Hypoxia Hypoxia
Concept Oxgen supply = CaO 2 × Q Oxygen consumption = ( CaO 2 - CvO 2 ) × Q Tissue cells can’t obtain enough oxygen or can’t fully utilize oxygen metabolic, functional and structural changes
CO 2 - dissolved O 2 CO 2 max O 2 saturation ( SO 2 ) = × 100% SaO 2 95%, SvO 2 70% Parameters of blood gas Partial pressure of O 2 ( PO 2 ) PaO 2 100mmHg, PvO 2 40 mmHg O 2 content ( CO 2 ) = CO 2 max×SO 2 + dissolved O 2 CaO 2 19ml/dl, CvO 2 14ml/dl O 2 capacity ( CO 2 max ) = 1.34 ml/g × Hb g/dl
Dissociation curve of oxyhemoglobin Dissociation curve of oxyhemoglobin
Classification, etiology and pathogenesis 1. Hypotonic hypoxia — PaO 2 ↓ 1. Hypotonic hypoxia — PaO 2 ↓ Causes : 1) PiO 2 ↓ 2) pulmonary dysfunction 3) shunt Results : PaO 2 ↓→ SaO 2 ↓→ CaO 2 ↓ hypotonic hypoxemia, cyanosis ( PaO 2 - P M O 2 ) ↓ → ( CaO 2 - CvO 2 ) ↓ PaO 2 < 60mmHg → VO 2 ↓ ?
Results : CO 2 max↓↓ CaO 2 ↓↓ ( CaO 2 - CvO 2 ) ↓ P 50 ↓ ( CaO 2 - CvO 2 ) ↓ 2. Hemic hypoxia — CO 2 max 2. Hemic hypoxia — CO 2 max ↓ Causes : 1) anemia 2) carboxyhemoglobinemia 3) methemoglobinemia enterogenous cyanosis 4) P 50 ↓ : transfusion of depot blood
Result : Q↓↓→ CvO 2 ↓ → ( CaO 2 - CvO 2 ) ↑ Causes : general circulatory failure local circulatory disorder 3. Circulatory H — Q↓ 3. Circulatory H — Q↓ ·
4. Histogenous hypoxia Causes: 1) histotoxic H cyanide poisoning 2) cell injured by biological or physical factor 3) vitamin deficiency --- B 1 Result : CvO 2 ↑ → ( CaO 2 - CvO 2 ) ↓
What kind of hypoxia might occur in septic shock ?
Hypotonic hypoxia PaO 2 < 60mmHg → compensation < 30mmHg → severe disturbances Functional and metabolic alterations Functional and metabolic alterations
1. Respiratory system 1. Respiratory system Respiratory rate and depth ↑ arrive at 4000m high →ventilation ↑ 65% few days later → ventilation ↑ 5 – 7 times long residents → 15 % more than at sea level Hyperventilation→PaO 2 ↑→CaO 2 ↑ ↘ O 2 consumption ↑ occur in any type of hypoxia? Severe hypoxia→pulmonary edma ↘ Inhibition of respiratory center
2. Circularory system 2. Circularory system Cardiac output↑ due to: 1. cardiac contractility↑ 2. heart rate↑ 3. venous return↑ Redistribution of blood flow α-Adrenoceptor vasoconstriction Local metabolites vasodilation
Pulmonary vasoconstriction (HPV)→PaO 2 ↑ Sympathetic nerve Humoral factors — AT 、 ET 、 LTs 、 TxA 2 PGI 2 、 NO 、 histamine Direct effect of O 2 on SMC — Kv How to prove? Capillary proliferation --- VEGF
Severe hypoxia Myocardiac systolic and diastolic dysfunction Cardiac arrhythmia --- Hypoxia acidosis hyperkalemia Arrhythmia Venous return↓ Pulmonary hypertention right ventricle
3. Hemic system 3. Hemic system RBC↑--- erythropoitin P 50 DPG↑
4.Central nervous system 4.Central nervous system Acute H → headache 、 impaired attention Chronic H → sleepiness, depression Severe H → confusion, coma, convulsion due to : energy deficiency and acidosis decreased RMP abnormal neurotransmitter synthesis cell damage vasodilation and cerebral edema
5. Cellular alterations 5. Cellular alterations Adaptation Adaptation Ability to use O 2 ↑--- number of mitochondia, it’s enzymes Anaerobic glycolysis↑ ATP/ADP↓ → phosphofructokinase activity Low metabolic state --- caused by acidosis Myoglobin↑
Dissociation curve of oxymyoglobin and oxyhemoglobin
Cell membrane decreased permeability + ion pump dysfunction [ Na + ] i → Cellular swelling [ K + ] i ↓ → Synthetic metabolism↓ [ Ca 2+ ] i → Mitochondria damage ROS Lysosome damage Severe H → Cellular damage
Mitochondria Respiratory function ↑ (PmO 2 < 1mmHg) PmO 2 < 1mmHg dehydrogenase activity Lysosome Acidosis phospholipase activity hydrolases release
Factors influencing the tolerance to hypoxia Oxygen consumption rate Compensatory ability to hypoxia
Oxygen therapy and oxygen intoxication Oxygen intoxication --- PO 2 > 0.5 atm Cerebral type --- visual and auditory dysfunction, nausea, convulsion and coma How to differentiate it from hypoxic encephalopathy? Pulmonary type --- cough, dyspnea vital capacity , PaO2