Exam3Lec6AcidBase1 Flashcards
Why is Acid-Base Balance
in the Body Important? (4 points)
- Our diets contain many acids and bases; cellular catabolism of foodstuffs produces the majority of acids and bases in our bodies.
- Bases normally lost in feces; net effect of accumulation of acid in body fluids.
- Cellular functions are sensitive to pH.
- Acid must be excreted for normal physiological function of cells and organs.
Acids ____ H+ ions. Bases ____ H+ ions
donate, receive
____ dissociate completely or almost completely into H+ and their conjugate base.
Strong acids
____ are only slightly ionized in aqueous solution.
Weak acids
A ____ is a mixture of substances in aqueous solution that can resist changes in H+ ion concentration when strong acids or bases are added.
buffer
Buffers are usually a combination of a weak acid and its conjugate base.=
H+ ____ is about equal to H+ concentration.
activity
pH = -log[H+]
pH of arterial blood is normally?
7.40
range in 7.35-7.45
What is acidemia and alkalemia?
Acidemia = arterial blood pH < 7.35.
Alkalemia = arterial blood pH > 7.45.
What are the sourcres of Acid in the body?
- Cellular metabolism (main source)
- Accidentally Ingested Fixed Acids
- Abnormally High Fixed Acid Production (e.g. Diabetic Ketoacidosis)
What are the 5 types of cellular metabolism occuring in our body that serves as a source of acid?
- Oxidation of glucose and fatty acids (major)
- Oxidation of sulfur-containing amino acids
- Oxidation of phosopholipids/phosphoproteins
- Conversion of NH4Cl to Urea
- Anaerobic metabolism of glucose
Oxidation of glucose and fatty acids (major)
1. Produces?
2. Removed by lungs or kidneys?
3. Volatile or Fixed acid?
- Produces CO2
- CO2 removed by lungs
- Volatile Acid
Hydration of the CO2 produces protons
Oxidation of sulfur-containing amino acids
1. Produces?
2. Removed by lungs or kidneys?
3. Volatile or Fixed acid?
- Produces sulfuric acid (H2SO4)
- Removed by kidneys
- Fixed Acid
Oxidation of phosopholipids/phosphoproteins
1. Produces?
2. Removed by lungs or kidneys?
3. Volatile or Fixed acid?
- Produces phosphoric acid (H3PO4)
- Removed by kidneys
- Fixed Acid
Conversion of NH4Cl to Urea
1. Produces?
2. Removed by lungs or kidneys?
3. Volatile or Fixed acid?
- Produces HCl
- Removed by kidney
- Fixed Acid
urea comes from liver
Anaerobic metabolism of glucose
1. Produces?
2. Conversion?
3. Volatile or Fixed acid?
- Produces Lactic Acid
- May be converted to CO2
- Can be Volatile or Fixed
Which two organs use alot of bicarb?
Liver and kidney.
liver uses bicarb + aluminum chloride to create urea
Regulation of body pH is acheives by what 3 mechanisms?
- Chemical Buffering.
- Respiratory Compensation.
- Renal Compensation
chemical buffering is very quick and immediately completed. Renal compensation occurs 24 hrs or few days later
What does this graph show?
Distilles water has no buffer system and you see the pH decr very fast wehn around 25mEq H+ were added. In vivo there is a buffering system so it can maintain pH and resist change in acidity
What is the Henderson-Hasselbalch
Equation?
HCO3-/CO2 =>HPO42-/H2PO4-=>Prot-/HnProt
Name each buffer pair for each location
What is teh first line of defense to resist change in acidity?
Fast Chemical Buffering in plasma
Strong acid + Buffer salt -> Neutral salt + Weak acid
What are 3 special characteristics of the
bicarbonate buffer system?
- High [HCO3-]
- [HCO3-]/CO2 = 20 : 1
- Open System: Controlled pCO2
What does this graph represent?
Titration Curves for the Bicarbonate
and Phosphate Buffer Systems. By the time you lose all the acid or bass the buffer ssytem is gone. Thats why you see a large pH jump on the most left and most right of the graph. The buffer system is in the middle area and you see gradual change in pH
What is essential for optimal physiological function of cells and organ?.
Maintenance of an optimal plasma and ECF pH
