBs and dioxins in both high and population-representative
fish consumers in Norway. Clear correlations were shown between estimated intakes and blood
concentrations of POPs. 4.1 Nuts and CVD Systematic reviews and meta-analyses conducted in
recent years strongly support a protective association between eating nuts and CVD. Three
meta-analyses appeared in 2014. Studies found that nut intake was inversely associated with
ischemic heart disease, overall CVD and all-cause mortality but not significantly associated
with diabetes and stroke. There was found an inverse association between eating nuts and
incident ischemic heart disease and diabetes but not with stroke. It has been found a linear
dose-response relationship between nut consumption and coronary artery disease (CAD) risk,
where the risk of CAD decreased by 5% for every serving/week. Randomized dietary trial
provided experimental evidence to support the protective effect of nuts on CVD. Participants
aged 55 to 80 years and at high risk of CVD were randomly assigned to one of three dietary
interventions: Mediterranean diet supplemented with virgin olive oil or nuts (approximately
30 g/day of mixed nuts), or a low-fat diet. The primary end point was the rate of major
cardiovascular events (myocardial infarction, stroke, or death from cardiovascular causes)
and median follow-up was 4.8 years. The multivariable-adjusted hazard ratio for the group
assigned to a Mediterranean diet with nuts was 0.72 versus the control group. 4.2 Nuts and
body weight Though nuts are an energy dense food, eating nuts does not appear to be
associated with increased body weight. Meta-analysis conducted in 2013 found 33 relevant
clinical trials of nut intake that provided outcomes of body weight. Compared with control
diets, diets enriched with nuts did not increase body weight, BMI or waist circumference. The
effects of nuts on energy have been summarized lately. Nuts are characterized as having high
satiety value leading to strong compensatory dietary responses, inefficiency in absorption of
the energy they contain and augmentation of fat oxidation. 4.3 Nuts and cardiometabolic risk
factors A number of mechanisms have been examined in experimental studies providing putative
explanations of the protective effects of nuts on CVD. Effects have been shown primarily with
walnuts, hazelnuts, almonds and pistachios. Eating walnuts was shown to improved endothelial
function in overweight adults with visceral obesity. Mediterranean diets supplemented with
olive oil or nuts reduced 24-hour ambulatory blood pressure, total cholesterol and fasting
glucose and reversed metabolic syndrome and shifted lipoprotein subfractions to a less
atherogenic pattern. Diets enriched with hazelnuts improved endothelial function, prevented
LDL oxidation and lowered inflammatory markers in addition to lipid-lowering effects. Nuts
could be an alternative to fatty fish in the diet, both for persons wishing to eat vegetarian
diets, for those wishing to avoid contaminants, and for improving CVD risk factors in persons
at high risk. However, we are unaware of studies that have compared CVD risk factors in diets
including nuts versus fatty fish.
5.0 Objectives of the study and main hypotheses
1. to a control group not consuming nuts or fatty fish
2. to a group consuming fatty fish
Hypotheses:
1. The investigators hypothesize that consumption of fatty fish will increase levels of
POPs in overweight and obese norwegian men and women.
2. The investigators hypothesize that the consumption of fatty fish will change markers of
cardiometabolic risk in overweight and obese norwegian men and women.
3. The investigators hypothesize that the consumption of nuts will improve markers of
cardiometabolic risks in overweight and obese norwegian men and women both compared to a
control group not consuming nuts and to the group consuming fatty fish. Variables,
follow-up and endpoints: Clinic visits will be scheduled at biweekly intervals during
the first 12 weeks to ensure stability of body weight in both groups and compliance.
Vital signs and weight will be measured at visits in a standardized manner. A subsample
of 15 participants in each of the fish, nut and control groups will undergo a
hyperinsulinemic euglycemic clamp for evaluation of insulin sensitivity and resistance
at baseline and after three months. For POPs analyses samples will be frozen at -70
degrees Celsius and analyzed batchwise for the following 21 POPs, which are suspected to
strongly act as endocrine and metabolic disruptors:14 PCBs, including dioxin-like PCBs
and non-dioxin-like PCBs, 5, 2,2',4,4'-tetra-bromobiphenyl ether and 1 dioxin. Power:
Similar studies to the current one have not been performed previously to help in
calculation of sample size, however, this is attempted. In a six-month period a possibly
clinically relevant change in POPs may be a 15-20% increase - this is also the
difference in PCBs between representative and high consumers in Norway (29). The study
will include 40 participants in each group to allow for dropouts for a total of 120
participants. Clinical significance of study: If an increase in POP levels is seen, and
correlates with cardiometabolic risks, this may indicate the need to look further at a
causal relation between POPs and cardiometabolic disease and risk factors particularly
type 2 diabetes. If eating fatty fish promotes cardiometabolic risk, this may indicate
the need to reevaluate current dietary recommendations. If eating nuts improves CVD risk
factors compared to not eating nuts, or to eating fatty fish, this could be important
dietary information for populations at high risk of CVD.
4.3 Statistical analyses The statistical analysis will follow intent-to-treat principle, with
additional complementary analyses of the per protocol population. Data analysis for changes
in POPs and CVD risk factors will comprise all randomized individuals who complete the
12-week first study phase (intention to treat analysis - primary outcome). This analysis will
be repeated including only per protocol participants who recorded over 80% compliance with
assigned foods (completer analysis - secondary outcome). Between group comparisons of changes
in POPs and CVD risk factors will be performed using the independent samples t-test. The
study will compare the fish group to controls, and to the nut group. Within-group comparisons
will be performed using the paired t-test. P-values <0.05 will be considered statistically
significant.
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