Anesthesia is the sensation of being free from pain or awareness of sensory stimuli. It is a feeling of insensibility to physical or emotional pain.

Anesthesia Circuit & Ventilator Circuits offered comprise a breathing system including a vital set of components that assist in connecting a patient’s airway to an anesthetic machine, thus providing for an artificial breathing atmosphere.

Anesthesia Circuit

The anesthesia circuit is a device that provides anesthesia gas to the patient through a breathing tube and prevents its escape into the operating room (OR).

The complete setup comprises a fresh gas entry port that allows gases to be delivered from machine to system, a gas reservoir in form of a bag or corrugated tube, corrugated tubes for connecting components, and others. The precision construction of all these aids ensures their superior functional performance.

Anesthesia circuits are typically used in modern surgery rooms for general anesthesia, regional anesthesia, and sedation. Airway management devices are connected to the anesthesia circuit. The surgical field is divided into a left and right half, with an anesthesia gas line running from one side of the operating table to the other.

In addition, an anesthesia gas line from the breathing machine runs through a rubber tube which can be inserted into either side of the patient’s mouth and nose as needed. The patient can breathe normally through a nose-mouth cover or an oxygen face mask.

After all, the surgery is completed and the patient is asleep, the breathing machine will be turned off and the anesthesia circuit will be opened up so that breathing can resume.

Ventilator Circuit

Ventilator circuits are used in hospitals to provide life-sustaining respiratory assistance. Ventilator circuits are complex systems that can be made up of many different parts. They work by delivering air to the lungs and removing carbon dioxide from them.

A ventilator circuit is a lifesaving machine that provides respiratory assistance to patients who cannot breathe on their own. Ventilators have many parts, and they work by delivering air into the lungs and removing carbon dioxide from them.

Ventilators are complex machines, with many advantages and disadvantages that need to be considered before purchasing one for a hospital or clinic.

Pulmonary artery catheter (PAC)-Esophageal pressure transducer-Defibrillation electrodes-Heated humidifier or heated gas blanket-Therapeutic humidifier or water vaporizer -Blood pressure cuff-Oxygen mask with reservoir bag.-Percussive cardiorespiratory monitor.

A ventilator circuit is a complex system that can be made up of many different parts, including the pulmonic artery catheter, esophageal pressure transducer, defibrillation electrodes, heated humidifier, or heated gas blanket.