Skip to main content

Home/ Dr. Goodyear/ Group items tagged hyperkalemia

Rss Feed Group items tagged

Filter: All | Bookmarks | Topics Simple Middle
Nathan Goodyear

Original Articles: Comparison of Insulin Action on Glucose versus Potassium Uptake in H... - 0 views

www.ncbi.nlm.nih.gov/...PMC3133473

diabetes insulin resistance potassium hyperkalemia glucose insulin

shared by Nathan Goodyear on 31 Oct 17 - No Cached
  • When treating hyperkalemia, insulin remains efficacious in diabetics and nondiabetics and one does not need to resort to b-agonists, and diabetics do not require different doses of insulin to shift potassium
  • the commonly encountered “insulin-resistant” patients actually have preserved insulin-induced potassium disposal, one wonders why their high insulin levels are not causing hypokalemia
  • insulin independently regulates glucose and potassium uptake into cells and this independence explains why in noninsulin-dependent diabetic insulin resistance leads to impaired insulin uptake into cells but has no effect on the cell's potassium disposal
  • ...9 more annotations...
  • insulin suppresses glycogenolysis, gluconeogenesis, lipolysis and fatty acid release, and protein catabolism and is the principal hormone that stimulates glucose uptake into mainly skeletal muscle and to a certain extent adipocytes
  • Plasma [K+] is a major determinant of the resting potential of all cells
  • Hyperkalemia and hypokalemia are silent yet fatal disturbances because of their arrhythmogenic potentials
  • Basal insulin maintains fasting plasma [K+] within the normal range
  • When insulin levels are suppressed, plasma [K+] rises and pronounced hyperkalemia develops after a potassium load
  • Potassium is a well proven insulin secretagogue
  • Insulin is a key defender against exogenous potassium load by using intracellular buffering to minimize hyperkalemia before renal excretion
  • Hyperkalemia is often encountered in patients with diabetes
  • The insulin-deficient state in type 1 diabetes predisposes to hyperkalemia because of an impaired ability of potassium to enter cells. During hyperglycemic hypertonic states in type 1 and type 2 diabetics, potassium is carried out of cells by convective flux as the most abundant intracellular cation
  • Nathan Goodyear on 31 Oct 17
     
    good review of the potassium, glucose, insulin relationship mostly in diabetes.  In diabetes, hyperkalemia is present due to the hyperglycemia and the associated exchange.  Inuslin independantly regulates potassium and glucose intake into the cell.  INterestingly, in IR found in diabetes, the hyperkalemia is the norm, which should cause hypokalemia--the authors were perplexed by this finding.
Nathan Goodyear

Hyperkalemia - American Family Physician - 0 views

www.aafp.org/...p283.html

hyperkalemia potassium

shared by Nathan Goodyear on 15 Sep 14 - No Cached
  • Nathan Goodyear on 15 Sep 14
     
    Good review of hyperkalemia, causes and treatment.
Nathan Goodyear

Comparisons of normal saline and lactated Ringer's resuscitation on hemodynamics, metab... - 0 views

www.ncbi.nlm.nih.gov/...PMC4029282

IV fluids lactated ringers normal saline LR NS

shared by Nathan Goodyear on 03 Jul 18 - No Cached
  • NS contains 154 mM Na+ and Cl-, with an average pH of 5.0 and osmolarity of 308 mOsm/L.
  • LR solution has an average pH of 6.5, is hypo-osmolar (272 mOsm/L), and has similar electrolytes (130 mM Na+, 109 mM Cl-, 28 mM lactate, etc.) to plasma
  • hyperchloremic acidosis
  • ...26 more annotations...
  • LR’s acid base balance is superior to that of NS’s
  • There were no significant differences between LR and NS groups in fibrinogen concentrations or platelet count
  • Total protein dropped
  • no significant differences in Hct (Table  1) or total protein between LR and NS groups
  • Bicarbonate HCO3- levels were decreased by hemorrhage but returned to pre-hemorrhage values by 3 h after LR resuscitation, whereas no return was observed with NS resuscitation
  • Na+ was increased after NS resuscitation
  • No changes in Na+ or K+ were observed
  • K+ did not change initially after NS resuscitation but was elevated at 6 h afterwards
  • Ca++ was similarly decreased
  • Cl- was elevated for 6 h after NS resuscitation, with no changes shown after LR resuscitation
  • PT was similarly prolonged by resuscitation with LR (from 11.2 ± 0.2 sec at baseline to 12.1 ± 0.2 sec at 6 h) and NS
  • Plasma aPTT was also similarly prolonged by resuscitation with LR (from 17.1 ± 0.5 sec baseline to 20.1 ± 1.2 sec at 6 h) or NS
  • NS resuscitation resulted in better oxygen delivery and oxygen delivery-to-oxygen demand ratio as an index of oxygen debt
  • NS had better tissue perfusion and oxygen metabolism than LR
  • LR resuscitation returned BE and bicarbonate to pre-hemorrhage levels within 3 h, but no return of BE or bicarbonate was observed for 6 hr with NS resuscitation
  • current blood bank guidelines state that LR should not be mixed with blood to prevent the risk of clot formation from calcium included in LR
  • LR resuscitation should not be given with blood through the same iv-line and crystalloids should be avoided in patients with blood transfusion
  • PT and aPTT were prolonged for 6 h after hemorrhage and resuscitation, suggesting a hypocoagulable states
  • potential thrombotic risk from LR resuscitation is unlikely.
  • we suspected that the blood pressure after NS resuscitation would be lower than that of LR due to its vasodilator effects
  • NS required a larger resuscitation volume and was associated with poor acid base status and elevated serum potassium in this model
  • NS required 50% more volume and was associated with a higher cardiac output and lower peripheral resistance, as compared to LR resuscitation
  • These differences are possibly due to the vasodilator effects from NS
  • an elevation of K+ was observed at 6 h post NS resuscitation, while no change of K+ was observed after LR resuscitation
  • The mechanism for the increase of K+ from NS is not fully known
  • NS is associated with vasodilator effects and the risks of metabolic acidosis and hyperkalemia
  • Nathan Goodyear on 03 Jul 18
     
    LR vs NS crystalloid.
1 - 5 of 5
Showing 20 items per page