musings of a salt whisperer
I have a feeling that the vast majority of people on Twitter are not aware of how to take advantage of Twitter's search capabilities. I've had people assume I spent a long time finding something when it took seconds
I'll explain how to use some of options with Twitters search.
— Texas Resistance (@TexanTruth42) May 15, 2018
And this from NephJC by Nimra Sarfaraz.
And the all important advanced search link: https://twitter.com/search-advanced
I recently saw a patient with hyponatremia and cirrhosis. He had been started on salt tablets to try to correct the hyponatremia. In a limited number of diagnosis salt tablets can help hyponatremia. Cirrhosis is not one of them. I created this Tweetorial to teach some basic hyponatremia physiology and clear up when they may work and when they will not.
I’m going to throw my hat in the Tweetorial ring.
Sometimes salt tablets work for hyponatremia and sometimes they don’t. How can you figure out when to use them and when not to?
— Joel M. Topf, MD FACP (@kidney_boy) July 9, 2018
This is my first shot at a Tweetorial. I wrote out the tweets in Apple Notes. I think I will use a spreadsheet with a character counter next time. Too many of my Tweet-length thoughts ended up being a bit too wordy. Having a counter during creation would help.
I also should have more links and pics.
Additionally, I bought the domain Tweetorial.org. Any ideas what I should use it for?
One of the interesting developments in MedTwitter has been the chained tweet to demonstrate a point. I think the master of this is Professor Darrel Francis.
This one is nicely relevant to this week’s NephJC:
Renal denervation has now been shown to reduce BP by 4 to 7 mmHg against placebo procedure, in two recent trials.
What is your reaction?
— Prof Darrel Francis ☺ Mk CardioFellows Great Again (@ProfDFrancis) June 28, 2018
Another famous innovator of the Medical Tweetorial is Vinay Prasad. Vinay smartly collects the first tweet to his Tweetorials in a pinned tweet.
https://twitter.com/vinayprasadmd/status/1007337958846783488?s=21
Another master of the Tweetorial is Tony Breu. He, similarly, collected his Tweetorials in one place.
Here's a running list of #meded threads. Or, as @DrKerbel calls them, #Twearls
— Tony Breu (@tony_breu) June 16, 2018
This one has relevance to nephrology. Brilliant explanation.
1/
Why does normal saline (NS) contain 154 mEq of sodium per liter if a normal serum sodium is ~140 mEq/L?This has bugged me for YEARS.
I’ll do my best to explain a potential reason below. As always, I’d love to hear from others, either confirming or refuting what follows…
— Tony Breu (@tony_breu) June 25, 2018
Speaking of relevance to nephrology, Swapnil has thrown his hat in the Tweetorial ring
Saturday morning diastolic BP thread as I wait & get tires changed to enjoy such moments 1/ pic.twitter.com/6nDfMvefSs
— Swapnil Hiremath @hswapnil@bsky.social (@hswapnil) November 25, 2017
Paul Sufka has joined the party focusing with a focus on rheumatology:
Going to play around with threaded tweets and make a tweetatorial (?) on positive ANAs in rheumatology. I'm sure I'll miss important points, but this is supported to be a discussion, so feel free to reply and fill what I've missed. 1/
— Paul Sufka, MD (@psufka) June 24, 2018
Here is Bryan Vartebedian’s take on this development. His problems with the rise of the tweetorial can be summed as:
In his conclusion, Vartabedian hedges a bit, but it is clear he believes in the blog:
I firmly believe that all of us should be poking at these applications to discover their most creative uses. But what any of us think is less relevant than what sticks with the public community of physicians. The market will bear this one out.
I love Sufka’s lessons on ANA. Prasay’s thread is a bold call to action that challenges the medical industrial publishing complex. It’s an important reminder that we are the publishers and no longer live in a permission-based system of launching ideas to the world.
We just need to remember that there’s a big medical world and a whole lot of eyeballs beyond our Twitter space. Let’s put our brilliance in the right place.
When I was a fellow at University of Chicago, just after the turn of the century, I did literature searches and then divided my PubMed bounty into articles I could download directly and those articles I would need to stalks the stacks to retrieve from hardcover bound versions of the journal. Any article in the latter group needed to be really important for it to be worth the extra-effort.
It was bits versus atoms. Bits were so much easier to gather, manage, and organize that it affected the information I would collect.
This artificial division largely fell away as more and more of the archives were moved to electronic format and the stuff that was trapped in atoms became less relevant as it faded further and further from the current time. Today, effectively all the medical literature exists as bits.
The new barrier is not between bits and atoms but between open access bits and paywalled bits.
See this exchange:
Hey @Nephro_Sparks, a baclofen toxicity article in Volume 1 Issue 1 of the Nepalese Medical Journal! And Open Access to boot https://t.co/kUxT7j54wT @nepmedjourn pic.twitter.com/4Mp2uKcp5J
— Joel M. Topf, MD FACP (@kidney_boy) June 26, 2018
No citation of https://t.co/VAz9syNVkz or https://t.co/p4kh91ZlQR
— Matthew Sparks, MD (@Nephro_Sparks) June 26, 2018
https://twitter.com/akshayakeerti/status/1011754523663261698?s=21
We may be moving to a world where if you want to be read (and to be cited) you will need to publish in open access journals.
Vitamin C and EDTA resulting in oxalate nephropathy. Great discussion of the likely mechanism.
Unfortunately, the patient remained dialysis dependent despite an accurate diagnosis and stopping the ongoing mechanism of injury.
Near the end of Swapnil’s sweeping summaries of the renal denervation articles for this week’s NephJC, he discussed safety. In the trials, the procedure was remarkably safe but Swap brought up possible future consequences. These are adverse events that could never be measured in a real-world trial:
Renal denervation is permanent. Blood pressure medications can be stopped. Why does this matter? Maybe if a patient subsequently develops sepsis or hypovolemia? The sympathetic system exists for a reason….See this case report. In this study of sheep with CKD, bleeding caused a much more severe drop in blood pressure.
This reminds me of bariatric surgery. We had been doing Roux-en-Y for weight loss for decades (See meta-analysis) when, in 2005, Nelson published a case series of calcium oxalate stones, including a couple of cases of ESKD with dialysis dependence due to oxalate nephropathy. Their work was backed-up in this report.
Oxalate nephropathy is secondary to increased oxalate absorption following the Roux-en-Y procedure. There are two theories as to why this is:
Additionally the malabsorption leads to diarrhea and metabolic acidosis. This decreases urine pH and lowers urinary citrate both of which promote calcium oxalate stones. There is also a decrease in urine volume of about 0.5 liters, further increasing the stone tendency of these patients. Dr. Park defined a lot of this in a prospective study of 24-urines after Roux-en-Y.
I have seen patients with ESKD from Roux-en-Y. It is horrible. Since the primary pathology has not ceased, these patients are at risk for the same oxalate nephropathy following a transplant, making a transplant a risky procedure.
Though oxalate nephropathy after Roux-en-Y does occur, obesity itself is a risk factor for ESKD and bariatric weight loss appears to protect patients from this.
This good news tempered with the risk of disaster makes the decision to go for bariatric surgery a bit more nuanced than it is often portrayed. Does renal denervation have similar future land mines just waiting to be exploded in the future? We have no idea what unexpected horrors from renal denervation lie undiscovered.
My wife and I celebrated out eighteenth anniversary last night. We went to dinner in Windsor. While we were in line waiting to cross back into the US, Cathy found and read some of our e-mails back and forth from the first few years of courtship.From: Joel Topf
Date: October 25, 1998 at 2:59:00 PM EST
To: Cathy
Subject: I met my hero
Cathy, the conference is awesome. I’m having fun.
I just met Burton Rose. He’s the reason I’m going into nephrology. It was a moving experience.
I’ll call you later
love you
always
j
I think I may have buried the lead in the last blog post. Perhaps this imaginary conversation will clarify what is so important about the George et al study.
Nephrologist: There are now clinical practice guidelines, based on expert opinion, that tell us to correct sodium no more than 8 mmol/L in the first day of hyponatremia.
Internist: That seems cautious. How well are we meeting those guidelines?
Nephrologist: Well in a recent multi-center, retrospective analysis, of nearly 1500 people with an initial sodium below 120, just over 40% went too fast.
Internist: FORTY PERCENT were too fast. Oh my god! We’re doing horrible!
Nephrologist: Yeah, it’s kind of embarrassing.
Internist: So what happened to the 600+ people where the speed limit was exceeded?
Nephrologist: Well, they found 9 people had osmotic demyelination on MRI. But none of them had any documented permanent neurologic deficits and none of them was diagnosed with central pontine myelinolysis.
Internist: So how many people could we help if we worked on protocols, education and training to get that 40% closer to 5 or 10%?
Nephrologist: Well, since with a 40% miss rate we couldn’t find any harm, I guess we couldn’t expect much improvement with a 5 to 10% miss rate.
Internist: We should probably put our energy elsewhere.
This second article in the hyponatremia data dump comes from CJASN and like yesterday’s post, attempts to clarify who develops rapid correction of hyponatremia.
The U.S. Hyponatremia Guidelines (Verbalis, et al) recommend a speed limit for correcting the sodium of no more than 8 mmol/L in any 24 hour period for patients at high risk of osmotic demyelination (ODS). High risk is defined as anyone with:
One of the items I hit home on in my lectures on hyponatremia is how rare osmotic demyelination actually is. I came to this conclusion when NephJC discussed The European guidelines on hyponatremia. The guidelines review every published case or case series of ODS from 1997 until 2012. Over those 15 years they found 53 cases world wide (See Appendix 6, Sheet 13a). Every year, in the US alone, there are around a million people who develop severe hyponatremia (Na < 126). With that type of denominator, 53 cases seems laughably small.
I have never seen a case of osmotic demyelination syndrome. I have seen a lot of mismanaged hyponatremia.
Never have so many, done so much, to avoid a complication seen by so few.
George, Zafar, Bucaloiu, and Chang analyzed the 7 hospitals in the Geisinger Health System to look at the incidence and risk factors for rapid sodium correction and osmotic demyelination.
They included adults with an initial sodium less than 120 mmol/L.
Their primary endpoint was an increase in sodium of more than 8 mmol/L in the first 24 hours.
Looking at the methods, it was not clear to me how they dealt with patients with multiple admissions for hyponatremia. Were they included multiple times? Did they only include the first admission?
They manually looked through every MRI report that was done after the index sodium to look for reports of ODS.
They found 1,490 cases of severe hyponatremia with complete data that matched their inclusion criteria.
Median change in sodium in the first 24 hours was 6.8 mmol/L.
606 (41%) patients broke the speed limit of 8 mmol/L in the first 24 hours.
The authors provided a lot of depth on the risk factors for rapid correction. Here is the unadjusted risk factors.
Demographic:
Medical history:
Clinical data:
They used three different models for multivariate analysis to generate odds ratios for rapid correction of hyponatremia.
Some comments about the risk factors. I suspect the reason that depression actually represents SSRI induced SIADH that rapidly corrects when the drug is withdrawn. The schizophrenia association may represent psychogenic polydipsia, a common manifestation of schizophrenia. Water restriction will result in prompt normalization of the sodium.
Liver, heart, and cancer are all associated with difficult to treat hyponatremia, so no surprise that they saw lower rates of rapid correction among people with those diseases.
The lower BMI and female gender association with rapid correction may be simply due to lower total body water making these patients more susceptible to rapid changes in serum sodium.
Lower urine sodium may indicate patients with volume depletion hyponatremia, a population predisposed to rapid correction of hyponatremia as soon as the volume depletion is corrected, releasing the hypothalamus from the volume stimulated release of ADH and resulting in rapid drop in ADH and rapid, uncontrolled correction of hyponatremia.
The lower urine osmolality likely represents patients with psychogenic polydipsia, tea and toast syndrome, or patients who are already in the midst of spontaneously correcting their sodiums, all patients who will rapidly correct their sodium.
The people who are seizing are a cohort with, presumably, acute symptomatic hyponatremia and rapid correction is less problematic.
There were 295 patients who had an MRI after having severe hyponatremia. Nine had radiologic evidence of osmotic demyelination. No patients had an ICD diagnosis of central pontine myelinolysis. One patient had MRI evidence of ODS prior to correction of the sodium. Consistent with medical consensus, nearly all of the patents with incident ODS had rapid correction of hyponatremia:
Of the eight (0.5%) patients who developed incident osmotic demyelination, seven (88%) had documented sodium correction > 8 mEq/L during any 24-hour period before brain MRI.
The one patient with evidence of ODS without rapid correction of hyponatremia had been admitted within a month with a sodium of 105. So it is possible the ODS occurred with that episode rather than the one captured in the study.
The authors listed the characteristics of the patients with ODS:
Having hypovolemia in 75% and beer potomania in 63% means that some patients had to have both of these diagnosis. This portrays a misunderstanding of what constitutes beer potomania. Beer potomania induced hyponatremia is not merely a patient who drinks beer and develops hyponatremia, instead it represents a patient who is unable to clear the water volume in beer due to inadequate solute intake. These patients have maximally dilute urine. On the other hand, patients with volume induced hyponatremia are unable to clear excess water because of hypovolemia-induced ADH release. In one case you have high ADH activity and concentrated urine (volume depletion) and in the other case you have suppression of ADH and dilute urine. There can not be a meaningful combination of the two disorders.
Alcohol use, malnutrition and hypokalemia are all previously recognized risk factors for ODS.
Three patients had received 3% saline for acute neurologic symptoms of hyponatremia. This is critical information because it shows that just because someone has acute manifestations of hyponatremia and an indication for 3%, one must still pay attention to the speed limit. Often acute neurologic symptoms of hyponatremia is thought to indicate a failure to have compensated for chronic hyponatremia and therefore protective against ODS. This is not the case.
The finding that I found most interesting was the clinical outcomes of the patients with ODS.
Five patients with documented osmotic demyelination had recovery with no neurologic deficits, two patients died from unrelated causes, and two were lost to follow-up.
They had 9 cases of ODS and they weren’t able to document even a single case of neurologic devastation. Five of the cases had documented neurologic recovery. This is how Burton Rose describes ODS:
And here is how Sarah and I described it in the fluids book
In my mind if you don’t spasmodic, mirthless laughter you don’t have ODS.
This is consistent with a previous study of dialysis patients with hyponatremia who developed similarly clinically invisible ODS was diagnosed by MRI. From the discussion of Tarhan et al.
Contrary to its classic description, osmotic demyelination syndrome may develop without any presenting signs and symptoms in patients with end-stage renal disease who have undergone recent hemodialysis.
This largely asymptomatic ODS likely explains why not one of the 9 patients had an ICD diagnosis of central pontine myelinolysis (CPM). They did nt have any of the clinical manifestations of CPM.
When I read the abstract and saw that they had 9 cases of ODS in their cohort I jumed out of my shorts. This would be the largest series of DS ever. After reading the study I realize that actually we are in a new era of hyponatrmia where ODS can be devastating (read the three case reports in Brunner et al’s prospective study of MRI evaluation, PDF available on SciHub) or asymptomatic.