500 likes | 1.48k Views
Hypoxia. Zhihua Gao Zhejiang University. Overview. Review of respiration Measurements of O 2 Hypoxia definition classification, etiology, mechanism resultant changes in the body prevention and treatment. Respiration-a process of gas exchange. 1. O2 intake. External respiration.
E N D
Hypoxia Zhihua Gao Zhejiang University
Overview Review of respiration Measurements of O2 Hypoxia definition classification, etiology, mechanism resultant changes in the body prevention and treatment
Respiration-a process of gas exchange 1. O2 intake External respiration 2. Hb carrying O2 3. O2 transport in circulation 4. O2 utilization in the tissue
O2 dependence Large amount of O2 consumption ----250ml/min (360L/day) Small amount of O2 storage ----1.5L (sustain life only six minutes) Continuous hypoxia >6 min--life-threatening
Measurements of O2 (1) • PO2 (partial pressure of oxygen) 血氧分压 • Oxygen tension 血氧张力 • the tension produced by oxygen molecules physically dissolved in the blood • Arterial (PaO2): 100 mmHg (13.3kPa) • Venous (PvO2): 40 mmHg (5.33kPa) • Influence factors (IFs): • Pressure of O2 in the air (空气氧分压) • External respiratory function (外呼吸功能) • Shunt of blood (血液分流)
Measurements of O2 (2) • CO2max (oxygen binding capacity),最大血氧容量 • Maximal amount of oxygen that can be potentially bound by the haemoglobin (Hb), a reflection of the ability of Hb carrying O2. • Under ideal condition, the binding capacity is ~1.34 ml/g Hb • IFs: • Quantity of Hb (血红蛋白的量) • Quality of Hb or affinity of Hb (血红蛋白的质与亲和力)
Measurements of O2 (3) • CO2: (oxygen content), 实际血氧含量 • the actual O2 content in the blood, including the oxygen bound to the Hb and O2 dissolved in the blood. • Arterial CO2 (CaO2): 19 ml/dl • Venous CO2 (CvO2): 14 ml/dl • Differences of CO2 between arterial and venous (Da-vCO2): 5 ml/dl • IFs: • PaO2 • CO2 max-Hb quantity and quality
Measurements of O2 (4) • SO2 (oxygen saturation), 血氧饱和度 • the percentage of oxygen-bound form (oxyhemoglobin) in total Hb. • Arterial (SaO2): 97-99% • Venous (SvO2): 75% • IFs: • PO2 • pH, temperature • CO2, DPG
O2 saturation dissociation curve (SDC) Left shift Right shift A curve reflecting the relationship between the PO2 and SO2 S (sigmoid) shape SO2 , SDC left shift Hb affinity SO2 , SDC right shift Hb affinity
P50-a value indicating the felexibilty of Hb P50: the PO2 @ 50% SO2 Reflecting the flexibility of Hb carrying O2 SDC right shift , P50↑ SDC left shift, P50↓
Hypoxia Inadequate supply of O2 (氧供不足) Insufficient utilization of O2 (用氧障碍) Defintion: A pathological process in which O2 supply to tissues is inadequate to meet the demand of cells, or utilization of O2 is insufficient in cells despite adequate O2 supply, leading to changes in functions, metabolisms and structures of cells and tissues in the body.
Classification of hypoxia 1. O2 intake 1. Hypotonic hypoxia 2. Hb carrying O2 2. Hemic hypoxia 3. O2 transport in circulation 3. Circulatory hypoxia 4. O2 utilization in the tissue 4. Histogenous hypoxia
Hypotonic/hypoxic hypoxia(低张性缺氧) The most common type of hypoxia • Causes: • O2 supply • Tibetan Plateau, mineral wells • Dysfunction in external respiration, a.k.a respiratory hypoxia • Bronchial obstruction • Respiratory muscle paralysis • Venous-to-arterial shunts • Congenital cardiac defects
Hypotonic/hypoxic hypoxia Features: minor: PaO2↓;CO2 N Severe: PaO2↓; CO2max N, CaO2↓; SaO2↓ D(a-v)O2 ↓or N Central cyanosis Respiratory compensation
Cyanosis (发绀或紫绀) Deoxyhemoglobin >5g/dl(central cyanosis) Patients with hypoxia can show cyanosis, but cynosis does not mean hypoxia. Hypoxia patients may not have cyanosis. Enterogenous cyanosis (肠源性紫绀):
Hemic/isotonic hypoxia(血液性缺氧) • Hypoxia caused by abnormalities in hemoglobin (Hb) • Amount of Hb ↓ • Altered binding capacity of Hb • Causes: • Anemia • CO poisoning • Methemoglobinemia • Higher affinity of Hb to O2
Hb concentration &CaO2 relationship 300 100 polycythemia Hb = 20 100 200 normal Hb = 15 CaO2, ml/l 150 SaO2, % 100 anemia Hb = 10 20 60 100 120 PaO2 , mmHg
CO poisoning CO binds to Hb to form COHb, which cannot take up O2. Affinity of Hb to CO is ~210 times higher than O2, dissociation of CO from Hb is much slower than O2.
Methemoglobinemia (高铁血红蛋白血症) • 正常血红蛋白的铁主要以二价形式存在,亚硝酸盐,过氧酸盐、磺胺衍生物等氧化剂可使血红蛋白中的二价铁氧化成三价铁,形成高铁血红蛋白血症 (Methemoglobinemia,HbFe3+OH)。 • Central cyanosis (紫绀) v.s. Enterogenous cyanosis (肠源性紫绀): • 食用大量含亚硝酸盐的腌菜后,硝酸盐颈肠道细菌还原为亚硝酸盐,吸收入血后,使血红蛋白的二价铁氧化为三价铁,导致高铁血红蛋白血症。 • 当血液中HbFe3+OH>1.5g/dl, 皮肤,粘膜可出现青紫,为肠源性紫绀。
Hemic/isotonic hypoxia Features: Normal PaO2 CO2 max ↓and CaO2↓→O2 delivery to tissue ↓ CO2 max N but affinity ↑→ O2 release to tissue ↓
Circulatory/hypokinetic hypoxia(循环性缺氧) • Inadequate blood flow resulting in insufficient oxygenation of the tissue • Causes: • General circulatory dysfunction-shock, heart failure • Local circulatory dysfunction-stenosis, occlusion, thrombosis • Mechanisms---tissue perfusion ↓ • ischemia hypoxia (缺血性缺氧) • congestive hypoxia (充血性缺氧)
Features: a. PaO2: N PvO2↓ b. CaO2: N CvO2↓ c. CO2max: N d. SaO2: N e. (Da-vCO2)↑ f. Peripheral cyanosis (外周性紫绀) g. Respiratory compensation
Histogenous/dysoxidative hypoxia (组织性缺氧) Causes: Cell poisoningcyanide poisoning→histotoxic hypoxia Mitochondria injuryradiation ; ROS Inadequate synthesis of biological oxidation coenzymedeficiency of vitamin B2 or PP
Mechanisms: Aberrant biological oxidation or oxidative phosphorylation → deficiency in oxygen consumption →ATP↓.
Features:a. PaO2 = N, PvO2↑ b. CaO2 = N, CvO2↑ c. CO2max = N d. SaO2 = N e. (CaO2-CvO2)↓ f. No cyanosis g. No respiratory compensation
Features of different types of hypoxia Type PaO2 SaO2 CO2 max CaO2 D(a-v)CO2 Hypotonic hypoxia ↓↓ N ↓↓ or N Hemic hypoxia N ↓ or N↓ or N↓ or N ↓ Circulatory hypoxia N N N N ↑ Histogenic hypoxia N N N N ↓ Notes: ↓— decrease; ↑ — increase; N — normal.
Features of different types of hypoxia Hypotonic hypoxia: PaO2 Hemic hypoxia: Normal PaO2, altered Hb quantity and quality, CO2max or Circulatory hypoxia: Normal PaO2, Hb quantity and quality, blood flow Histogenous hypoxia: normal O2 supply to the tissue, O2 utilization
Metabolic and functional changes Respiratory system Circulatory system Hematologic system Central nervous system Tissues and cells
Respiratory system Compensatory reaction-hyperventilation (过度通气) PaO2 <8Kpa or 60 mmHg → chemoreceptors↑→respiratory rate and depth↑→ hypoxic ventilation reaction (HVR). Consequences:respiratory surface↑, O2 diffusion↑, PaO2&SaO2↑ More fresh air into the lung, PaO2 ↑,PCO2↓ blood volume returning to the heart↑
Injury manifestation High-altitude pulmonary edema Respiratory failure Severe hypoxia (PaO2 <30 mmHg)→ inhibition of respiratory center → slow and periodic or irregular breathing → stop of breathing.
Circulatory system Compensatory responses Cardiac output ↑ : tachycardia (心动过速) → arrhythmia → myocardial contractility↑ Pulmonary vasoconstriction → pulmonary arterial hypertension → right heart failure Redistribution of blood → ensure enough blood to heart and brain Capillary hyperplasia
Injury manifestation Pulmonary hypertension Decreased diastolic and systolic myocardial function Arrhythmia Decrease in Venous blood return to the heart
Hemic system Compensatory responses Rightward shift of oxyhemoglobin dissociation curve Increase of red blood cell and erythropoietin(EPO) Injury manifestation Blood viscosity ↑
Central nervous system Brain is highly sensitive to hypoxia. Blood redistribution to the brain PaO<28 mmHg, mental disorder Cerebral edema
Cell • Compensation: • increased ability to use O2 • anaerobic glycolysis ↑ • increase of myoglobin • Injury manifestation • cellular membrane injury • mitochondria impairment • lysosome breakage
Factors involved in tolerance to hypoxia Oxygen consumption rate Brain → oxygen consumption rate↑→ tolerance↓ Skin → oxygen consumption rate↓→ tolerance↑ Compensatory ability of the body
Prevention and treatment Inhalation of oxygen (氧吸入) Efficiency: Hypotonic hypoxia — the best Histogenous hypoxia —the worst When the patient inhaled high pressure of oxygen(PO2 is 2-3 times atmosphere) ,a series of toxic signs and symptoms was appeared, this condition is termed as oxygen toxication.
Oxygen toxication:1. Pulmonary oxygen toxication 2. Cerebral oxygen toxication The mechanisms of oxygen toxicity: Reactive oxygen species or oxygen free radicals .
学 习 目 标 与 内 容 掌握各项血氧检测指标的意义。 掌握缺氧概念,分类与特征。 掌握紫绀,肠源性紫绀的概念。 熟悉呼吸的基本过程。 熟悉机体对缺氧的代偿反应。 熟悉缺氧治疗的原则。 了解氧中毒概念。