Environmental Exposure Clinical Trial
Official title:
Metabolic and Vascular Response to Exercise in Sickle Cell Trait Carriers: Effect of Hot Environment
The heterozygous form of sickle cell disease is clinically asymptomatic. Nevertheless, it was
observed that, the sickle cell trait is associated with serious medical complications
especially during intense physical efforts. Moreover, the exposure to a hot environment
(tropical climate) is suspected to be a determining factor in the occurrence of these medical
complications.
However, the relationship between sickle cell trait and death during effort is not well
established. Furthermore, the cascade of events that usually cause sickle cell crisis such as
red blood cells sickling and rhabdomyolysis and which affect microcirculation are not known.
Our main objective in this study is to verify whether young healthy active men with sickle
cell trait have reactive hyperemia to their hemoglobinemic condition during exercise; to
identify the contribution of hot environment on these possible disturbances; and to determine
underlying mechanisms.
In addition, disturbances in the regulation of glucose metabolism in healthy subjects under
hot environment have been reported, marked by a significant increase in postprandial blood
glucose. Therefore, this project is also intended to assess the contribution of the
disturbance of glycoregulation during exercise under hot environment in active sickle cell
trait carriers. The imbalance of pro and anti oxidant agents, the adhesion and inflammation
markers will also be evaluated.
Results of this study will allow a better understanding of physio-pathological mechanisms
leading to vascular accidents during exercise under tropical climate in young healthy sickle
cell trait carriers; and to identify physical activity programs and nutritional interventions
adapted to patients with sickle cell disease under hot environment.
Introduction
The sickle cell disease is an inherited disorder characterized by abnormal hemoglobin called
hemoglobin S or sickle hemoglobin in red blood cells of subjects. The homozygous form
(hemoglobin SS) causes sickle cell anemia and is the most severe kind of sickle cell disease.
Hemoglobin SC disease and hemoglobin Sβ thalassemia are two other common forms of sickle cell
disease. The sickle cell trait carriers are person who inherited the hemoglobin S from one
parent and a normal hemoglobin A from the other (heterozygous AS). These people are generally
healthy. However, more and more cases of serious complications have been reported, especially
during efforts and stays at high altitude like hemorheological and microcirculatory
disturbances, and rhabdomyolysis. Increased percentage of red cell sicking was observed in
sickle cell trait (AS) carriers compared to normal individual after 45 min of walking at 33°C
of temperature. AS individuals also showed an impairment in red blood deformability at rest,
at the end, and 24 hours after maximal exercise as compared to normal individuals AA, showing
the vulnerability of red blood cells of these seemingly healthy subjects. The stiffness of
red blood cells along with blood viscosity also increased in AS group compared to AA group,
as consequence the risk of vascular accidents increases. In athletes and military
warfighters, an exercise collapse and sudden death associated with sickle cell trait has been
observed. Several cases of sudden death in AS individuals have been reported by many authors
during exercise, however the exact causes remain very poorly understood.
As constraints related to exercise in tropical climate, it was observed a reduction of power
and volemia due to dehydration, diversion of blood volume to the cutaneous territories. It
was also reported an impairment of carbohydrate metabolism.
Our objectives in this work are:
- To characterize the microvascular response to exercise in a hot environment in sickle
cell trait active young adults,
- To highlight biological mechanisms underlying any microvascular response specificities
of the sickle cell trait carriers,
- To describe the vascular consequences of postprandial metabolic disturbances induced by
exercise in hot environment,
- To understand fasting and post-prandial glucose metabolism at rest, during and after
exercise,
- To test the recovery in a neutral thermal environment (22 °C) as a means of normalizing
post-exercise vascular function.
Experimental protocol
Thirty male volunteers (15 healthy: AA and 15 sickle cell trait carriers: AS) non-smoking,
aged 18-30 years, BMI between 19 and 25kg/m2 living in the Caribbean for at least 6 months
will be enrolled in the study. All subjects will be in good health physically active (≥
3h/week) with no history of heat stroke during exercise. They are not taking any medications
and are not regularly consume alcohol.
Participants will be subjected to four experimental sessions:
1. A familiarization session at fasting in a warm environment (33 °C) in which resting
parameters like reactive hyperemia index, tympanic temperature, heart rate, cerebral and
muscular oxygenation, pulse wave velocity and electrocardiogram (ECG) will be measured.
Then a test of the intensity of exercise (VO2max) will be performed followed by a
medical interview.
The other 3 sessions will be performed early in the morning at fasting with 45 minutes
of exercise on ergocycle. The exercise includes 15 minutes of warm up, then participants
will be asked to pedal as fast as possible for 6 seconds. The test of 6 seconds will be
repeated twice or more with recovery each time. During exercise, hydration will be
controlled (2.5 ml water / kg every 15 minutes), oxygen consumption will be measured;
and microvascular function and blood samples taken at different times of experiment in
each session (T0, T60, T75, T90, T120). The design of this study is a crossover trial
divided into 3 sessions presented in randomized order:
2. Exercise performed in hot environment (33 °C) with recovery in the same environment.
3. Exercise and recovery performed in a control (thermoneutral) environment (22 °C)
4. Exercise performed in a hot environment (33 °C) with recovery in a thermoneutral
environment (22 °C).
At the end of each session, a standardized meal will be given to each participant.
This study will be conducted in accordance with the guidelines developed in the Declaration
of Helsinki, and all procedures were approved by the Committee for the Protection of Persons
East-III. Written informed consent will be obtained from all participants.
Biochemical procedures
Blood samples will be use for hemorheological tests (viscosity of blood, stiffness,
aggregability and sickling of red cells etc.) Dosage of creatine kinase (CK-MM, MB),
myoglobin and troponin will be performed to assess the degree of rhabdomyolysis and the
integrity of heart.
Glycemia and lactatemia will be determined using strips. Cortisol, insulin, adrenalin,
glucagon and lactate dehydrogenase (LDH) assays will be performed using appropriated kits.
Plasma inflammatory profile will be determined by measuring markers such as myeloperoxidase
(MPO), malondialdehyde (MDA), advanced oxidation protein products (AOPP), nitrotyrosin, and
endothelin-1 using appropriated kits.
Adhesion molecules such as VCAM-1, ICAM-1 and P-selectin will be measured using ELISA kit
from Diaclone or Eurobio.
The oxidative stress on red blood cells will be assessed by measuring glutathione ratio
GSSH/GSSG, superoxide dismutase (SOD), catalase, and glutathione peroxidase (GPx).
Statistical analysis Data will be expressed as means with their standard errors. Statistical
analyses will be performed with SPSS for MAC and p < 0·05 considered statistically
significant.
All the data will be analysed by using repeated-measures ANOVA followed by Post hoc
comparisons with the Student's paired t test. The tests of Kolmogorov-Smirnov, Newman Keuls
and Duncan will be applied as appropriate.
Expected outcomes
- Better understanding of physio-pathological mechanisms leading to severe vascular events
following physical exercise in tropical climate in healthy sickle cell carriers.
- Opening of tracks for identification of physical activity programs and nutritional
interventions adapted to sickle cell patients in hot environment.
- Understanding of mechanisms leading to disturbances of glucose metabolism under tropical
climate in AA and in AS subjects.
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