Heart Failure Clinical Trial
Official title:
Insulin Resistance: A New Target in Heart Failure
Whether insulin resistance common among Chronic Heart Failure (CHF) patients in Tayside and
identify factors associated with insulin resistance in CHF.
We also want to identify mechanism for the impaired exercise capacity and reduced peak VO2 in
CHF
There is increasing evidence of a reciprocal interrelationship between chronic heart failure
(CHF) and insulin resistance (IR). Studies have shown that patients with CHF have IR and that
the degree of IR is associated with reduced exercise capacity and peak oxygen consumption
(VO2).
IR has also been linked to decreased exercise capacity in patients with diabetes mellitus and
other chronic disease states, as well as in healthy subjects confirming that IR is
independently linked to exercise intolerance studies have shown that IR is
pathophysiologically linked with CHF and is implicated in the disease progression in CHF.
This is likely because IR is associated with endothelial dysfunction, inflammation, increased
oxidative stress and myocardial remodelling; processes that accelerate the progression of
disease in CHF. Therefore, the IR has now emerged as a potential target for intervention in
improving the symptoms and outcome in patients with CHF.
However, there are still some key unanswered questions. Firstly, what is the prevalence of IR
in the cohort of CHF patients in Tayside? Previous studies outside the UK examining
prevalence of IR in CHF were conducted in the pre-B-blocker era. However, B-blockers, which
may worsen metabolic control, are now widely used in the treatment of CHF. It is likely that
the prevalence might be higher in our present cohort of patients with CHF. Secondly, what are
the potential contributory factors to IR in CHF?The exact mechanisms of IR in CHF are not
known. Sympathetic over-activity in CHF can acutely reduce insulin sensitivity and it also
decreases the release of insulin from the pancreatic beta cells, and increases hepatic
glucose production. Other mediators include cytokines and adiponectin and leptin. The loss of
skeletal muscle bulk and impaired endothelial function with reduced skeletal muscle blood
flow may also contribute to IR in CHF. Determining the relative importance of these various
factors may help identify therapeutic strategies in overcoming IR in CHF. Finally, what is
the mechanism for the impaired exercise capacity and reduced peak VO2 in CHF? Exercise VO2
measures the total body's oxygen consumption which reflects both cardiac output and
peripheral utilization of oxygen. We do not know whether the problem is due to a worsening of
the reduced cardiac output in CHF and/or decreased peripheral utilization. To determine this,
we plan to measure the cardiac output at the same as the measurement of VO2.
The aims and objectives of the study are:
Primary objectives
- To establish the prevalence of Insulin resistance (IR) among chronic heart failure (CHF)
patients in Tayside
- To identify factors associated with IR in CHF
Secondary Objectives IR could have potential functional consequences
- Is it associated with a decrease in exercise capacity ?
- Is it associated with altered endothelial function ?
Investigations:
Patients will arrive in the research laboratory having fasted overnight. Following written
informed consent, patients will undergo a complete medical examination and bloods (40 ml)
will be drawn for measurement of neurohormones. Thereafter, the following tests will be done:
(i). Measurement of insulin resistance will be assessed using empirical fasting insulin
resistance index (FIRI).For this test fasting blood glucose and insulin level will be
measured. Fasting insulin resistance index is consist of the product of plasma insulin and
glucose, FIRI= fasting glucose X fasting insulin / 25.
(ii). Anthropometric measurements (for measurement of fat mass and fat free mass). Body fat
can be measured by (height, weight, skin fold thickness, waist, and hip circumference).
Estimation of body fat in this study will be by skin fold thickness measurement or Holtain
skin fold caliper18. Measurement can use from 3 to 9 different standard anatomical sites
around the body. The right side is usually only measured, by pinching the skin at the
appropriate site to raise a double layer of skin and the underlying adipose tissue, but not
the muscle. The calipers are then applied 1 cm below and at right angles to the pinch, and a
reading taken 2 seconds later. The mean of two measurements should be taken. If the two
measurements differ greatly, a third should then be done, then the median value taken. In
this study the Holtain skin fold calliper will be used for measuring triceps skin fold until
their two exactly similar consecutive readings from each subject.
(iv). Endothelial function will be determined by reactive hyperaemia-peripheral arterial
tonometry [RH-PAT] RH-PAT is a non-invasive technique to assess peripheral microvascular
endothelial function by measuring changes in digital pulse volume during reactive hyperaemia
21-24. Bonetti and colleagues21 recently reported that it is reliable non-invasive tool to
identify individuals with coronary microvascular endothelial dysfunction digital. The device
(Itamar Medical Ltd., Caesarea, Israel) consists of two finger-mounted probes, which include
a system of inflatable latex air cushions within a rigid external case. The probe design
allows the application of a constant and evenly distributed near-diastolic counter pressure
within the entire probe, which increases sensitivity by unloading arterial wall tension, and
prevents venous blood pooling to avoid venoarteriolar reflex vasoconstriction. Pulsatile
volume changes of the fingertip are sensed by a pressure transducer and transferred to a
personal computer where the signal is band pass-filtered (0.3 to 30 Hz), amplified,
displayed, and stored.
The PAT studies will perform with the patient in the supine position and both hands on the
same level in a comfortable, thermoneutral environment. A blood pressure cuff will be placed
on one upper arm (study arm), while the contralateral arm serves as a control (control arm);
RH-PAT probes will be placed on one finger (finger II, III, or IV) of each hand (same finger
on both hands). The fingers on either side of the one with the probe will be separated using
soft sponge rings, and continuous recording of pulsatile blood volume responses from both
hands will be initiated. After a 10-min equilibration period, the blood pressure cuff on the
study arm will be inflated to 60 mm Hg above systolic pressure for 5 min. The cuff will then
be deflated to induce reactive hyperaemia, whereas PAT recording will be continued. Ten
minutes later, the patients will be given a single dose of nitroglycerin (NTG) (0.4 mg,
sublingual) to assess endothelium-independent PAT response.
The reactive hyperaemia-PAT data will be analyzed by a computer in an operator-independent
manner. As a measure of the extent of reactive hyperaemia, the reactive hyperaemia-PAT index
will be calculated as the ratio of the average amplitude of the PAT signal over a 1-min time
interval starting 1 min after cuff deflation divided by the average amplitude of the PAT
signal of a 3.5-min time period before cuff inflation (baseline); reactive -PAT index values
from the study arm will then normalized to the control arm to compensate for potential
systemic changes. Hyperaemic response to NTG will be assessed in a similar manner. At first,
average PAT signal amplitude of four consecutive 1-min periods starting at 5 min after
administration of sublingual NTG (5- to 6-min, 6- to 7-min, 7- to 8-min, and 8- to 9-min
interval) will be calculated; PAT response to NTG will then be calculated as the ratio of the
PAT amplitude of the 1-min interval during which peak average PAT signal was recorded divided
by the amplitude of the PAT signal at baseline (NTG-PAT index).
(v). Cardiopulmonary exercise testing will be determined by means of incremental cycle
ergometry. Expired gas analysis will be performed continuously throughout the test with the
Innocor System (Innocor, Denmark), which allows determination of VO2 and cardiac output.
Patients will perform a graded maximal bicycle exercise test. After 3 minutes of rest,
exercise will begin at a workload of 0 Watts and increase every 3 minutes by 25 Watts until
symptom limited maximum. Expired gas analysis will be performed continuously throughout the
test with the Innocor System (Innocor, Innovision A/S, Odense, Denmark) which allows
determination of VO2 and cardiac output. Peak oxygen uptake will be defined as the highest
value of oxygen uptake achieved in the final 20 seconds of exercise. In addition to oxygen
uptake [V02], carbon dioxide production [VC0 2], respiratory rate [RR], peak rate pressure
product [RPP] and total expiratory volume [VE] will be determined. Anaerobic threshold will
be determined from the nadir of the ventilatory equivalent for VO2. Cardiac output will be
determined by the inert gas rebreathing method (R), using N2o (blood soluble gas) and SF6
(blood insoluble gas), with concentrations, enriched with o2, of 0.5% and 0.1%, respectively.
Tidal volume will progressively increase in the closed circuit to match the physiologic
increase. Use of SF6 allows us to measure the volume of lungs, valve and rebreathing bag. N2o
concentration decreases during the rebreathing maneuver. Three to four respiratory cycles
will be needed to obtain N2o washout.
(vi). Neurohormones: Blood will be drawn for plasma noradrenaline, serum leptin, and
adiponectin and plasma cytokines. (a) The quantitative measurement of leptin25-28 in serum
performed by using a leptin enzyme immunoassay or ELISA kit29 (DRG Diagnostics, Marburg,
Germany), according to the manufacturer's instructions: Briefly, 100µl of diluted leptin
conjugate will dispensed into each well of the microtiter plate and incubate at room
temperature for 1 h. The contents of the wells will shake out and the wells rinse three times
with diluted wash solution. Into each appropriate well were dispensed 50µl of samples
(diluted 1:5) and standards at concentrations of 0, 0.8, 1.6, 3.1, 6.2, 12.5, and 25 ng/ml.
Fifty microliters of leptin antibody were then dispensed into the center of each well to
achieve complete mixing, and the plate will incubate overnight at 4°C in a humidity chamber.
The contents of the wells will shake out, the wells rinse thrice, and residual droplets will
be removed. One hundred microliters of diluted second antibody will dispense into each well
and incubate at room temperature for 1.5 h. The contents of the wells will shake out and the
wells will be washed three times. One hundred microliters of horseradish peroxidase enzyme
complex will dispense into each well and incubate at room temperature for 45 min. Removal and
washing of the wells will be repeated before 100µl of tetramethylbenzidine substrate solution
will be added and then incubated at room temperature for 20 min. The enzymatic reaction will
be terminated by adding 50µl of sulfuric acid stop solution into the center of each well, and
the absorbance at 450 nm will determined using an ELISA microtiter plate reader (Tecan,
Salzburg, Austria). A standard curve will construct by plotting a graph of the absorbance of
each reference standard against its corresponding concentration in nanograms per milliliter.
Using the corresponding absorbance to extrapolate the value from the standard curve and
multiplying this by the dilution factor of 5 will determine the leptin concentration of each
serum sample. (b) Adponetin30-33 levels will be measured by radioimmunoassay by Professor
Jill Belch's laboratory. (c) Plasma noradrenaline Blood samples from patients were
centrifuged at 4°C for 20 minutes, and the separated plasma will immediately frozen and
stored at -80°C until tested. Plasma noradrenaline (NA) will be measured by high performance
liquid chromatography using an electrochemical detector. It is a simplified, sensitive, and
reliable method for the determination of NA in plasma.(d) Cytokines: Tumor Necrosis Factor a
(TNF- a) ELISA kit will be used for measurement of TNF-a in serum by radioiimunoassay 34-36.
(vii). Physical activity questionnaire; in this study will use Kansas City Cardiomyopathy
Questionnaire (KCCQ).
(viii).Endothelial Cell and Blood Collection With use of a 0.021-inch-diameter, J-shaped wire
(Daig) inserted through an 18-gauge Angiocath (Becton Dickinson), endothelial cells will be
collected from a superficial forearm vein. The wire will transferred to dissociation buffer
(0.5% bovine serum albumin, 2 mmol/L EDTA, and 100 _g/mL heparin in phosphatebuffered saline)
at 4°C. Cells will be rinsed, fixed in 3.7% formaldehyde, transferred to slides, air dried,
and stored at _80°C. Plasma and serum will be separated by centrifugation and stored at
_80°C.
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