Agarwal continues his streak of important studies on blood pressure in dialysis patients. This study shows that reducing the dry weight results in reductions in ambulatory blood pressures done between dialysis sessions. Agarwal had previously demonstrated that in-center blood pressure readings poorly correlated with ambulatory blood pressure. One of the key findings was that the systolic fell twice as much as the dialtolic blood pressure. This means they did not only reduce the blood pressure but they also reduced the pulse pressure, something which we really are unable to do with antihypertensive drug therapy (which reduces both the systolic and diastolic blod pressure and have little affect on the pulse pressure).
eGFR: the problem of false positives
Last week I saw a 58 year old African American woman who was referred to me for an eGFR (i.e. MDRD equation) of 58. Her insurance company notified her primary care doctor about this decreased GFR. I saw the letter that Blue Cross sent and it did not give the physician any guidance on what to do with this information. The insurance company just wanted to make sure the physician was aware that the patient was flagged as having CKD. The primary care doctor sent her to me for further evaluation.
The patient, however, was completely freaked out. She went on the internet and started to learn about kidney disease and to her horror found (correctly) that her lisinopril and simvastatin could cause kidney disease. Since both of these medications had been started in the last few years she suspected (wrongly) that they were the cause of her kidney disease and stoppd both of them.
Her GFRs for three years before referral had been: 65, 63, 65 and 58. When I repeated her GFR it was 62.
This is a classic case of what Dr. Harold Feldman was writing about in the Feburary CJASN (PDF). Here is a patient who stopped the two most important drugs for her future health (statin, ACEi) because of a false positive eGFR.
This article uses a Markov chain Monte Carlo method to simulate use of serum Cr or serum Cr plus eGFR for CKD screening. The model they used is illustrated below:
In the model patients gets screened once a year (a cycle) from age 60 to 78. There are 6 states patients must be assigned to:
- No kidney disease (CKD stage 0)
- No kidney disease but false positive screening test (my patient)
- CKD, diagnosed
- CKD undiagnosed (false negative screening test)
- ESRD
- Death
In each cycle every patient must be assigned to a state. Dead patients must remain dead, ESRD patients can remain ESRD or die. Patients must develop CKD (state 3 or 4) at least one cycle prior to progressing to ESRD. Patients in any living state can die. Patients with CKD (state 3 or 4) can not tranition to no CKD (state 1 or 2). And according to the text but not the figure, patients without kidney disease but false positive screening (state 2) would go back to state 1 for the next cycle.
Some assumptions in the calculation:
- Incidence of CKD 0.7% until age 65 then 2.3%
- Mortality without CKD 0.97% from age 60 to 70, then 2.4% after age 70
- Mortality with CKD 0.050% (why this would be half the rate of non-CKD makes no sense)
- Mortality with ESRD age 62-67: 15%; 67-75: 19%; and 75+: 26%
- Annual rate of progressing from CKD to ESRD 0.076%
- Treatment of CKD had no effect on mortality
- Treatment of CKD reduced the annual rate of progression to ESRD by 21% (from 0.076% to 0.055%)
- Sensitivity of eGFR: 0.924
- Specificity of eGFR: 0.835
- Sensitivity of serum Cr: 0.559
- Specificity of serum Cr: 0.950
The model used the following evaluation of CKD
- Two clinic visits with a nephrologist
- Limited renal ultrasound
- Renal function panel
- U/A, urine protein, urine creatinine
The costs for the different states are outlined in the table below:
In the initial analysis eGFR was more accurate and more cost-effective than the serum Cr. Use of eGFR kept patients off dialysis (29 patients) and reduced deaths (13 patients) at the expence of an ocean of false positives:
But when you assigned a false positive CKD a slightly lower quality of life than a true negative, 0.98 versus 1.0, the serum creatinine came out more cost effective per quality adjusted life year (QALY).
Summary: the better test (as measured by the area under the curve of a receiver operator characteristics curve) loses to the worse test because of the decreased quality of life that results from a false positive reading. The false positives were so much more prevelant that they overwelmed the benefit from the decrease in death and ESRD found with the more accurate eGFR test.
This study has received tremendous publicity, likely because noone had looked at eGFR in this way before and it had a contrarian view. While the whole nephrology community has been pushing for routine eGFR reporting along with creatinine, Feldman comes and publishes a scathing indictment. Additionally, it makes good copy to say that nephrologists developed a new way to measure renal function that dramatically increases the demand for nephrology services.
My primary concearn with this study is two fold:
- The eGFR equation is used as a screening test in this study and in real- life. Screening tests need to be as sensitive as possible even at the expense of specificity. The thought is that the increased false positives will be picked up with secondary testing. But a screening test never wants to give patients a clean bill of health when in actuality they have smoldering unrecognized disease. In Feldman’s analysis the eGFR works perfectly as a screening test by picking up nearly all of the patients with CKD but the decreased specificity results in numerous false positives. It is interesting that it is not the cost of evaluating the false positives that results in the cost ineffectiveness of eGFR but it is the decreased quality of life that results from the anxiety associated with the initially positive diagnosis of CKD. In my mind this means we need to do a better job educating patients and providers to the nature of the eGFR test.
- The other problem with the study is it threatens to throw out the baby with the bath water. Even if the study does show that eGFR is not cost effective, part of the problem is that the only utility given to the eGFR is in the early diagnosis of CKD to prevent ESRD. However, I more often use the eGFR to dose adjust medications, to estimate the risk of contrast nephropathy, guide the use of loop versus thiazide diuretics. All of these uses of the eGFR cannot be replaced by a serum creatinine because the serum creatinine does not account for age, gender and race.
False positive diagnosis of CKD by the eGFR are real problems and Dr. Feldman has done the nephrology community a favor by bringing this issue to light. It would be interesting for Feldman to re-run his Monte Carlo simulation with various definitions of CKD, does an eGFR of 50 ml/min reduce the false positives enough to reduce the cost below the benefits? What about 45 ml/min (sometimes called CKD 3b)? It is important for a dialog to be initiated among primary care doctors, nephrologists and payers to come up with better definitions of CKD that don’t freak our patients unnecessarily while providing the best care we can.
Lead time bias
As I go through the literature on early nephrology referral, I am troubled by the possibility of lead time bias. This was a large issue in the debate surrounding the optimal time to initiate dialysis. The problem comes from measuring survival from the initiation of dialysis.
Patients with good nephrologic care regularly get started on dialysis earlier than their counterparts with poor or non-existent CKD care. This is evidenced by the lower creatinines at the time of initiation of dialysis in patients with early referral seen in multiple studies.
This is consistent with my practice where I tell my patients that we “…want to delay dialysis as long as possible, but not longer than possible…” because if they have profound malnutrition or advanced heart disease due to the delay of dialysis they will do poorly once they transition to dialysis.
Because of this skew in the initiation of dialysis it is important to account for that in any analysis of survival on dialysis. I hope this short slide show makes this clear.
Note: I do not know if lead time bias is responsible for the prolonged survival with early referral to nephrology I just know that it needs to be accounted for and most literature ignores this potential source of error.
Comment on the latest MDRD article and the state of clinical nephro research
Last Thursday in journal club we reviewed the latest data on protein restriction and progression of CKD.
The best summery of the results are provided at the end of the paper:
…a very low-protein diet increased the risk of death in long-term follow-up of the MDRD Study, but had no impact on delaying the progression to kidney failure…
Imagine that the primary results had been different. Imagine for a moment that the MDRD study, rather than being one of the first of the large, NIH-sponsored, negative clinical trials in nephrology, was instead a great success. Imagine that the very-low-protein diets resulted in a delay of dialysis of 20% compared to a low protein diet and that a low-protein diet resulted in a 25% delay in progression compared to a normal-protein diet. Imagine a universe where protein restriction is the ACE inhibitors of our universe.
Now imagine if this most recent analysis came out in that universe. The above quote in this imagined universe would read something like:
…a very low-protein diet increased the risk of death in long-term follow-up of the MDRD Study, despite successfully delaying the progression to kidney failure…
How would we as a nephrology community come to terms with the fact that our primary intervention that we were advocating in a thousand CKD clinics across the land, was actually killing our patients after they start dialysis. Imagine the hand wringing as we start to realize that we were able to delay dialysis from 12 months to 18 months but at the cost of a doubling of their first year mortality from 22% to 40%.
I would be horrified and stop advocating it in my clinic but lots of my patients would adopt the low protein strategy, essentially play the lottery that this radical change in diet would allow them to escape their fate.
We as the nephrology community need to demand better research. This study stands alone (nearly? or completely?) by looking at a pre-dialysis intervention but measuring the outcome in dialysis. This study goes over the wall separating chronic kidney disease research from dialysis research. We need a name for this x-ray vision of looking through the artificial barrier between CKD and dialysis. I propose transitional research.
We need to demand that our CKD research does this. This distinction is less important when looking at CKD 3 where only 1% go on to dialysis; but when looking at CKD4 patients we need to know how that intervention affects dialysis survival. In CKD 4, 18% of patients will end up on dialysis in 5 years. (D. Keith’s data, PDF)
Which of today’s avant garde treatment of CKD results in a doubling of dialysis mortality?
- Use of active vitamin D to treat secondary hyperparathyroidism
- Treatment of anemia with ESAs
- Use of phos binders, calcium based or otherwise
- Bariatric surgery
- Aggressive control of blood sugar
None of these “standard” therapies has been examined with an eye on total mortality before and after initiation of dialysis. We need the definitive studies so at some time in the future we don’t have to tell a patient’s family that the pills we have been prescribing may actually have caused the stroke or heart attack or cancer or…
Monday was the highest traffic day on this site. Ever.
My post on Everything I learned in fellowship is wrong was featured on the home page of renalWEB.
It feels weird that my post was listed at the top under “News Headlines.” The ATN article came out in July and I just got around to writing about it six months later. I wrote it so that when I discuss the findings on rounds, I have a way to quickly find an abstract of the study with my personal observations. And I will discuss it with the fellows because even though the study was a negative study it is a benchmark study in nephrology. The article is a negative study but it is negative in the way that HEMO was negative, not the way that DCOR was.
- HEMO is usually listed as a disappointing study because we were not able to help patients by ratcheting up their dose of dialysis from 1.16 to 1.53 (eKt/V).
But as Glen Chertow argued persuasively, the HEMO trial was a triumph of evidence based medicine. We were able to definitively argue against the desire to incrementally enhance three-times a week day-time dialysis. The increasing evidence for daily and in-center nocturnal dialysis are by-products of the failure of HEMO. If HEMO had been a positive trial we would probably be focusing on a HEMO II with a targetted eKt/V of 1.8. The negative result has sparked innovation and a search for novel ideas.
- DCOR on the other hand has almost nothing definitive to show despite being “the largest outcomes study ever done in the hemodialysis population.” The failure of DCOR can be attributed to a low event rate, a high but undefined cross-over rate and a 50% drop-out rate. All of these conspired to produce an under-powered study and clinicians are left in a sea of phosphorous binder marketing without near term hope for better guidance.
So the negative finding of the ATN group advances the science of nephrology, removes an important question and will allow us to move on to new strategies to help patients with acute kidney injury.
A final note to the editor of RenalWEB, my bullet on the dose of dialysis referred to the HEMO trial, which did not look at frequency of dialysis or radical increases in dose. The jury is still out on those techniques but I’m with you. Those two strategies seem right and beneficial.
The Jounal Delivers a Bumper Crop of Melamine Articles.
The primary article is an analysis of 589 children by Na Guan
Methods
All of the children’s parents were given a survey to establish demographic data and judge exposure. The investigators questioned parents on the brand and amount of formula ingested and matched it up to government data on the amount of melamine in each brand. Children were then put through varying degrees of biochemical and ultrasound testing.
All the children were under 36 months of age, the population most at risk of melamine stones.
- High melamine (over 500 ppm)
- Moderate melamine (less than 150 pm)
- No-melamine.
- Definite stones
- Suspected stones (increased sporadic, punctiform echogenicity in the kidneys or pyelocalyceal system)
- No stones
Microalbuminuria was found in more of the children with stones (10%) or suspected of having stones (13.6%) compared to the stone free children (5.6%). Symptoms were not helpful in distinguishing stone formers from the stone free.
Fifty-six children had serum creatinine checked (22 with stones, 21 with suspected stones and 13 without). All of the creatinines were normal.
Interestingly 62 of 404 children had a calcium to creatinine ratio that exceeded age based targets. The 15% rate of hypercalciuria was not associated with stone risk in this study (p=0.34).
In multivariate analysis exposure to high-melamine milk (7x as likely) and pre-term birth (4.5x as likely) were significantly associated with stone formation.
The primary conclusion is that the physical and biochemical lab add nothiong to the evaluation of melamine stones. The birth history and the melamine exposure assessment are critical but need to be followed up by an ultra-sound.
The authors note that only 23 of 121 children exposed to high-melamine formula developed stones
What’s going on with diabetes
VADT is yet another negative trial showing a lack of benefit from controlling blood sugars.
That makes three negative trials in the last 12 months.
- ADVANCE trial: 11,140 people randomized to gliclazide in order to lower the A1c to 6.5, the control group achieved 7.3%. This lowered combined micro- and macrovascular complications by 10% 18.1% vs 20% after a median of 5 yrs (p=0.01). However the difference was entirely driven by a 21% reduction in nephropathy, with no reduction in retinopathy, macrovascular complications or reduction in CV death or death from any cause.
- ACCORD Trial: 10,251 people randomized to usual care (A1c 7.0-7.9) or intensive care (A1c under 6%). There was no difference in the primary composite outcome of non-fatal heart attack and strokes and CV mortality. Unfortunately there was a significant increase in total mortality (p=0.04) with high mortality in the intensive therapy group.
All three of these trials were looking to prove that better glycemic control could reduce strokes and heart attacks. We have known since the early nineties that good glycemic control prevents or delays microvascualr complications (kidney disease, blindness, neuropathy) but the data on cardiovascular disease was lacking. This is important because relatively few diabetics develop ESRD and most patients die of heart disease, a macrovascular complication. For example in type 1 diabetics the 20 year risk of developing ESRD is only 2.2%, while the risk of death is four times that at around 10%.
Unfortunately, this looks like a bust. Not one of the trials have shown any sign that improved glycemic control translates into reduced heart attacks or strokes.
Here is a powerpoint lecture on DM I gave a year ago. SlideShare kind of butchers the formatting so if you are really interested download it rather than whatch in the online viewer.
Renal Revascularization: The Astral Trial
One of the important studies released at Renal Week 2008 was the ASTRAL Trial (Angioplasty and STent for Renal Artery Lesions). This is the largest trial ever done on renal angioplasty. This seems like one my constant battles with cardiologists. I get a consult a month regarding whether patients should get a renal agioplasty done. I am almost always fighting against this based on prior information which showed marginal improvements in blood pressure control with the therapy and no change in the level of kidney function. However this data was questionable due to a high cross-over rate (i.e. 22 of the 28 patients initially randomized to drug therapy alone underwent angioplasty after 3 months).
This shows that the 806 patients randomized to ASTRAL dwarves all of the previous work on the subject. (source)
ASTRAL was billed as the definitive study to determine if angioplasty and stent preserved renal function, improved blood pressure, prevented hospitalizations, or reduced CV mortality. Patients were followed for 27 months. The enrolled cohort is representative of that are typical candidates for renal revascularization. Here are the graphs from the Investigator Newsletter:
GFR
The bulk of patients had moderately severe renal disease. It is important that they did not select patients too late in the disease where revascularization may be too late to save the kidney. Similarly you wouldn’t wat to intervene too early where the splay between the groups may take longer than 27 months to materialize.
The average GFR was 40 mL/min.
Of note: if you just looked at patients with an initial GFR<25, size="4">Length
The fact that the affected kidney size was pretty good goes against the potential criticism that they were revascularizing too late after permanent infarction and scarring has ocured.
Stenosis
Most of the patients had severe stenosis, a high grade that if found during a diagnostic angiogram would be followed by an intervention.
- 93% of interventions included use of a stent.
- The mean stenosis was 76%
Results:
At follow-up, no difference in creatinine, blood pressure, time to first renal event, or mortality (p = ns for all outcomes)
The authors emphasized that there was no benefit for the entire cohort but they feel that the therapy is likely helpful for some subset of the population. I agree, like every nephrologist, I have seen patients have dramatic improvements in renal function following angioplasty for RAS. With the immense ASTRAL database it will be exciting to see if the authors can tease out which subgroups benefit from this technology.
Despite having seen multiple patients benefit from renal artery angioplasty I have remained a skeptic of the technology. Part of this comes from the older flawed and small trials and partly due to the ineffectiveness of cardiac angioplasty to help patients except in regards to reducing angina (a condition that doesn’t have a renal analog) or in patients having an active infarct.
Kidney Stones and Chronic Kidney Disease
One of the biggest stories coming out of Renal Week 2008 was this abstract which linked kidney stones to the development of CKD. This is an important study but I filed it under “no duh.” Patients with kidney stones tend to be heavier, have more hypertension, get episodes of acute renal failure and have repeated instrumentation on the kidneys. They also have gout, and associated hyperuricemia, an increasingly important progression factor for CKD and hypertension.
The most important aspect of this is the question that was left unanswered: do kidney stones cause CKD. The association makes sence but causality would be much more important because we have good tools to prevent kidney stones and it would be wonderful if by preventing kidney stones we could also be preventing future kidney failure.
Hopefully this question will be answered in the near future.
[F-FC202] Kidney Stones Are Associated with an Increased Risk of Developing Chronic Kidney Disease
Andrew Rule, Eric Bergstralh, L. Joseph Melton, Xujian Li, Amy Weaver, John Lieske Nephrology, Mayo Clinic; Health Sciences Research, Mayo Clinic
Background: Kidney stones lead to chronic kidney disease (CKD) in patients with rare genetic diseases (e.g., primary hyperoxaluria), but it is less clear if kidney stones are an important risk factor for CKD in the general population.
Methods: A cohort of all Olmsted County, MN residents with incident kidney stones in the years 1984-2003 were matched 3:1 to controls in the general population based on index date (first stone diagnosis for stone formers and any clinic visit for controls), age, and sex. Diagnostic codes (yrs: 1935-2007) and serum creatinine levels (yrs: 1983-2006) were captured with the linkage infrastructure of the Rochester Epidemiology Project. Risk of incident chronic kidney disease was assessed using clinical diagnostic codes, end-stage renal disease (dialysis, transplant or death with CKD), sustained (>90 days) elevated serum creatinine (>1.3 mg/dl in men, >1.1 mg/dl in women), and sustained estimated glomerular filtration rate (eGFR) < 60 ml/min/1.73 m2. Proportional hazards models adjusted for age, sex, and baseline and time-dependent co-morbidities (diabetes, obesity, gout, hypertension, hyperlipidemia, alcohol, tobacco, coronary artery disease, heart failure, cerebral infarct, and peripheral vascular disease).
Results: After excluding persons with prevalent CKD, 4424 stone formers and 10995 controls were identified with a mean follow-up of 8.4 and 8.8 years, respectively. Stone formers had an increased risk of developing a clinical diagnosis of CKD [hazard ratio (HR)=1.6, 95% CI: 1.4-1.8, see figure], end-stage renal disease (HR=1.4, 95% CI: 0.9-2.2), a sustained elevated serum creatinine (HR = 1.4, 95% CI: 1.2-1.7), and a sustained reduced eGFR (HR = 1.4, 95% CI: 1.2-1.6).
Conclusions: These data argue kidney stones to be an important risk factor for chronic kidney disease.
The fall of cholesterol
The cholesterol theory of heart disease has been getting knocked around a bit these days.
Just writing that sentence feels rebelous. To call cholesterol’s causative link with heart disease a theory seems blasphemous. I started thinking about this when I looked over some summaries of the Jupiter data.
The results of the JUPITER trial indicate that rosuvastatin is associated with a significant reduction in major cardiovascular events, including death, in apparently healthy persons with LDL cholesterol less than 130. The reduction in risk was roughly twice as high as one would predict from the reduction in the LDL:
Moreover, the results were quite different from those of trials that recruited on the basis of elevated LDL.
Those trials “generally reported a 20% reduction in vascular risk for each 1 mmol/L (38.7 mg/dL) absolute reduction in the LDL cholesterol level, an effect that would have predicted a proportional reduction in the number of events in our study of approximately 25%,” the investigators wrote.
“However, the reduction in the hazard seen in our trial, in which enrollment was based on elevated high-sensitivity C-reactive protein levels rather than on elevated LDL cholesterol levels, was almost twice this magnitude and revealed a greater relative benefit than that found in most previous statin trials,” they added.
This mismatch with reduction in LDL and reduction is risk is similar to the findings of with ezetimibe which showed no reduciton in the progression of atherosclerosis despite dramatic reductions in cholesterol.
Add to that the increase rather than reduction in first major cardiovascular events associated with torcetrapib which successfully increased HDL and reduced LDL. Another nail in the coffin also comes with torcetrapib which despite increasing HDL and reducing LDL failed to reduce atheroma volume.
It seems that large swaths of the cholesterol theory need to be revised and updated to account for this new data. While we wait for this new hypothesis it is important to reevaluate all of the conclusions and health recommendations we make based on intermediate end-points rather than on clinical outcomes. The primary health recommendations that I have in my sites are dietary. Low fat diets have repeatedly failed studies on endpoints and are propagated on their ability to improve the lipid profiles. Well, both ezetimibe and torcetrapib improve the lipid profiles and do little else of benefit to patients.
From a 2002 JAMA review:
In the Minnesota Coronary Survey,51 cardiovascular events were not significantly reduced by a high-polyunsaturated-fat diet despite a decrease in serum cholesterol, but the mean duration of dietary intervention was only about 1 year. Two secondary prevention trials testing the approach of total fat reduction did not find a significant reduction in serum cholesterol or CHD events.52–53
A more recent reveiw from Circulation comes to a similar conclusion. It reminds me of a NYT magazine article about the Atkins diet. This wonderful article has a section that looks at the lack of correlation between Heart Healthy diets and actually reducing cardiac events.
It began in January 1977, when a Senate committee led by George McGovern published its ”Dietary Goals for the United States,” advising that Americans significantly curb their fat intake to abate an epidemic of ”killer diseases” supposedly sweeping the country. It peaked in late 1984, when the National Institutes of Health officially recommended that all Americans over the age of 2 eat less fat. By that time, fat had become ”this greasy killer” in the memorable words of the Center for Science in the Public Interest, and the model American breakfast of eggs and bacon was well on its way to becoming a bowl of Special K with low-fat milk, a glass of orange juice and toast, hold the butter — a dubious feast of refined carbohydrates.
In the intervening years, the N.I.H. spent several hundred million dollars trying to demonstrate a connection between eating fat and getting heart disease and, despite what we might think, it failed. Five major studies revealed no such link. A sixth, however, costing well over $100 million alone, concluded that reducing cholesterol by drug therapy could prevent heart disease. The N.I.H. administrators then made a leap of faith. Basil Rifkind, who oversaw the relevant trials for the N.I.H., described their logic this way: they had failed to demonstrate at great expense that eating less fat had any health benefits. But if a cholesterol-lowering drug could prevent heart attacks, then a low-fat, cholesterol-lowering diet should do the same. ”It’s an imperfect world,” Rifkind told me. ”The data that would be definitive is ungettable, so you do your best with what is available.”