Pulmonary Biochemistry Week 3 Flashcards
True/False: Respiratory acidosis/alkalosis are always caused by abnormal function of the lung
FALSE - often but not always. For example, a person can have respiratory acidosis (increased PaCO2) but lungs are normal
On the davenport diagram, the x-axis represents ____ and the y-axis represents _____ therefore any point on the graph is a solution of the Henderson equation. Overall, the Davenport diagram tells you how blood will respond to changes in ______
pH, [HCO3-], PaCO2
Davenport diagrams reflect the presence of _______ buffers in the blood
non-volatile [presence of Hb mitigates increase in h+ caused by shifts in bicarbonate buffer system]
On a davenport diagram, a steeper buffer line of blood [the line reflecting the changes paCO2 have on pH and HCO3-], would indicate what?
more non-volatile buffering power [basically, with greater changes in PaCO2 there are slightly greater changes in HCO3- but lesser changes in pH so line is steeper]
Describe three non-pulmonary causes of acute respiratory acidosis
disruption in neural linkage driving breathing, central nervous system depression[drug OD, anesthesia], external enviro preventing normal breathing[heavy weight]
Name 5 pulmonary causes of acute respiratory acidosis
upper airway obstruction, severe asthma attack, COPD, severe pneumonia, severe pulmonary edema
Respiratory acidosis/alkalosis is caused by a pathological change in _____ whereas metabolic acidosis or alkalosis is caused by a pathological change in ______
PaCO2, [HCO3-]
With a decrease in CO2 in which direction will the equilibrium shift. How do Hb buffers play a role.
For reference, the rxns:
CO2 H+ + HCO3-
H+ + Hb H+Hb
The equilibrium will shift towards the left to produce more CO2. H+ will be lost, but this will be mitigated by Hb releasing H+.
______ is caused by an increase in central drive to breathe
Respiratory alkalosis
True/False: For respiratory alkalosis to occur, the entire neuromuscular chain for breathing must be intact
True
What are four conditions that act as abnormal ventilatory stimuli to increase central drive to breathe?
1) arterial hypoxemia or hypoxia; 2) direct stimulation of pulmonary mechanoreceptors and chemoreceptors by lung dz; 3) chemical or physical factors that stimulate the medullary respiratory center; 4) psych factors
True/False: Most common pulmonary diseases can lead to respiratory alkalosis
True
Describe the three conditions of acute asthma that act as abnormal ventilatory stimuli to increase breathing
Stimulation of sense receptors; anxiety (psych); hypoxemia
Describe the three conditions of pulmonary embolus that act as abnormal ventilatory stimuli to increase breathing
stimulation of sense receptors; pain (psych); hypoxemia
Describe the four conditions of bacterial pneumonia that act as abnormal ventilatory stimuli to increase breathing
inflammatory debris [direct stimulation of mechano/chemo receptors]; fever [direct stimulation of mechano/chemoreceptors]; anxiety [psych], and hypoxemia and hypoxia
How does hypoxemia cause respiratory alkalosis?
The peripheral chemoreceptors in the carotid and aortic bodies begin to drive breathing when PaO2 falls below ~60mmHg [so then CO2 blown off]
The same diseases that cause respiratory alkalosis can cause respiratory acidosis. What two factors would allow the transition to acidosis to occur?
If the disease progresses to a point of severity when MUSCLE STRENGTH IS WEAKENED AND/OR LOAD IS INCREASED enough to “tip the balance”
Load=airflow resistance, lung stiffness, ventilatory requirement
Strength=central drive, neural linkage, resp muscles [4 abnormal ventilatory stimuli]
In end-stage liver disease, ________ is quite common. This disease leads to intrapulmonary shunting that causes low V/Q regions. Pt’s will be _____ and have a high A-a gradient
hepatopulmonary syndrome, hypoxemic
Respiratory acidosis is caused by _______ via __________ whereas respiratory alkalosis is caused by ________ via _________
hypercapnia, alveolar hypovenilation, hypocapnia, alveolar hyperventilation
Describe what occurs when a strong acid is added to a blood sample [open to chamber containing CO2 gas at 40mmHg]
Reference rxn: CO2 H+ + HCO3-
Adding H+ will shift equilibrium to left. HCO3- consumed to consume of of added acid. PCO2 will remain at 40mmHg.
Describe what occurs when a strong base is added to a blood sample [open to chamber containing CO2 gas at 40mmHg]
Reference rxn: CO2 H+ + HCO3-
Strong base [A-] will react with H+ to form HA. Therefore, H+ used up. To replace H+, equilibrium shifted to the right. HCO3- increases. PCO2 remains at 40mmHg.
What are two main causes of hypobicarbonatemia [which leads to metabolic acidosis]?
increase in EAP, reduced net excretion due to renal defects
[increase in EAP can be due to derangements in gut function, derangements in metabolism, exogenous intoxicants]
Describe how diarrhea or laxative abuse is a gastrointestinal cause of metabolic acidosis.
Diarrhea and laxative abuse lead to an increase in stool volume which means a lot of HCO3- is lost from the body. The lower gut cells secrete more HCO3- to replace the lost HCO3- which leads to increased H+ secretion into the blood. The increased H+ secretion into the blood leads to blood HCO3- being consumed.
Metabolic acidosis is caused by an imbalance between _______ and ______
organic acid production, consumption
Normally, there is an incomplete metabolism of carbs and lipids. Carbs and lipids are metabolized to organic acids, but do not finish complete metabolism to A- and H+. What is needed to complete this metabolism?
Oxygen
What happens during hypoxia in regards to carb/lipid metabolism?
Carb lipid metabolism is incomplete so there is a build up of organic acids [along with protons]
examples -metabolic acidosis (strenuous exercise with volume depletion) and ketoacidosis (type I diabetes)
______ and _____ are two alcohols that get metabolized to acids and therefore are exogenous causes of metabolic acidosis
methanol, ethylene glycol [essentially dissociate into A- + H+ and will be EAP like]
How does vomiting or nasogastric drainage cause metabolic alkalosis?
H+ are being lost which means that upper GI is generating more H+ –> upper GI is secreting more HCO3- into the blood –> initially, body will dump HCO3- via urine to keep pH normal –> if vomiting/nasogastric drainage continues, will result in metabolic alkalosis
What two mechanisms are required for metabolic alkalosis to occur?
A generation mechanism [such as vomiting] and a maintenance mechanism [such as increase in renal threshold for HCO3- spillage]
Virtually all causes of metabolic alkalosis present with hypokalemia or at least a low-normal K+. Why?
1) H+ moved out of cells to relieve alkalosis which means K+ moves into cells, reducing K+ concentration in plasma
2) Volume depletion increases aldosterone levels –> more Na+ reabsorbed and K+ secreted –> more K+ loss via kidneys
What are the three main factors responsible for maintenance of metabolic alkalosis?
volume depletion, hypokalemia, aldosterone excess
What are the two mechanisms by which loop diuretics and thiazide cause alkalosis?
1) Loop diuretics and thiazide block Na/K/Cl and Na/Cl transporters in the nephron. Therefore there is more Na+ and Cl- which leads to saline diuresis. Later in the nephron, some Na+ is reabsorbed which increases K+ secretion. This drives the nephron in a later segment to reabsorb K+ which leads to H+ secretion. This results in increased H+ loss. I
2) Greater K+ excretion makes the body hypokalemic, so K+ moves out of the cells to compensate which drives H+ into the cells, decreasing the H+ plasma concentration.
True/False: In treatment of edema with loop diuretics and thiazide, virtually all of HCO3- contained in the edema fluid is retained leading to alkalosis
True
Explain the rule of thumb for acute respiratory acidosis in a simple acute disturbance.
pH down by 0.07 and HCO3- up by 1mM = for a 10mmHg change in PaCO2, the condition is acute and has not been compensated
Explain the rule of thumb for acute respiratory alkalosis in a simple acute disturbance
pH up by 0.08 and HCO3- down by 2mM = for a 10mmHg change in PaCO2, the condition is acute and has not been compensated
Does a patient who has a pH of 7.26, a PaCO2 of 60mmHg, and an [HCO3-] of 26 meet the rule of thumb for acute respiratory acidosis?
Yes
In terms of acidosis/alkalosis, what does compensation mean?
change in [HCO3-] or PaCO2 that occurs as a result of the primary disturbance
True/False: In acidosis/alkalosis, compensation is never complete, so pH will only approach 7.4
TRUE
Why are there acute and chronic respiratory alkalosis/acidosis categories, but no distinction for metabolic acidosis/alkalosis?
Respiratory compensation for metabolic conditions occurs very quickly (basically, immediately)
how long does chronic compensation (via renal system) take for a) respiratory acidosis; b) respiratory alkalosis
4 days; 8 days [highly variable]
In respiratory acidosis, how long does mitigation of pH change by equilibration of body buffers take?
10 minutes
Using the rules of thumb, how can you differentiate between chronic and acute respiratory acidosis/alkalosis?
For a 10mmHg change in PCO2, the pH will change more in acute [0.08] than in chronic [0.03]
A patient with severe COPD presents with a pH of 7.38, PaCO2 of 70mmHg, and [HCO3-] of 40mM. What is the likely acid-base disturbance?
The patient does not have acute respiratory acidosis - change in HCO3- is due to primary disturbance PCO2. The renal system has had time to compensate by increasing plasma bicarbonate, which returned pH back toward normal.
A patient with a history of methanol ingestion has a pH of 7.29, HCO3- of 12, and PaCO2 of 26. What is the acid-base disturbance?
pH is very low, HCO3- is low, and PaCO2 is low. Pt has metabolic acidosis [which is rapidly compensated by respiratory hyperventilation which is why PaCO2 is low].
In metabolic acidosis, what is the primary change and rapid compensated change?
Primary change is fall in HCO3-; rapid compensatory change is fall in PaCO2
In metabolic alkalosis, what is the primary change and the compensatory change?
Primary change is rise in HCO3-; compensatory change is rise in PaCO2
If pt has pH of 7.29, HCO3- of 14, PaCO2 of 30, what is acid base disturbane
metabolic acidosis bc bicarb low - note that PaCO2 is lower than nl so the metabolic acidosis has been rapidly compensated
If pt has pH of 7.57, HCO3- of 42, PaCO2 of 47, what is acid base disturbance?
metabolic alkalosis - note that PaCO2 is higher than normal reflecting compensation for high HCO3-
If pt has pH of 7.57, HCO3- of 18 and PaCO2 of 18, what is acid base disturbance
acute respiratory alkalosis - fit rule of thumb for a 10mmHg drop in PaCO2, the pH goes up by 0.08 units
If pH is 7.60, HCO3- is 32, and PaCO2 is 24, what this the acid base disturbance
mixed
A severely bulimic woman has pH 7.51, HCO3- of 38, PaCO2 of 49, what is the acid base disturbance?
Pt has metabolic alkalosis with respiratory compensation [this is why PaCO2 is elevated]
Pt fits the rule of thumb for metabolic alkalosis - PaCO2 up by 0.5 to 1mM for each 1mM rise in HCO3-
What are the four electrolytes that are routinely measured and what are normal concentrations?
Na+ (140mM), K+ (4mM), Cl- (100mM), bicarb (24-30mM)
What three pieces of data that are relevant to acid-based disturbances do venous electrolytes provide?
CO2 or total CO2 (often called bicarb); anion gap; potassium concentration
What is the anion gap? [think equation]
[Na+]- ([Cl-] + [CO2])
How is total venous CO2 measured with arterial blood gas?
ABG measures [HCO3-] and is usually calculated from H-H or henderson eqn after measuring pH and PaCO2
How is total venous CO2 measured with venous electrolytes?
labeled CO2 or total CO2 instead of bicarb - measured in mM instead of mmHg bc not a measure of total gaseous CO2 dissolved. This equals close to the CO2 dissolved + [HCO3-]
Venous CO2 is ______ than arterial [HCO3-]
greater; normal venous CO2 range 24-30mM; normal arterial [HCO3-] range 22 to 26mM
What are the unmeasured anions that make up a normal anion gap?
sulfate, phosphate, organic anions, protein
The ____ is used in anion gap calculation whereas the _____ is used in rules of thumb for acid base disturbance
venous CO2 (total CO2); arterial HCO3- (true bicarb)
If a patient has a pH of less than 7.35 and a bicarb less than 24, and the anion gap is less than 12, what type of acid-base disturbance do they have?
non-gap acidosis
What three disorders account for most cases of anion gap metabolic acidosis?
ketoacidosis (alcoholic or diabetic), lactic acidosis), renal failure
_____ and _____ are the predominant anions in ketoacidosis
acetoacetate, beta hydroxybutyrate
______ is the predominant anion in lactic acidosis
lactate
Sulfate, phosphate, urate, hippurate are the premoninant anions in _______
renal failure [normal excreted by the kidney]
_______ is a product of anaerobic metabolic and increased with ______
lactic acid; hypoxia
what are the two most common causes of lactic acidosis?
circulatory failure (cardiogenic shock) and sepsis (septic shock)
What three conditions would be produce an overproduction of ketoacids?
diabetic (usually type1); starvation; alcoholic (drinking and vomiting binges)
What are the three disorders that account for most cases of non-anion gap metabolic acidosis?
diarrhea, renal tubular acidosis, renal failure (chloride from increased chloride retention)
True/False: Renal failure is the most common cause of non-anion gap metabolic acidosis?
FALSE - diarrhea
What are the two sites of heme biosynthesis?
erhythroid cells (~85%) and hepatocytes (~15%)
True/False: heme and iron metabolism are tightly coupled
TRUE DAT
Heme is composed of ____ and _____
Fe2+, protoporphyrin IX
Hypoxia stimulates eryhthropoiesis which requires ____, ____ and _____
iron, Hb, heme
In the bone marrow, multipotential hematopoietic stem cells give rise to ______ that then divide into _____
erythroid progenitors, erythroblasts
After the _______, the erythyroid cell leaves bone marrow as a ______
expulsion of the nucleus, reticulocyte
