| Customization: | Available |
|---|---|
| Type: | Etco2 Sensor Module |
| Material: | TPU Jacket Cable; Medical PVC Strain Relief; |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
Clinical significance of ETCO2 monitoring:
The monitoring of end-tidal carbon dioxide plays a great role in diagnosing some respiratory diseases and evaluating the degree of respiratory function damage. In addition to the therapeutic significance of the disease itself, it is more important to guide the respiratory management during the operation, first aid resuscitation, etc.
1. Safe application of anesthesia machines, ventilators and monitors.
2. Various types of respiratory insufficiency.
3. Cardiopulmonary resuscitation.
4. Severe shock.
5. Heart failure and pulmonary infarction.
6. Determine the position of endotracheal intubation under general anesthesia.
Clinical evaluation
When using ventilators, anesthesia machines, and monitors, adjust ventilation based on ETCO2 measurements to keep ETCO2 close to preoperative levels. Monitoring its waveform can also determine whether the endotracheal tube is in the airway. For those who are undergoing mechanical ventilation, such as air leakage, catheter distortion, tracheal obstruction and other faults, the ETCO2 number and shape changes and alarms can be immediately detected and dealt with in time. Continuous monitoring provides the basis for safe weaning from mechanical ventilation. Malignant hyperthermia, elevated body temperature, and intravenous injection of a large amount of NaHCO3 can increase the production of CO2, increase ETCO2, and increase the amplitude of the fluctuation. In the event of shock, cardiac arrest, pulmonary air embolism or thrombus infarction, the reduction of pulmonary blood flow can rapidly decrease the depth of CO2. to zero. ETCO2 also helps to judge the effectiveness of CPR. If ETCO2 is too low, factors such as hyperventilation should be excluded.
){kind=link}