Anesthetic Vaporizers are used in the administration of volatile anesthetics. The device works by controlling the vaporization of the liquid anesthetic agent and delivering a reliable concentration to the subject.
Conduct Science offers Anesthetic Vaporizers.
Anesthetic vaporizers are used in the administration of volatile anesthetics. The device works by controlling the vaporization of the liquid anesthetic agent and delivering a reliable concentration to the subject.
- Automatic flow rate and temperature compensation.
- Flow rate 0.2-10,000cc/min and temperature 10-35℃
- Safe and reliable tanks with 50kPa pressure tolerance.
- 120cc Liquid capacity
- Output precise and adjustable concentration
- Integrated safety lock to prevent unintentional engagement.
- A large sight glass for at-a-glance liquid level monitoring.
- Use with Isoflurane 0-5% output or sevoflurane 0-8% output,
- Pour-fill and easy attachment-fill styles are available for each vaporizer.
Anesthetic vaporizers are used in the administration of volatile anesthetics. The device works by controlling the vaporization of the liquid anesthetic agent and delivering a reliable concentration to the subject. These devices manage the delivery of the anesthetic concentration by taking into account the varying ambient temperature, fresh gas flow, and agent vapor pressure.
Modern vaporizers have come a long way since their initial open mask design. Classification of vaporizers can be based on many factors such as the method of output regulation and method of vaporization; however, in clinical research, the primary interest is in the deliverance of precise concentration of the anesthetic agent. Vaporizers that allow accurate selection of the final concentration of the agent are known as precision vaporizers.
Apparatus and Equipment
Conduct Science’s vaporizer system has 120 cc liquid capacity with a large sight glass to allow liquid level monitoring at-a-glance. The apparatus has automated flow rate (0.2 to 10,000 cc/min) and temperature compensation (10° to 35° C) capabilities and is equipped with 50kPa pressure tolerance tanks. To prevent unintentional engagement, the system comes with an integrated safety lock. These vaporizers are designed to be used with isoflurane (0 to 5% output) and sevoflurane (0 to 8% output) and are available as pour-fill and easy attachment-fill style.
The vaporizer system is composed of a concentration control dial, the bypass chamber, the vaporizing chamber, the filler port, and the filler cap.
Vaporizers are designed to be used with specific anesthetic agents and are equipped with filling systems to enforce the same. The filler tubes are agent-specific. The fittings on the vaporizer and the collar of the bottles are specific to the agent too. This precaution is built into the design to prevent the mixing of the anesthetic agents.
Most modern vaporizers can be seen fitted to the back bar of the anesthetic machines using special mounting systems. These set-ups allow a quick and easy exchange of vaporizers between anesthetic machines. Although multiple vaporizers can be fitted to the anesthetic machine, as a cautionary measure most back bar systems restrict usage to only one vaporizer at a time.
Mode of Operation
The variable bypass vaporizers are the most commonly used vaporizes. Their working principle involves splitting the fresh gas flow and saturating a small portion completely with the volatile anesthetic before recombining into the main gas flow. This process is achieved by setting the anesthetic concentration using the control dial and the pressurized chamber of the plenum vaporizers. These devices are also equipped with thermo-compensation capabilities for a steady vaporizer output.
To ensure the appropriate working of the plenum vaporizer systems, it is important that the system is supplied with pressurized gas. The vaporizer must be correctly attached, and locking mechanisms must be fully engaged to avoid any leakage of the agent and the gas. Vaporizers must not be overfilled or underfilled to prevent failure of the vaporizer systems. It is also important to ensure that the correct anesthetic agent is used to prevent over- or under-dosing the subject. Regular servicing of the vaporizer is also critical for its proper functioning.
- Chakravarti S, Basu S (2013). Modern anaesthesia vapourisers. Indian J Anaesth. 57(5):464-71. DOI: 10.4103/0019-5049.120142.
- Fish, R. E. (2008). Anesthesia and Analgesia in Laboratory Animals. Amsterdam: Elsevier.
- Flecknel, P. (2009). Laboratory Animal Anaesthesia. Elsevier.
Frequent Asked Questions
The vaporizer is standalone and it comes with an inlet and outlet caps.
When using a small animal anesthesia machine and when adding inhalation anesthetics to the evaporation tank, there are three ways to choose:
- Pour-Fill dosing method (IP): When the Pour-Fill evaporation tank needs to be dosed, open the cap of the anesthetic bottle and pour the anesthetic directly into the dosing port of the evaporation tank at an appropriate flow rate.
- Easy-Fill dosing method (IE): Easy-Fill evaporation canister needs to use the dosing adapter. When using it, you need to install the dosing adapter to the anesthetic bottle first, align the adapter to the evaporation can’s dosing port, and press the anesthetic bottle At the end, the sealed dosing can be realized.
- Key-Fill dosing method (IK): Key-Fill evaporation tank requires a key filling adapter, which can be inserted into the evaporation tank to ensure slow dosing and minimize the waste of anesthetics. This method is a completely enclosed dosing method.
The Vaporizer can be installed in two options:
- Cagemount: conventional loading inlet and outlet ports, fixed by screws.
- Selectatec: Suspended component installation, evaporator knob adjustment, ready to take away.
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