Sophie

The great challenge in non-invasive ventilation of newborns and premature babies is to adapt ventilation and oxygen saturation to the current patient situation as far as possible in real time. This is exactly what the SOPHIE can do automatically. Thanks to state-of-the-art sensor technology, it immediately recognises when breathing or oxygen fraction changes and adjusts the therapy parameters accordingly. With integrated high-frequency oscillation and breathing gas humidification, SOPHIE covers the broad spectrum of requirements for safe ventilation. And all this without the need to change the patient tubing system.

Description
Advantages

3 devices in 1 -  Simply activate Functions at the Push of a Button

Conventional respirator, high frequency oscillator and humidifier – Sophie is more than just a device for NIV ventilation. It is capable of providing the essentials for the care of premature infants in this environment and allows activation and deactivation of functions depending on your needs and the situation.

  • Rapid adaptation of ventilation therapy to the child’s situation
  • No disconnection caused by unnecessary changes of the patient tube system
  • Easy, fast and safe through an intuitive operating concept

Optimum synchronisation of ventilation through an abdominal respiration sensor 

Typical for premature and newborn infants: they like to move, pull up their legs, stretch their little arms. However, this also means that their breathing changes constantly. Sophie’s respiratory sensor converts the infant’s movements into a stable and responsive trigger signal. Ventilation is adapted automatically.

  • Optimized synchronization of the child’s breathing under NIV ventilation
  • Preventing Air Leak Syndrome and bronchopulmonary dysplasia
  • Significantly reduced rate of reintubation

Always the appropriate oxygen saturation - automatic SpOControl

SPOC is the name of the SpO2 controller already integrated in Sophie which automatically ensures optimum oxygen saturation. For a detailed overview of the therapy, all parameters of the SPOC SpO2 controller are displayed in two concise trend curves for up to 24 hours.

  • Prevent brain damage and blindness: through real-time oxygen saturation adjustment
  • To control ventilation and arterial oxygen saturation, all it takes is a single sensor for measuring preductal oxygen saturation
  • The ideal combination: significantly reduced nursing effort and improved patient safety

Accurate measurement- An electronic flow sensor for precise data collection

The heated electronic flow sensor enables precise measurement of flow and calculation of volume. The electronics reduce false readings due to moisture in the system and the data is reliably transmitted to the ventilator over a long period of time. The sensor is available as a disposable and reusable product and thus offers maximum flexibility.