Hepcidin is regulated by iron and inflammation.
Inflammation inhibits other aspects of red cell production. #NKFClinicals
Renal Erythropoietin-producing (REP) cells are oxygen sensors in the the kidneys that control EPO production. Anemia and hypoxia stimulates EPO. In CKD there is disordered oxygen sensing. #NKFClinicals
Anemia is multi factorial and there is a TON of iron deficiency in CKD #NKFClinicals
It’s not the Hgb it’s the EPO (maybe, observational data) #NKFClinicals
40% of non-dialysis CKD receive a transfusion in the 2 years prior to ESRD. Results in increased anti-HLA antibodies. #NKFClinicals
When we published our study <> of ODS and hyponatremia we were pummeled for including people at low risk of ODS because we included Na levels between 120 and 130. They said it is well known "that ODS is incredibly rare/non-existent at those levels." 1/4evidence.nejm.org/doi/10.1056/EV…
Of course one of the reasons it was thought to be incredibly rare was that no one looked for CPM in patients with Na from 120-130. We found a fair number (≤5 of 12). 2/4
Our findings are replicated in a study from Australia. The authors took a different approach to investigating ODS. Instead of starting w/ hyponatremia and working forward to ODS, they started with a dx of ODS and worked backwards
3/4ncbi.nlm.nih.gov/pubmed/35717664
Gadolinium in dialysis patients.
What's up with that?
#Tweetorial
1/11
Nephrogenic systemic fibrosis (NSF) is an iatrogenic disease that presents with hardening of the skin and other organs. It is often lethal. I treated 5 people with this condition (including one with AKI). Terrible.
2/11
The etiology of NSF was unknown and there were many theories. In 2006, Thomas Grobner published a small case series showing 5 patients developing NSF within weeks of receiving gadolinium contrast for MRI.
3/11pubmed.ncbi.nlm.nih.gov/16431890/
I just recently recommended the Renal Physiology book by Bruce Koeppen and Bruce Stanton. I thought it was a good medical student level text book: pbfluids.com/2023/08/ouwb-s…
But I came across this question in Chapter 8 Regulation of Acid Base. It is a straight forward question asking the learner to interpret simple acid-base cases.
But the question falls apart when you look at the answer...
Michael Emmett on electrolyte artifacts
Pre-analytical and analytical #NKFClinicals
Starting with pseudohyponatremia
These are real cases
The osmolality was 294, so there is a huge gap. 44ish
Implies Artifactual decrease in sodium
Her triglycerides were >6000 #NKFClinicals
Note the different between HCO3 and tCO2 should be closer than 19 and 9. #NKFClinicals