| Enhanced capabilities overview |
For your infectious patients: Enhanced caregiver protection |
For your longer-term patients: Enhanced asynchrony management‡ |
For your acute patients: Enhanced lung injury protection§ |
For your NICU patients: Enhanced neonatal lung protection§ |
|---|---|---|---|---|
| Asynchrony management | ✔ | |||
| High-flow oxygen therapy | ✔ | ✔ | ✔ | |
| Lung protection management | ✔ | |||
| Interface pressure monitoring | ✔ | |||
| Automated ARDNSNet protocol reporting | ✔ | |||
| Remote ventilator access† | ✔ | |||
| Remote monitoring | ✔ | ✔ | ✔ | ✔ |
| Continuous ETT monitoring | ✔ | |||
| On demand training | ✔ | ✔ | ✔ | ✔ |
Asynchrony management
Help reduce asynchrony with IE Sync™ software.1 Part of our synchrony suite with PAV+™ software and Leak Sync software, IE Sync™ software provides multiple benefits, including:
- Improved triggering during air trapping1
- Enhanced ventilator synchrony for patients with airflow obstruction and weak inspiratory efforts1
See how IE Sync™ works:
Recommended for:
Longer-term patients
High-flow oxygen therapy
Enhance comfort for patients who may benefit from HFO2T software.2 This therapy delivers oxygen at higher flow rates than traditional oxygen therapy to help improve oxygenation. This option is available for neonatal and pediatric patients with flow rates up to 50 L/min, and for adult patients with flow rates up to 80 L/min.
Recommended for:
Longer-term patients, acute patients, non-intubated NICU patients
Automated ARDSNet protocol reporting
Automate your ARDSNet protocol reporting with the Vital Sync™ ventilator dashboard. While the ARDSNet protocol is the current standard of care for ARDS patients, the manual data gathering process is time and resource intensive. This robust software gathers and calculates daily minimum PEEP and FiO2 and produces reports to summarize protocol compliance.
Recommended for:
Acute patients
Lung protection management
Assess pressure delivery for your ARDS patients with PDRIVE software. This new displayed value in the patient data section quantifies the driving pressure (ΔP = VT/CRS), which may guide you in assessing the severity of the lung disease.3 It can also provide a means to titrate optimal delivered pressure while staying within safe published guidelines.4
Recommended for:
Acute patients
Interface pressure monitoring
Monitor pressure at the patient interface with NIV+ software. This software measures end inspiratory interface pressure and interface PEEP pressure to help reduce the uncertainty around pressure delivery to the patient. It also provides a more robust means of determining circuit disconnect, especially when leaks are present.
See how it works:
Recommended for:
Non-intubated NICU patients
Continuous ETT monitoring
Track neonatal endotracheal tube position with the SonarMed™ airway monitoring system.¶ This noninvasive, adjunctive device provides real-time continuous monitoring of endotracheal tube location and patency.5 It may help prevent unplanned extubations by assisting in monitoring movement and notifying of endotracheal tube location changes.5,6
Recommended for:
Intubated NICU patients
Remote monitoring
Monitor all your ventilated patients with the Vital Sync™ remote monitoring system.‡ This simplified platform helps you monitor your patients’ ventilator data from anywhere in your hospital. Quickly access the information you need to determine necessary interventions to support adequate respiratory function and facilitate multidisciplinary care.
Recommended for:
All patients
Coming soon: Remote ventilator access†
Access Puritan Bennett™ 980 ventilators remotely with Puritan Bennett™ 980 remote control.|| Now you can remotely view and adjust ventilator settings outside of a patient's room. This remote access may help reduce your staff’s exposure to pathogens and preserve valuable personal protective equipment (PPE) when caring for infectious patients.
Recommended for:
Infectious patients
*
Compared to conventional mechanical ventilation (VC,VC+,PC,PS)
†
During the Public Health Emergency, Puritan Bennett™ 980 remoter control software can be used to adjust ventilator settings for any patient that is connected to the ventilator.
‡
As additions to the feature set on the current Puritan Bennett™ 980 ventilator.
§
Compared with the Puritan Bennett™ 980 ventilator
||
The Puritan Bennett™ 980 (PB980) remote access feature is released in accordance with US FDA Enforcement Policy for Ventilators and Accessories and other Respiratory Devices during the Coronavirus Disease 2019 (COVID-19) Public Health Emergency (published in March 2020). The PB980 ventilator remote access feature has not been cleared by the US FDA and is provided only for the duration of the declaration that circumstances exist justifying the emergency use of this feature under section 564(b)(1) of the Act, 21 U.S.C. § 360bbb-3(b)(1), unless the authorization is terminated or revoked sooner.
¶
The SonarMed™ airway monitoring system should not be used as the sole basis for diagnosis or therapy and is intended only as an adjunct in patient assessment.
1
Internal engineering performance studies
2
Lee CC, Mankodi D, Shaharyar S, et al. High flow nasal cannula versus conventional oxygen therapy and non-invasive ventilation in adults with hypoxemic respiratory failure: A systematic review. Respir Med. 2016;121:100-108.
3
Pelosi P, Ball L. Should we titrate ventilation based on driving pressure? Maybe not in the way we would expect. Ann Transl Med. 2018 Oct; 6(19): 389. doi: 10.21037/atm.2018.09.48
4
Amato, M. Driving Pressure and Survival in the Acute Respiratory Distress Syndrome. N Engl J Med 2015; 372:747-755 doi: 10.1056/NEJMsa1410639
5
US FDA 510(k) Clearance K193058 (2019)– SonarMed Movement Study
6
Nacheli GC, Sharma M, Wang X, Gupta A, Guzman JA,Tonelli AR. Novel device (AirWave) to assess endotracheal tube migration: a pilot study. J Crit Care. 2013;28(4):535.e1-535.e5358. doi:10.1016/j.jcrc.2012.10.015