A PATIENT INTERFACE AND A RESPIRATORY SUPPORT SYSTEM

Organization Name

Fisher & Paykel Healthcare Limited

Inventor(s)

Anton Kim Gulley of Auckland (NZ)

Andrew Paul Maxwell Salmon of Auckland (NZ)

Silas Sao Jin Siew of Auckland (NZ)

Jeremy Patrick Robertson of Auckland (NZ)

David Martin Russell of Auckland (NZ)

Philip Ian Rowe of Auckland (NZ)

Francis George Bridge of Auckland (NZ)

A PATIENT INTERFACE AND A RESPIRATORY SUPPORT SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240050682 titled 'A PATIENT INTERFACE AND A RESPIRATORY SUPPORT SYSTEM

Simplified Explanation

The abstract describes a nasal cannula interface for delivering gases to a patient. The interface includes a nasal cannula with a base portion and at least one prong that directs the gases to the patient's orifice. The interface also includes one or more sensors, such as a pulse oximeter, for measuring a parameter. These sensors can be mounted on the nasal cannula body or on headgear to which the body is connected. The sensors can be in contact with the patient's face and may be mounted in or flush with a cheek contacting portion of the interface.

• The nasal cannula interface supplies gases to a patient through a nasal cannula.
• The nasal cannula has a base portion and at least one prong that directs the gases to the patient's orifice.
• One or more sensors, such as a pulse oximeter, are included in the interface to measure a parameter.
• The sensors can be mounted on the nasal cannula body or on headgear.
• The sensors can be in contact with the patient's face and may be mounted in or flush with a cheek contacting portion of the interface.

Potential applications of this technology:

• Medical settings where gases need to be delivered to patients, such as hospitals, clinics, and home healthcare.
• Monitoring the patient's vital signs, such as oxygen saturation levels, during gas delivery.

Problems solved by this technology:

• Provides a comfortable and efficient way to deliver gases to a patient through the nasal cannula.
• Allows for the measurement of important parameters, such as oxygen saturation levels, during gas delivery.
• Provides a secure and reliable interface for attaching sensors to the nasal cannula.

Benefits of this technology:

• Improved patient comfort and compliance due to the efficient delivery of gases through the nasal cannula.
• Real-time monitoring of vital signs allows for timely intervention if any abnormalities are detected.
• Easy attachment and removal of sensors to the nasal cannula interface.
• Versatile design that can be used in various medical settings.

Original Abstract Submitted

a nasal cannula interface is provided for supplying a gases flow to a patient comprising: a nasal cannula defining at least a portion of a gases flow path and comprising a body having a base portion and at least one prong extending from the base portion, the at least one prong being configured to direct the gases flow to an orifice of the patient, and one or more sensors configured to measure a parameter. the one or more sensors may comprise a pulse oximeter. the one or more sensors may be mounted on the nasal cannula body, or headgear to which the body is connector. the one or more sensors may be configured to be in contact with the face of the patient, and may be configured to be mounted in and/or substantially flush with, a cheek contacting portion of the interface.