Location History:
- Le Locle, CH (2001)
- Ruedes Jeanneret, CH (2002)
Company Filing History:
Years Active: 2001-2002
Title: Innovations by Isabel Ortega in Respiratory Therapy Devices
Introduction
Isabel Ortega is a prominent inventor based in Ruedes Jeanneret, Switzerland. She has made significant contributions to the field of respiratory therapies, particularly through her innovative designs in liquid droplet spray devices. With a total of 2 patents, her work is paving the way for advancements in inhalation technology.
Latest Patents
Isabel Ortega's latest patents include an optimized liquid droplet spray device for inhalers suitable for respiratory therapies. This device features a housing formed by a superposition of a first and second substrate, creating a space for containing a liquid substance. The device utilizes vibrating means to apply frequency vibrations to the liquid, generating a fine droplet spray. The outlet means are designed to ensure that the output nozzles are positioned on the vibration mode peaks of the standing wave pattern, allowing for minimal retention and optimal flow of the substance. Another notable patent is a liquid droplet spray device that incorporates a micromachined substrate, which includes an inlet channel for supplying liquid and an outlet structure for ejecting a mono-dispersive droplet spray. This design allows for precise control over the amount of liquid ejected, enhancing the predicted lung deposition of droplets.
Career Highlights
Isabel Ortega is currently employed at Microflow Engineering SA, where she continues to develop innovative solutions for respiratory therapies. Her work is characterized by a strong focus on improving the efficiency and effectiveness of inhalation devices.
Collaborations
Isabel collaborates with talented individuals such as Joseph Hess and Hu Bo, contributing to a dynamic team environment that fosters innovation and creativity.
Conclusion
Isabel Ortega's contributions to the field of respiratory therapy through her innovative patents are noteworthy. Her work not only enhances the functionality of inhalation devices but also improves patient outcomes in respiratory treatments.