End Stage Renal Disease Clinical Trial
Official title:
The Effect of Far Infrared (FIR) Therapy on Access Flow of Arteriovenous (AV) Fistula, Echocardiographic Parameters and Endothelial Function in Patients With End Stage Renal Disease
Vascular access complications are the leading cause of morbidity in hemodialysis (HD)
patients, and are responsible for a significant percentage of hospitalization, with annual
costs approaching one billion dollars in the United States. Thrombosis is the most common
cause of vascular access failure, and usually develops from stenotic lesions in the venous
outflow tract. It has been reported that far infrared (FIR) therapy can improve access flow
and unassisted patency of AV fistula, however, the effect of FIR on cardiac function is
unknown.
The aims of this study are to evaluate (1) the change of access flow of AV fistula and the
effect of AV fistula on echocardiographic parameters and (2) the effect of FIR on access
flow of AVF and echocardiographic parameters and the serum levels of endothelial markers in
patients with end stage renal disease (ESRD) during the first 6 months after the creation of
AV fistula.
For patients with end stage renal disease receiving hemodialysis (HD) treatment, a
well-functioning vascular access is necessary for achieving adequate dialysis and improving
the quality of life. Among several types of vascular access, the long-term technical
survival is best for the native arteriovenous fistula (AVF), which accounts for more than
80% of vascular access in HD patients in Taiwan. Vascular access complications accounted for
about 20% of HD patient hospitalizations in the United States with a cost of $1 billion
annually (1). Malfunction of vascular access usually presents with inadequate blood flow
because of stenosis or thrombosis of the venous outflow tract (2). About 80 to 85% of AV
access failures arise from AV access thromboses, of which more than 80% result from AVF
stenoses (3). An access flow (Qa) less than 500 ml/min was associated with an increased risk
of access failure and predictive of poorer unassisted patency of native AVF (4). The
pathological features of stenosis of vascular access are composed of intimal hyperplasia;
proliferation of smooth muscle cells in the media with subsequent migration to intima, and
excessive accumulation of extracellular matrix (5). In spite of the above findings, little
information is available on how to effectively prevent the stenoses of vascular access in HD
patients.
Infrared radiation is an invisible electromagnetic wave with a longer wavelength than that
of the visible light. According to the difference in wavelength, infrared radiation can be
divided into three categories: near-infrared radiation (0.8-1.5μm), middle-infrared
radiation (1.5-5.6μm) and far-infrared (FIR) radiation (5.6-1000μm) (6). Infrared radiation
transfers energy that is perceived as heat by thermo- receptors in the surrounding skin (7).
The application of FIR radiation includes food preservation (8) and health promotion (9-10).
Animal studies also demonstrated that FIR improves skin blood flow(11-12), leading to the
use of FIR in the treatment of ischemic lesions and necrosis of skin tissue due to trauma,
diabetes mellitus and peripheral arterial occlusive disease. In addition, some studies
indicate that FIR therapy may improve endothelial function and reduce the frequency of some
cardiovascular diseases (13-15). The thermal effect of FIR results in vasodilatation and may
increase access flow of AV fistula. According to the report by Vaupel et al., the
temperature can be increased up to 4°C in 10 mm depth of tissue (16). In addition, infrared
therapy may allow multiple energy transfer as deep as 2-3 cm into subcutaneous tissue
without irritating or overheating the skin like unfiltered heat radiation (17). The skin
temperature steadily increased to a plateau around 38~39 °C during the treatment of FIR for
30 to 60 minutes as long as the distance between the ceramic plate and the skin was more
than 20 cm (11). Therefore, infrared therapy can be free of the disadvantages or side
effects (such as burn injury, infection, risk of access failure or prolonged bleeding from
the previous venopuncture site) of some traditional methods of thermal therapy.
In addition to the thermal effect, three possible non-thermal effects of infrared therapy
were reported in the literature, including (1) improving endothelial function, (2)
inhibiting intimal hyperplasia, and (3) decreasing oxidative stress. FIR may improve
endothelial function which is observed not only in animal studies (11,12,14) but also in one
clinical study (13). Yu et al. suggest that the beneficial effect of FIR therapy on skin
blood flow may be related to L-arginine/NO pathway (11). In this respect, Akasaki et al.
found that repeated FIR therapy could up-regulate eNOS expression and augment angiogenesis
in an apolipoprotein E-deficient mouse model of unilateral hind limb ischemia (12).
Moreover, Ikeda et al. reported that 4 weeks of sauna therapy significantly increased the
serum nitrate concentrations as well as the expression of mRNA and protein of eNOS in the
aortas of TO-2 hamsters (14). In addition, Imamura et al. showed that two weeks of repeated
sauna therapy significantly improved vascular endothelial function, resulting in an increase
in flow-mediated endothelium-dependent dilatation of the brachial artery from 4% to 5.8% in
patients with coronary risk factors (13).
In addition to enhancing eNOS expression, Kipshidze et al. found that nonablative infrared
laser (NIL) therapy inhibited neointimal hyperplasia after PTCA in cholesterol-fed rabbits
for up to 60 days (18). According to their report, the nonablative doses of NIL decreased
the growth of vascular smooth muscle cells (VSMC), but it did not decrease the growth rate
of endothelial cells. As the proliferation of VSMCs in the media is an important
pathological finding of the vascular wall of HD patients with vascular access stenosis (5),
slowing down the growth of VSMCs may reduce the frequency of access stenosis. According to
the report by Masuda et al. (19), the systolic blood pressure and the increased urinary
8-epi-prostaglandin F2α levels were significantly lower in the patients receiving an FIR dry
sauna for 45 minutes per day for two weeks. F2-isoprostanes, namely 8-epi-prostaglandin F2α,
are chemically stable products of lipid peroxidation and the level has been suggested as a
reliable marker of oxidative stress in vivo (20). These results suggest that repeated sauna
therapy may reduce oxidative stress, which leads to protection against the progression and
complications of atherosclerosis. Since HD patients are also exposed to heavy oxidative
stress from both inward uremic status and outward HD-related technology, the application of
FIR therapy may be considered as an alternative therapeutic modality for decreasing
oxidative stress.
Nakhoul et al. have shown a high incidence of unexplained pulmonary hypertension (PHT) in
end-stage renal disease (ESRD) patients on chronic haemodialysis (HD) therapy via
arterio-venous (A-V) access [21]. Pulmonary artery pressure (PAP) was evaluated using
Doppler echocardiography. Levels of ET-1 and NO metabolites in plasma were determined before
and after the HD procedure and were compared between subgroups of patients with and without
PHT. Out of 42 HD patients studied, 20 patients (48%) had higher PHT (PAP = 46+/-2 mmHg)
while the rest had a normal PAP (29+/-1 mmHg) (P<0.0001). In comparison with HD patients
without PHT, HD patients with PHT had higher cardiac output (6.0+/-1.2 vs 5.2+/-0.9 l/min,
P<0.034), similar plasma ET-1 levels (1.6+/-0.7 vs. 2.4+/-0.8 fmol/ml), lower basal plasma
levels of NO2 + NO3 (14.3+/-2.3 μM vs. 24.2+/-5.2μM, P<0.05), and a lower HD-induced
increase of plasma NO metabolites (from 14.3+/-2.3 to 39.9+/-11.4 microM, P<0.007 vs. from
24.2+/-5.2 to 77.1+/-9.6μM, P<0.0001, respectively). Temporary closure of the A-V access by
a sphygmomanometer in eight patients with PHT resulted in a transient decrease in CO (from
6.4+/-0.6 to 5.3+/- 0.5 l/min, P = 0.18) and systolic PAP (from 47.2+/-3.8 to 34.6+/-2.8
mmHg, P<0.028). In summary, their study demonstrated a high prevalence of PHT among patients
with ESRD on chronic HD via a surgical A-V fistula. In view of the vasodilatory and
antimitogenic properties of NO, it is possible that the attenuated basal and HD-induced NO
production in patients with PHT contributes to the increased pulmonary vascular tone.
Furthermore, the partial restoration of normal PAP and CO in HD patients that underwent
either temporal A-V shunt closure or successful transplantation indicates that excessive
pulmonary blood flow is involved in the pathogenesis of the disease.
Importance of this study:
AV fistula may impose a significant impact on cardiac function and echocardiographic
parameters. FIR has been demonstrated to increase access flow of AV fistula in prevalent HD
patients. However, its role on newly-created AV fistula is not known. This study will reveal
the effect of FIR therapy on echocardiographic parameters, access flow of AVF and
endothelial function in patients with end stage renal disease. If FIR therapy is associated
with beneficial hemodynamic effect in ESRD patients, it may be considered as a therapeutic
modality for improving endothelial function and cardiac performance in ESRD patients.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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