Product Information 
 
Product Brochure - All Markets (English)
- InSpectra StO2 System utility in Trauma, Perioperative, and Emergency Medicine Markets
- How StO2 readings are obtained

 
Product Brochure - Trauma (English)
- Product features and benefits for trauma  
- Clinical evidence in trauma
 
 
InSpectra StO2 Tissue Oxygenation Monitor User Manual (English / French / German / Italian / Spanish) / (Russian)
- Instructions for using the InSpectra StO2 Monitor
- Technology Description including Technical Specifications, Maintenance, and Troubleshooting
  
 
User Manual for interfacing the InSpectra StO2 Tissue Oxygenation Monitor model 650 with Philips Patient Monitoring Systems (English / French / German / Italian / Spanish)
- Instructions to display the InSpectra StO2 System Measurement on a Philips Patient Monitoring System
- Troubleshooting Guide
 
Connectivity to a Philips Patient Monitoring System (English)
- Connect and enable the system
- Feature / Benefit table
 
  
InSpectra StO2 System Check - Instructions for Use (English / French / German / Italian / Spanish)
- Instructions for using the InSpectra StO2 System Check 
- Technology Description - Technical Specifications, Maintenance, and Troubleshooting
 
 
InSpectra StO2 Sensor - Instructions for Use (English / French / German / Italian / Spanish)
- Sensor connection to InSpectra StO2 System
- Positioning the InSpectra StO2 to receive patient measurements
 
 
 
Clinical Information
 
What is InSpectra StO2 In-Service Booklet (English) / (French) / (German) / (Italian) / (UK) / (Russian)
- How is InSpectra StO2 measured?
- Includes an overview of system components and a case study 
  
StO2 Monitoring in Emergency and Critical Care Environments (English)
- Introduce a new vital sign for the 21st Century
- How the InSpectra StO2 System can provide critical value to clinicians
 
 
Economic Model (English) 
- ICU Length-of-Stay and the cost of MODS
- Charges attributable to MODS
 
 
Cost of Hemorrhagic Shock (English)
- Potential cost-reducing role of InSpectra StO2 System
- Relationship of patient charges to hemorrhagic shock severity
  
 
 InSpectra StO2 Economics - Sepsis (English) / (UK)
 - Utility of the InSpectra™ StO2 System in sepsis hypoperfusion
 - Total # of Sepsis Patients vs. Additional % of Sepsis Patient Capture
 
 
 InSpectra StO2 Economics - Hemorrhage (English) / (UK)
 - Utility of the InSpectra™ StO2 System in hemorrhage hypoperfusion
-  # of Hemorrhage Patients vs. % Reduction of Hemorrhage Advancing into Shock
  
 
 InSpectra StO2 Economics - Transfusion (English)
 - Utility of the InSpectra™ StO2 System in transfusion hypoperfusion
-  # of Transfusion Patients vs. % Reduction in Transfusions
 
 
Early Treatment Economics (English)
- Clinical strategies and costs analysis for Sepsis, Hemorrhage, and Transfusion
- Early treatment recognition can lead to improved outcomes with reduced costs
 
 
Hemoglobin Oxygen Saturation Matrix (English) / (French) / (German) / (UK)
- Place and method of measurement
- What values are assessed
 
 
Identifying Hypoperfusion in Hypothermic Trauma Patients (English) 
- Assessing subtle changes in O2 delivery
- Detecting mortality and MODS in hypothermic patients
 
 
Predicting Poor Outcome in Massive Transfusion Patients (English) 
- Utility of InSpectra StO2 in MT trauma patients
- Guiding resuscitation upon TC arrival (hours 1-3)
 
 
StO2 Bibliography (English)  / (UK)
- Abstracts supporting near infrared measurement of StO2
- Hemorrhage/Hypovolemia, sepsis and proof of concept 
 
 
StO2 and Blood Transfusion (English)
- Forecasting the need
- Summary of predictive results 
 
 
Guidelines for Use - Trauma (English) / (UK) 
- Setting-up and evaluation and identifying patient populations
- Expectations of StO2 based on current evidence


 
To learn more, contact us directly.





The InSpectra™ StO2 Tissue Oxygenation Monitor provides a noninvasive, continuous, real-time, and direct measurement of hemoglobin oxygen saturation in tissue (StO2), providing trauma teams the ability to measure tissue oxygen saturation and monitor it during resuscitation. It is the only perfusion status monitor designed for trauma environments. The InSpectra StO2 Tissue Oxygenation Monitor uses near infrared light to illuminate tissue, and then analyzes the returned light to produce a quantitative measurement of oxygen saturation in the tissue's microcirculation.

The StO2 Trauma Study researched the role that tissue oxygen saturation monitoring could play in hemorrhagic shock and resuscitation. Study results demonstrate that StO2 measurements less than 75% may indicate serious hypoperfusion in trauma patients and that StO2 functions as well as base deficit in indicating hypoperfusion in trauma patients.