Diabetes Mellitus, Type 1 Clinical Trial
Official title:
Effects of Low Intensity Aerobic Exercise Training on the Microvascular Endothelial Function of Patients With Type 1 Diabetes: a Non-pharmacological Interventional Study
Background: The aim of the present study was to evaluate the changes in the microvascular
density and reactivity in patients with type 1 diabetes (T1D) resulting from low intensity
chronic exercise training.
Methods: This study included 22 (34 ± 7 years) consecutive outpatients with T1D and disease
duration > six years. We used intravital video-microscopy to measure the basal skin
capillary density as well as capillary recruitment using post-occlusive reactive hyperemia
(PORH) in the dorsum of the fingers. Endothelium-dependent and -independent vasodilation of
the skin microcirculation was evaluated in the forearm with a laser Doppler perfusion
monitoring (LDPM) system in combination with acetylcholine and sodium nitroprusside
iontophoresis, PORH and local thermal hyperemia.
Subjects The present study was performed in accordance with the Helsinki Declaration of
1975, as revised in 2000, and the Institutional Review Board of the University Hospital of
the State University of Rio de Janeiro, Brazil approved of this study. Once considered
eligible, all subjects read and signed an informed consent document that was approved by the
IRB.
Study subjects were recruited among patients who were followed up at a public hospital.
Twenty-two individuals with T1D diagnosed for more than 6 years, between 25 and 50 years of
age (mean 34 ± 7 years) were included in the study.
The initial clinical evaluation included the patient history and physical examination as
well as recording of the following anthropometric data: weight, height, waist circumference
and body mass index (BMI). Blood pressure measurements were collected with patients in the
supine position after 5 minutes in quiet surroundings; they were repeated twice with
two-minute intervals between measurements. All measurements were performed before and after
twelve weeks of physical training.
Blood sampling and laboratory tests On the morning scheduled for the evaluation of cutaneous
microcirculation, the patients presented in 12-hour fasted conditions for blood collection.
Smokers should not have smoked or ingested caffeine from the night before until the
completion of tests. The following variables were measured: fasting and postprandial plasma
glucose, total cholesterol, LDL and HDL cholesterol, triglycerides, transaminases,
high-sensitivity C-reactive protein, gamma-glutamyl transferase, creatine kinase, urea,
creatinine, albumin and uric acid by colorimetric reactions with using a Cobas Mira-machine
(Roche). Blood samples were collected before and after the physical training period. LDL
cholesterol was calculated using Friedewald's formula. Serum samples were kept frozen at
-80°C until measurement of the IL-6 levels with a commercial ELISA kit (Cayman Chemical
Company, Ann Arbor, MI, USA), according to the manufacturer's instructions.
Physical training The study participants followed an aerobic training protocol targeted at
low intensity and corresponding to 45% of the heart rate (HR) reserve [(HRmax - HRrest) x
45% + HRrest]. The exercise sessions were conducted 4 times per week for 12 weeks and
included alternating walking and running, in accordance with the patient's fitness level, so
that the heart rate reserve was between 40-50%. The heart rate was monitored using heart
rate monitors (Polar Electro Oy, Kempele, Finland). In the first four weeks of training,
there were additional increments of 10 minutes per session every week to promote gradual
progression in the volume of 30 to 60 minutes during the remaining eight weeks.
Capillaroscopy by intra-vital videomicroscopy The capillary density, defined as the number
of perfused capillaries per mm2 of skin area, was assessed by high-resolution intra-vital
color microscopy (Moritex, Cambridge, UK) using a video microscopy system with an
epi-illuminated fiber optic microscope containing a 100-W mercury vapor lamp light source
and an M200 objective with a final magnification of 200X. The dorsum of the non-dominant
middle phalanx was used for image acquisition, which occurred while the patient sat
comfortably in a constant temperature environment (23±1°C). Images were acquired and saved
for posterior off-line analysis using a semi-automatic integrated system (Microvision
Instruments, Evry, France). The mean capillary density was calculated as the arithmetic mean
of the number of visible (i.e., spontaneously perfused) capillaries in three contiguous
microscopic fields of 1 mm2 each. A blood pressure cuff was then applied to the patient's
arm and inflated to suprasystolic pressure (50 mm Hg above systolic arterial pressure) to
completely interrupt blood flow for three minutes (post-occlusive reactive hyperemia test,
PORH test). After cuff release, images were again acquired and recorded during the following
60-90 seconds, during which a maximal hyperemic response was expected to occur.
Microvascular reactivity to pharmacological stimulation The microvascular cutaneous
reactivity was studied by laser Doppler perfusion monitoring (LDPM), a method that has
previously been standardized and validated. Real-time variations in the cutaneous
microcirculatory flow were assessed through an LDPM system (wavelength 780 nm; Periflux
5001, Perimed AB, Järfälla, Sweden) attached to a pharmacological micro-iontophoresis system
(PeriIont, Perimed AB). The iontophoresis microelectrodes (PF 383, Perimed) were
incorporated into the head of the laser probe (PF 481-1, Perimed), and the probe temperature
was standardized to 32°C to avoid variations in the skin temperature and, consequently, in
the measurements of microvascular flow. The drug-delivery electrodes were filled with 200 µl
of 1% ACh solution (Sigma Chemical Co., USA) and placed on the ventral surface of the
forearm, away from visible subcutaneous veins and areas of skin pigmentation. Neutral
electrodes for current dispersion were placed 15 cm above the infusion electrodes, and
reference points were marked and annotated to ensure reproducibility during the second
examination, which took place at the end of the intervention period. After measuring the
baseline flow for 5 minutes, four equal cumulative doses of ACh (anodal current) were
applied at a constant intensity of 0.1 mA for 10, 20, 40 and 80 seconds, with total charges
of 1, 2, 4 and 8 millicoulombs, respectively, allowing for a 120-second interval between
doses. Recording of the microvascular flow induced by ACh was conducted for 10 minutes as
follows: 2 minutes for each dose and 2 minutes to allow the flow to reach a plateau after
the last dose. Using a new delivery electrode applied to a different location on the same
forearm, four doses of a solution of 1% sodium nitroprusside (SNP; Sigma Chemical CO, USA)
dissolved in distilled water were delivered using a cathodal current (same charges and
intervals as for ACh).
The laser Doppler output, which is semiquantitative, is expressed in arbitrary perfusion
units (PUs) of output voltage (1 PU = 10 mV) in accordance with general consensus (European
Laser Doppler Users Groups, London, 1992). An area under the flow response to the ACh curve
could be defined using the PeriSoft for Windows 2.5 software (Perimed, Järfälla, Sweden);
this area was quantitatively measured and expressed in PU/s.
Microvascular reactivity to physiologic stimulation After measuring the resting capillary
flow for 5 minutes using another laser probe (PF 457, Perimed) that had been positioned at
the start of the recording session, the PORH test was performed. Following release of the
pressure, the maximum flow and area under the PORH curve were measured. The mean value of
the resting flow was considered the basal flow value. When the microvascular flow returned
to the basal value after the PORH test (typically 5-10 minutes), the maximal skin
microvascular vasodilatation was investigated with prolonged (20 minutes) local heating of
the laser probe to 42°C. The baseline microvascular flux value was calculated as described
above.
Statistical analysis The values were expressed as the means ± standard error of the means
for the variables with a normal distribution and as median (percentiles 25th - 75th) for
variables with a non-parametric distribution, according to results of the Shapiro-Wilk
normality test. The data were analyzed by two-tailed paired t tests or the two-tailed
Wilcoxon signed-rank test, as appropriate. The null hypothesis was rejected at P<0.05.
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Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Prevention
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