Reference: https://t.co/ELSEqxLwk8
RT @jeroendebaaij: @kidney_boy @NephSecrets The 30% binding of Mg to albumin is dependent on the free fatty acids concentration in the bloo…
@kidney_boy @NephSecrets The 30% binding of Mg to albumin is dependent on the free fatty acids concentration in the blood. It may therefore actually be >30% in diabetics. https://t.co/XO9RneAJba
@MECFSNews @doctormom63 OTOH its possible this is due to some interaction w/ magnesium & albumin which could affect Mg availability. Benzoate binds to albumin - don't know if that affects Mg. It is known that serum free fatty acid [NEFA] affects Mg av
RRIDs were included in the Diabetologia paper "Increased NEFA levels reduce blood Mg2+ in hypertr…" (https://t.co/MguN3M1OVx). RRIDs like this improve reproducibility in scientific research. #methodsmatter #reproducibility
RRIDs were included in the Diabetologia paper "Increased NEFA levels reduce blood Mg2+ in hypertr…" (https://t.co/MguN3M1OVx). Thank you for making your #methodsmatter. #RRID
The authors of "Increased NEFA levels reduce blood Mg2+ in hypertr…" (https://t.co/MguN3M1OVx) included RRIDs in their paper! RRIDs like this improve reproducibility in scientific research. #methodsmatter #RRID
The authors of "untitled" (https://t.co/MguN3M1OVx) included RRIDs in their paper! Thank you for making your #methodsmatter. #RRID
Increased NEFA levels reduce blood Mg2+ in #hypertriacylglycerolaemic states via direct binding of NEFA to Mg2. @DiabetologiaJnl; https://t.co/B7VAgo4tHC; #Albumin; #Magnesium #deficiency; #Obesity
New from #ERC_Research https://t.co/7mryxnvnli Increased NEFA levels reduce blood Mg2+ in hypertriacylglycerolaemic states via direct binding of NEFA to Mg2+
New from #wellcometrust https://t.co/7mryxnvnli Increased NEFA levels reduce blood Mg2+ in hypertriacylglycerolaemic states via direct binding of NEFA to Mg2+
RT @DiabetologiaJnl: Inducing hypertriacylglycerolaemia in mice and humans causes reduced blood Mg2+ levels due to a direct interaction bet…
RT @DiabetologiaJnl: Inducing hypertriacylglycerolaemia in mice and humans causes reduced blood Mg2+ levels due to a direct interaction bet…
Inducing hypertriacylglycerolaemia in mice and humans causes reduced blood Mg2+ levels due to a direct interaction between Mg2+ and NEFAs. #obesity #magnesium #physiomics @jeroendebaaij https://t.co/Ubq955rdvx 🔓 https://t.co/RJplFb3dR5
RT @jeroendebaaij: Our latest publication in @DiabetologiaJnl shows that lipid levels determine the free #magnesium availability in blood.…
Increased NEFA levels reduce blood Mg2+ in #hypertriacylglycerolaemic states via direct binding of NEFA to Mg2. @DiabetologiaJnl; https://t.co/lTH25dc3Fp; #Albumin; #Magnesium #deficiency; #Obesity; #Triacylglycerols
RT @jeroendebaaij: Our latest publication in @DiabetologiaJnl shows that lipid levels determine the free #magnesium availability in blood.…
Our latest publication in @DiabetologiaJnl shows that lipid levels determine the free #magnesium availability in blood. Great work by Steef Kurstjens and our colleagues! Read more: https://t.co/XO9RneAblC https://t.co/nUfyfISgk1