Erstellt von kerryanne gill
vor fast 9 Jahre
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Frage | Antworten |
Why is it important | Enzymes catalyse all the reactions in our bodies – very sensitive to pH changes •Respiration |
Important Definitions | Acids and Bases are electrolytes; Acid •Substance that releases hydrogen ions (H+) •Proton donors Base •Substance that take up H+ •Proton acceptors •aka alkali |
Ionize | To dissociate into electrically charged species” H2O → H++ OH- |
Acids in the body ‐Metabolism | Cellular Respiraon → CO2 •Carbonic acid CO2+ H2O → H2CO3 •Lactic acid •Anaerobic exercise → lactoacidosis •Ketones •Fat metabolism → ketoacidosis; Carboxylic Acids •Fatty acids... •Bicarbonate Ion •Balances pH (“soaks up” H+ions) •Stomach Acids? |
Bases | Produce hydroxide ions (OH‐) •Strong Base ‐dissociate completely in H2O NaOH→ Na++ OH•Weak Bases ‐small proportion dissociate HCO3‐+ H+↔ H2CO3 •Other important bases in the body: •Aqueous Ammonia in urine •Amino group in proteins |
Corrosive | Strong acids and bases are very corrosive |
pH Scale | Scale used to measure H+concentration •Ranges from 0 to 14 •Is a solution acidic or basic; ↑ H+= more acid = pH goes “down” = 6 → 1 ↓ H+= less acid = pH goes “up” = 1 → 6 ↑ OH‐= more alkali = pH goes “up” = 8 → 14 ↓ OH‐= less alkali = pH goes “down” = 14 → 8 |
pH Homeostasis | Very narrow range •Blood pH –7.35 to 7.45 |
Respiratory Acidosis | •↑ CO2→ ↑ H2CO3→ ↑H+ •Hypoventilation due to asthma, COPD, oedema •↓O2→ anaerobic glycolysis •↑ lacc acid •Lactoacidosis |
Metabolic Acidosis | •↓HCO3•Diarrhoea •loss HCO3•Lactoacidosis •Fasting/ Starvation or Diabetes •gain other acid ketones •Kidney failure •↓ H+excretion; pH > 7.45 •pH > 7.8 •Overexcited Nervous system •Tetanus → Convulsions |
Respiratory alkalosis | •↓ PCO2→ ↓ H+ → ↑ pH •Hyperventilation |
Metabolic Alkalosis | •↑ HCO3•Voming → ↓HCl •Diurecs → ↑ urine output •Alkaline drugs •Severe dehydration |
Buffers | Acid‐balance regulation •Fast working •Resist pH change •Maintain homeostatic range •Buffers can be acid or base •Various systems for different part of body; Buffers are compounds which maintain constant pH when acids or alkalis are added to them (they resist change in pH) |
Carbonic acid/bicarbonate | Important ECF buffer CO2+ H2O ↔ H2CO3↔ H+ + HCO3‐↔ H++ CO32 •Acts as both an acid and a base… •pH, HCO3‐and pCO2are all used to assess the acid/base status of a person System fails with respiratory system problems |
Haemoglobin in RBCs | •Transports O2 •Buffers CO2 CO2+ H2O → H2CO3 H2CO3→ HCO3‐+ H+ HbO2+ H+→ Hb‐H++ O2 |
Protein | Protein Buffer system •ICF and plasma •Amino acids •Release or take up H+ |
Other buffer systems | Ammonia •Kidneys NH3+ H+→ NH4+ NH4+ + Cl‐→ NH4Cl Phosphate Buffer system •ICF and Urine •H2PO4‐and HPO42 |
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