acid base disorders

Question 1

acid base disorders

Answer 1

-Metabolic
-Acidosis
-Alkalosis

-Respiratory
-Acidosis
-Alkalosis

-Mixed Disorders

Question 2

normal acid base homeostasis

Answer 2

-pH 7.35 – 7.45
-know- 7.4 is normal
-Critical for maintaining cellular activity
-you can have disorder with a normal pH

-Maintained by:
-Cellular/tissue buffering capabilities
-Pulmonary mechanisms
-Renal mechanisms

Question 3

normal acid base homeostasis respiratory mechanisms

Answer 3

-Regulation of CO2
-Nervous system regulates respiratory rate
-independent of O2

-Hypercapnia(too much CO2 in blood)-Typically caused by hypoventilation
-Hypocapnia(too little CO2 in blood)-Typically caused by hyperventilation

-Bicarbonate is the key in the system

Question 4

normal acid base homeostasis renal mechanism

Answer 4

-Regulates plasma bicarbonate(HCO3-)

-Reabsorption of filtered bicarb
-Formation of titratable acid
-Normally phosphate related
-Ketoacids and creatinine can contribute

-Excretion of NH4+ in urine

Question 5

acid (H+) addition to the system

Answer 5

-Ingestion of Proteins and Fats

-Metabolic processes
-Aerobic metabolism of glucose
-Anaerobic metabolism of glucose (to lactic acid)
-Oxidative metabolism of amino acids

Question 6

arterial blood gas procedure

Answer 6

-Identify the patient and explain the procedure
-Allen test
-Palpate the radial (or alternate) artery
-Clean the skin
-Insert the needle/syringe at a 40-60 degree angle
-Allow syringe to fill (don’t pull back) with 1cc
-Place specimen on ice and send to lab immediately
-Apply compression for 5 minutes +, then bandage

Question 7

ABG results

Answer 7

pH 7.35 – 7.45
pCO2 35 – 45
pO2 80 – 100 *
HCO3- 22 – 26

Question 8

flow chart

Answer 8

Respiratory Acid-Base Disorders can be defined by the PaCO2:
>45 mmHg = respiratory acidosis
<35 mmHg = respiratory alkalosis

Metabolic Acid-Base Disorders can be defined by the plasma HCO3-:
<22 mEq/L = metabolic acidosis
>28 mEq/L = metabolic alkalosis

Question 9

arterial blood error

Answer 9

-errors occur often with ABGs
-air bubble in syringe- O2 falsely high
-left too long for testing
-venous draw- less O2

Question 10

mixed acid base disturbance

Answer 10

-When two or more primary disorders are present within one patient
-Different from a compensatory effect

-Typical case:
-Diabetic Ketoacidosis(metabolic acidosis) with Asthma exacerbation(respiratory acidosis)

Question 11

metabolic acidosis: high anion gap

Answer 11

-Lactic Acidosis

-Ketoacidosis:
-DM
-EtOH
-Starvation

-Toxin
-Ethylene Glycol
-Methanol
-Salicylates

-Renal Failure

Question 12

metabolic acidosis: non anion gap

Answer 12

-GI Bicarb loss
-Diarrhea
-Drugs(Ca, Mg)

-Renal cause
-RTA type 1 and 2
-Hyperkalemia

-Drugs
-Diuretics, ACE-I, ARB
-NSAIDS
-Cyclosporine
-Trimethroprim
-Pentamidine

Question 13

drug induced acidosis

Answer 13

-Salicylates:
-aspirin OD- can also respiratory alkalosis (NOT compensatory) -> aspirin causes brain to increase respiration
-Gastric lavage
-NaBicarbonate IV = alkaline urine(pH>7.5) -> Consider acetazolamide if respiratory alkalosis

-Ethylene Gylcol (antifreeze) or Methanol:
-Thiamine and B6 supplementation
-Saline diuresis
-Ethanol IV to compete with enzymes
-Dialysis

Question 14

metabolic alkalosis

Answer 14

-Exogenous cause:
-Bicarb IV or PO
-Milk-alkali syndrome

-Gastric origin:
-Vomiting
-Gastric aspiration
-Villous adenoma
-Admin of Kayexalte + Aluminum
-Congenital

-Renal origin:
-Diuretic
-Edema
-Post hypercapnia
-Recovery from acidosis
-PCN
-Mg or K deficincies
-Bartter or Gitelman

-High renin levels:
-RAS
-HTN
-Renin tumor

-Low renin:
-Primary aldosteronism
-Cushing Syndrome
-Licorice

-Liddle’s syndrome

Question 15

respiratory acid base: respiratory and alkalosis

Answer 15

-Acidosis:
-Central
-Airway
-Parenchyma
-Neuromuscular
-Iatrogenic

-Alkalosis:
-Central
-Psychiatric
-Hypoxemia
-Drugs- Salicylates*
-Peripheral receptors
-Sepsis
-Iatrogenic

Question 16

respiratory acidosis/alkalosis treatment

Answer 16

-Treatment is aimed at correcting the underlying cause
-Be aware of over treating

-Remember many causes of respiratory dysfunction may also cause a renal disorder

Question 17

take home messages

Answer 17

-Accurate diagnosis is key
-Look for an underlying cause
-History of illness will often be diagnostic

-Appropriate treatment
-Careful treatment without overshooting or causing additional harm

-Prevention if possible
-Be aware of pan-organ effects of treatments