Metabolic Acidosis Clinical Trial
Official title:
A Prospective, Controlled, Randomized, Multicentric Study: Correction of Metabolic Acidosis With Use of Bicarbonate in Chronic Renal Insufficiency (CKD3b-4)
The investigators want to evaluate whether an original action based on the administration of
alkali (mainly sodium bicarbonate) is able to significantly modify renal death and to reduce
mortality due to cardiovascular events.
Methods: This is a proposal of Multicentric, prospective, cohort, randomized, open-label and
controlled study.
The investigators will Randomize 728 patients with Chronic Kidney Disease(CKD) stage 3b
(CKD-3b) and CKD stage 4: 364 of these patients will be included in the study group called
Bicarbonate Group (Bic), in which levels of bicarbonate should be kept > 24 mEq/l; the other
364 patients will included in the Usual Treatment Group (no-Bic).
Results: The aim of the Research Protocol is to demonstrate if that the optimal correction
of uremic acidosis (with administration of sodium bicarbonate or of any other alkalinizing
agent, e.g. sodium citrate) reduces renal and cardiovascular mortality.
Conclusions. In conclusion the Work Group of the Conservative Therapy for Chronic Renal
Insufficiency proposes this cohort, randomized, controlled, prospective, multicentric study
to evaluate the effects of correction of acidosis on the progression of the kidney disease
considered as renal death in End-Stage Renal Disease (ESRD) patients.
Rationale:
Chronic Kidney Disease (CKD) is associated with a high incidence of morbility and mortality.
In this regard, the National Health and Nutrition Examination Survey (NANHES) shows that 19%
of the uremic population presents metabolic acidosis (CKD stage 4). This high prevalence and
the low costs of the correction by bicarbonate pave the way for a potential and interesting
research activity.
In fact, a Cochrane Collaboration review reports that there is no evidence for correction of
acidosis by sodium bicarbonate in pre-End-Stage Renal Disease) (ESRD) patients, and
concludes that randomized controlled trials (RCTs) are necessary to evaluate the benefits
and harms of correcting metabolic acidosis in pre-ESRD patients.
During the same year, 2009, another RCT appears in the scientific literature showing that
the administration of sodium bicarbonate, and the consequent correction of acidosis, slows
the progression of CKD and improves the nutritional status in ESRD patients stages 4-5. This
study was randomized, prospective, open-label, monocentric, and was conducted on 134
patients.
It is well known that acidosis stimulates proteic catabolism, accelerates branched-chain
amino acid oxidation and reduces the synthesis of visceral proteins. The beneficial effects
of bicarbonate in experimental models in rats and the effects of correcting acidosis on the
nutritional status are also known.
Less information is available on the possibility that correcting acidosis in pre-ESRD
patients slows renal death and improves outcomes also in the future, on dialysis.
The above cited study of Brito and Ashurst highlights that bicarbonate supplementation (that
causes the blood value to increase from 20 to 22 mmol/L) slows the rate of progression of
CKD and betters the nutritional status of patients.
Moreover, very recently the author Menon has demonstrated that low levels of serum
bicarbonate increase the risk of outcomes, e.g. renal death and mortality.
Finally, an article recently published on Kidney International has put in evidence the
pathogenetic factors, e.g. endothelin and hyperaldosteronism, which were caused to worsen
renal function in rats by the presence of metabolic acidosis.
In response to this article, an editorial by the authors Sahni, Rosa and Batlle D. has been
published on the same issue of Kidney International with the following statement:
"There is increasing evidence that alkali therapy can retard progression of chronic kidney
disease (CKD). We summarize recent studies and discuss a mechanism whereby alkali therapy
may neutralize acid production associated with typical Western diets, which generate acid.
We emphasize the rationale for using alkali therapy early in the course of CKD, even in the
absence of overt metabolic acidosis, and we urge the pharmaceutical industry to develop
palatable alkali- containing solutions."
Proposal for the study For the reasons explained above, the Work Group of the Conservative
Therapy for Chronic Renal Insufficiency proposes this cohort, randomized, controlled,
prospective, multicentric study to evaluate the effects of correction of acidosis on the
progression of the kidney disease considered as renal death in ESRD patients.
Objectives:
Main objective:
1. To evaluate whether an original action based on the administration of alkali (mainly
sodium bicarbonate) is able to significantly modify progression of renal disease, and
renal death, and to reduce mortality due to cardiovascular events.
2. To verify if bicarbonate therapy modify progression of renal disease, and renal death,
and to reduce mortality due to cardiovascular events in APKD patients.
3. To verify if bicarbonate therapy modify progression of renal disease, and renal death,
and to reduce mortality due to cardiovascular events in dianetic patients.
Other objectives:
To evaluate if nutritional parameters improve during the period of study; To evaluate blood
pressure (as absolute value and as increase in antihypertensive drugs); To evaluate how the
correction of acidosis influences bone turnover (vascular calcifications); To evaluate
changes in calcium and phosphorus metabolism.
Study design Multicentric, prospective, cohort, randomized and controlled study.
Randomize 728 patients with CKD-3b and CKD-4: 364 of these patients will be included in the
study group called Bicarbonate Group (Bic), in which levels of bicarbonate should be kept >
24 mEq/l; the other 364 patients will included in the Usual Treatment Group (no-Bic).
Run-in period with one visit per month for 3 months, followed by a 36-month study period.
The investigated patients must be randomized by sex, diabetes and level of renal function
(measured Clearance of Creatinine between 60 and 30 ml/min, between 30 and 15, <15 on
pre-dialysis) and all the requirements for a Best Practice Treatment (BPT) must be applied:
- For anemia (Hb 11-12 g/dl; TSAT > 20 %),
- For arterial hypertension (systolic blood pressure (SBP) <130 mmHg; diastolic blood
pressure (DBP) < 90 mm g),
- For hyperlipidemia (low-density (LDL) cholesterol <100),
- For osteodystrophy (phosphatemia 2.7-4.6 mg/dl; calcemia 8.4-10.2 mg/dl; in CKD-3:
parathyroid hormone (PTH) 35-70 pg/ml; in CKD-4: PTH 70-110 pg/ml; 25(OH) vitamin D >
30 nmol/l).
(Failure to reach the BPT target will not cause exclusion as the centralized randomization
will probably be the reason for the enrollment of patients who have the same clinical
characteristics and the same treatments during the follow-up period).
Randomization will be centralized and patients will be randomized on the basis of sex, age,
diabetes, levels of renal function (measured).
All patients will be provided with a nutritional and diet counseling consisting of a low
protein, phosphorus and sodium diet.
Duration of the study:
3 years.
Primary endpoints
- Doubling of Creatinine
. Beginning of dialysis
- All-cause mortality
Study Power
To determine the sample size was used EAST software version 3.1 and considered the following
assumptions:
1. alfa 0.05;
2. power 0.90;
3. treatment/untreatment 1;
4. lost to follow-up 10 %;
5. Two-tailed statistical test with type I error of 5%.
6. Statistical power of the test equal to 80%.
Therefore, it was determined:
- Number of events required 194.
- Number of subjects needed 728
- Study duration 36 months.
Parameters measured every 3-6 months:
Bicarbonate levels blood albumin levels, fetuin-A, C-reactive protein blood levels of
sodium, potassium, bicarbonate, chloride, blood levels of homocysteine, lipid profile blood
levels of calcium, phosphorus, PTH, alkaline phosphatase, bone turnover markers blood levels
of creatinine, plasma urea, blood count 24h urinary urea excretion, 24h urinary sodium
excretion, 24h urinary protein excretion, 24 urinary creatinine excretion bioelectrical
impedance assessment (BIA), body weight, blood pressure, Lateral abdominal X-ray for
vascular calcification.
Use of anti-hypertensive drugs and diuretics.
Administration of bicarbonates:
The molecular weight of sodium bicarbonate is 84.01. Each gram of substance therefore
contains 11.9 mmol, so initially as much as 3-4 grams can be administered, subsequently it
has to be adjusted according to the blood level of bicarbonate.
Evaluations should be made on a bimonthly basis in order to adjust the administration of
bicarbonate according to blood levels of bicarbonate (target values >24 e <28 mEq/L).
Bicarbonate administration should be suspended if blood bicarbonate levels are > 28 mEq/L.
For ethical reasons, partial correction of acidosis is allowed (up to 22 mEq/L) for blood
bicarbonate levels lower than 18 mEq/L.
The aim of the study is to demonstrate that the optimal correction of uremic acidosis (with
administration of sodium bicarbonate or of any other alkalinizing agent, e.g. sodium
citrate) reduces renal and cardiovascular mortality.
Prerequisites of the study:
a) to expose the patient to low risks of unfavourable events, c) patients will be asked for
a little but constant effort with some modifications in their life style, d) costs should be
low for the family and for the institution where the patient is treated. No specific
equipment and competences are required, so that the study can be easily performed in any
Nephrology Division.
------------------------- Ethical aspects The physician will describe the study in detail
and will read all information regarding the study to the patient so that he/she will have
the opportunity to ask for any further clarification.
Thereafter, the patients will be provided with the Informed Consent, which he/she should
sign after reading it throughout (see attachments). Patient's data will be recorded,
processed and stored in complete accordance with the data protection laws, in order to
safeguard the safety and privacy of data; if included in publications and/or presented at
conferences, data will undergo a statical process and will be kept anonymous.
Statistics Methods of descriptive and distribution statistics together with parametric and
non-parametric tests will be applied. Linear correlation or the Spearman test will be used
to analyse the relationship between two variables considered simultaneously; the
relationship among more variables will be analysed with multiple regression (linear or
logistic).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Prevention
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