Diabetic Nephropathies Clinical Trial
Official title:
Low Energy Shockwave Therapy (LE-SWT): A Novel Treatment for Chronic Kidney Disease
The investigators aim to investigate whether low energy shockwave therapy (LE-SWT) can
preserve kidney function in diabetic patients. Participants in this study will receive LE-SWT
treatment 6 times over 3 weeks. The treatment is non-invasive and has no known side effects.
Previous studies have shown that LE-SWT induces angiogenesis. The investigators hypothesize
that chromium-ethylenediaminetetraacetic acid (EDTA) renal clearance remains stable or
increases in treated patients. Furthermore, kidney biopsy should show no signs of damage to
the tissue and possibly neo-vascularization. In this project, the investigators shall also
investigate LE-SWT effect on urinary markers of tubular damage and urinary nitric oxide
indices. Patients' self-reported quality of life will be assessed using Short Form 36 version
2 (SF-36v2) Health Survey.
There is an 18-months follow-up on patients. Only patients between 18-65 years old with
moderate chronic kidney failure from diabetes will be included.
This project is an interventional prospective study. 30 patients with moderate kidney failure
will be recruited from the Department of Endocrinology, Odense University Hospital, Denmark.
LE-SWT treatment will be performed in the ambulatory of Department of Urology. Patients will
be hospitalized for 1 day in the Department of Nephrology when kidney biopsy is taken (two
times in study period).
1.0 Background
1.1 Definitions of chronic kidney disease
The Kidney Disease Outcomes Quality Initiative (K/DOQI) of the National Kidney Foundation
(NKF) defines chronic kidney disease as either kidney damage or a decreased glomerular
filtration rate (GFR) of less than 60 mL/min/1.73m2 for 3 or more months.
Whatever the underlying etiology, the destruction of renal mass with irreversible sclerosis
and loss of nephrons leads to a progressive decline in GFR. The different stages of chronic
kidney disease form a continuum in time. In 2002, K/DOQI published its classification of the
stages of chronic kidney disease (CKD), as follows:
Stage 1: Kidney damage with normal or increased GFR (>90 mL/min/1.73 m2)
Stage 2: Mild reduction in GFR (60-89 mL/min/1.73 m2)
Stage 3: Moderate reduction in GFR (30-59 mL/min/1.73 m2)
Stage 4: Severe reduction in GFR (15-29 mL/min/1.73 m2)
Stage 5: Kidney failure (GFR<15 mL/min/1.73 m2)
1.2 Epidemiology
There is a rising incidence and prevalence of kidney failure with poor outcomes and high
costs. The Third National Health and Examination Survey (NHANES III) estimated that the
prevalence of chronic kidney disease in adults in the United States was 11% (19.2 million).
The prevalence of chronic kidney disease stages 1-4 increased from 10% in 1988-1994 to 13.1%
in 1999-2004. This increase is partially explained by the increase in the prevalence of
diabetes and hypertension, the two most common causes of chronic kidney disease. Data from
the United States Renal Data System (USRDS) show that the prevalence of chronic renal failure
increased 104% between the years 1990-2001 and incidence rates have risen 30 % between 1992
and 2008.
Diabetic nephropathy is one of the most devastating complications of diabetes. It remains the
leading cause of end stage renal disease (ESRD), accounting for 44% of ESRD incident cases in
the United States.
1.3 Etiology
The single most important factor responsible for the increasing incidence of CKD is diabetes
mellitus. Renal affection includes albuminuria, hypertension and a decline in kidney
function. Blood pressure control, which is difficult to achieve in diabetics, is mandatory
for long term prognosis.
1.4 Prognosis
Many patients with chronic kidney disease might progress to ESRD. The rate of the progression
depends on the underlying diagnosis, on the successful implementation of secondary preventive
measures and on the individual patient.
At every age, patients with ESRD on dialysis have significantly increased morbidity and
mortality when compared with non-dialysis patients and individuals without kidney disease.
1.5 Treatment
The medical care of patients with chronic kidney disease usually focus on the following:
- Delaying or halting the progression of chronic kidney disease
- Treating the pathologic manifestations of chronic kidney disease
However, no treatments are available to reverse the effects of CKD.
2.0 Aim
The aim of this study is to demonstrate that Low Energy Shockwave Treatment improves or
stabilizes renal function in diabetic patients - thereby potentially reducing patients'
morbidity and mortality.
3.0 Hypothesis
The investigators hypothesize that Low Energy Shockwave Therapy (LE-SWT) performed on
diabetic patients' kidneys with the MODULITH SLX-F2 lithotripter:
1. Increases glomerular function measured by chromium-EDTA clearance at 3, 6, and 18 months
post treatment.
2. Stimulates Nitric Oxide (NO) release measured as increased levels of NO metabolites,
nitrate and nitrite, and cyclic Guanosine Monophosphate (cGMP) in patients' spot urine.
3. Does not cause increased urinary levels of markers for tubular and glomerular damage,
i.e. Neutrophil Gelatinase-Associated Lipocalin (NGAL) and albumin.
4. Induces angiogenesis and prevents fibrosis in kidney tissue as shown by kidney biopsy
histology. Furthermore, LE-SWT protects from destruction of the glomerular basal lamina
as revealed on electron microscopy.
5. Improves self-reported quality of life measured by using the Short Form 36 version 2
(SF-36v2) health survey.
6. Causes no clinical side effects
The investigators test the hypothesis in an interventional study where 30 diabetic patients
with moderate chronic kidney failure are to be treated with 6 sessions of LE-SWT on kidneys
over 3 weeks.
4.0 LE-SWT treatment
Lithotripter: Treatment is carried out using the MODULITH SLX-F2 with B+W or Colour Doppler
Ultrasound System.
The patient lies on supine position during treatment, no need for analgesia as the energy
level of the treatment is very low. Kidney will be localised in line ultrasound (no x-ray
exposure).
3000 shocks at a frequency of 4 Hz are applied to each kidney, per session. The kidney will
be divided into three treatment areas including 1000 shock waves applied to each treatment
area. Patients will receive 2 sessions per week for 3 weeks. Shock wave therapy takes
approximately 15 minutes for each kidney. Total treatment time per session is approximately
40 minutes (including 10 minutes for preparation and ultrasound localisation).
5.0 Ethical considerations
The investigators do not expect there will be any significant ethical problems with this
study. Treatment with extracorporeal shockwave lithotripsy (ESWL) for kidney stones, using 10
times the energy, has been used for more than 25 years worldwide. No kidney damage has been
reported after these treatments except for a hematoma if the patient was given anticoagulant
treatment. Participants will be closely monitored clinically including blood and urine tests.
Blood pressure will be measured after each treatment and at the specified time schedules.
Studies are planned, including chromium-EDTA clearance measurement, renography, and a kidney
biopsy. The renal biopsy is done at the Department of Nephrology, Odense University Hospital,
and will be performed after the department's approved instructions and, besides the risk of
bleeding, is not associated with any greater risk.
Chromium-EDTA clearance is associated with a minor radiation dose. The injected tracer
contains a small amount of radioactivity, which results in a radiation dose equivalent to the
absorption of a standard X-ray of the lungs. According to the Health Board regulation
directives, this corresponds to 0.1 mSv, or what is equal to 1/10 of background radiation.
The background radiation is the radiation dose man receives annually from the environment
(for example space, earth, air, drinking water and food).
Renography is also associated with a minor radiation dose. Radioactive dose is 0.7
millisievert (mSv). Load is decreased when radioactive agent is excreted in urine.
Patients have no immediate benefits of participation apart from a possible improvement of
their renal function. Patients are informed both orally and in writing.
6.0 Informed consent and patient rights
Before inclusion into the project, the patient should provide written consent to participate
in this clinical project after he/she has been informed both orally and in writing in a
comprehensive way on the experimental important details, risks and drawbacks. The patient is
also given the patient information and a copy of the signed consent form and an individual
schedule for the project. Potential participants are recommended to have a third party
present during the information process. They are advised that they are entitled to
consideration before a final decision is taken and that the consent at any time can be
withdrawn.
The patient must consent in writing. The given written and oral information and the patient's
consent are confirmed by the principal investigator Sune Møller Jeppesen and patient
single-handed dated signatures.
Investigator shall not undertake any study specifically required only for this clinical
project before obtaining valid informed consent.
The patients' names will be kept secret. Patients will be identified for assessment and
documentation of the patient number allocated to them at the start. Patients are informed of
confidentiality and patient rights through participation information.
The signed informed consent forms remain with the investigator. The investigator is required
to have these forms inspect on request. The investigator will keep a list containing the
patients' numbers and names so that their records - if desired - could be provided at a later
date. Both consent forms and the list of patient numbers must be kept for 10 years.
7.0 Perspectives of the study
The perspective of this study is to show that LE-SWT is a harmless treatment for CKD that
will improve the degree of nephropathy. LE-SWT is a non-invasive and non-painful treatment
and procedure is easy to perform. Currently, no treatment is available to reverse the effects
of diabetic CKD and only long-term medical intervention may halt progression of the disease.
Considering morbidity and mortality of affected diabetic patients and health care costs of
CKD, there is a demand to explore new therapies for CKD. Given the simplicity of LE-SWT, the
investigators believe there is a potential that treatment could be cost effective even for
modest results although such analysis is beyond the scope of this study.
8.0 Publication policy
Results from this project are intended published in international and national medical
journals. Principal investigator Sune Møller Jeppesen will be first author and Professor Lars
Lund last author on the articles. Other participants will rank according to international
guidelines.
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