| Item number | Description | Units per box |
|---|---|---|
| CS08657-03 | Monitor with printer | 1 |
| CS08651-03 | Monitor (without printer) | 1 |
| BP01000 | Battery Pack | 1 |
| 10002385 | Roll stand, handle and basket | 1 |
| 10003482 | Wall channel, vertical | 1 |
| 10003484 | Wall channel, vertical with 12 in pivot arm | 1 |
Bedside capnography monitors
Capnostream™ 20p bedside capnography monitor
Bedside capnography monitors
Capnostream™ 20p bedside capnography monitor
The Capnostream™ 20p patient monitor with Microstream™ technology provides a complete measurement of a patient’s oxygenation and ventilation status.
Description
An accurate and continuous view of ventilation
The Capnostream™ 20p patient monitor is built on a legacy of proven performance. For nearly two decades, clinicians have relied on Microstream™ technology for an accurate, reliable view of ventilation adequacy on intubated and non-intubated patients, from neonate to adult.1
The Capnostream™ 20p monitor, with the apnea-sat alert feature, alerts caregivers to repetitive patterns of apneas and oxygen desaturation, revealing a more complete picture of a patient’s respiratory status.
Features
- The dual parameter monitor supports current standards of care by providing etCO2 and SpO2 measurements.
- The monitor is compatible with central monitoring systems and interfaces with nurse call systems and electronic medical records.
- Smart Alarm Management™ integrated algorithms2,3 include Smart Alarm Management™ integrated algorithms, a suite of algorithms proven to reduce alarms and simplify the use of patient monitoring to enhance patient safety and improve clinical efficiency.4
- Smart Breath Detection™ (SBD) screens out low amplitude "non-breath" etCO2 excursions like talking, crying, or snoring.
- Smart Alarm for Respiratory Analysis™ (SARA) reduces 53% of clinically insignificant, unactionable nuisance alarms.5
- Nellcor™ SatSeconds alerts clinicians to clinically significant changes in pulse oximetry.
- Integrated Pulmonary Index™ algorithm (IPI) presents one value demonstrating real-time respiratory status based on etCO2, RR, PR, and SpO2.†
- Apnea-Sat Alert™ algorithm (ASA)‡ tracks and reports apneas per hour and oxygen desaturation index and provides the data in trend reports.
Specifications
| Power supply | |
|---|---|
| Input voltage | 100-240VAC, 50/60Hz |
| Fuses | Two F3.15A 250 volt |
| Input power | 90 VA |
| Battery | |
| Battery type | 14.4V, 4.5Ah lithium-ion |
| Battery operation | 2.5 hours (without thermal recorder) |
| Battery charging time | 100% in 12 hours |
| Controls | |
| Front panel | 1 switch for monitor on/off control 4 specific function keys 1 optical encoder with switch |
| Display | |
| Screen | 162 mm (6.4 in) color TFT display Pixel pitch: 0.204 (horizontal) x 0.204 (vertical) mm Active display area: 130.56 (horizontal) x 97.92 (vertical) mm (5.14 x 3.86 in) Resolution: 640 x 480 pixels Viewing angle: (vertical) 110 degrees Viewing angle: (horizontal) 140 degrees |
| Trace speed | 3.0, 6.3, 12.5, and 25 mm/second |
| Waveform sampling rate | 75.7 samples/second for SpO2 (fixed) 20 samples/second for capnography (fixed) |
| Trend storage | 8640-point storage 12 hours at 5 seconds resoltuion 24 hours at 10 seconds resolution 72 hours at 30 seconds resolution |
| Trend display | Graphical display: 2-hour, 6-hour, 12-hour views Tabular display intervals: 60 minutes, 15 minutes, 3 minutes, and minimum resolution (minimum resolution settable to 5, 10 or 30 seconds) |
| Microstream™ capnography | |
| CO2 units | mmHg or kPa or Vol% |
| CO2, etCO2 FiCO2 range | 0–150 mmHg |
| CO2, waveform resolution | 0.1 mmHg |
| EtCO2, FiCO2 resolution | 1 mmHg |
| CO2 accuracy | 0–38 mmHg: ±2 mmHg 39–150 mmHg: ± (5% of reading + 0.08 for every 1 mmHg above 38 mmHg) |
| Respiration rate range | 0–150 bpm |
| Respiration rate accuracy | 0–70 bpm: ±1 bpm 71–120 bpm: ±2 bpm 121–150 bpm: ±3 bpm |
| CO2 alarms | No breath, etCO2 High, etCO2 Low, RR High, RR Low, Integrated Pulmonary Index™ algorithm (IPI). IPI also requires pulse oximetry information |
| Flow rate | 50 (42.5 ≤ flow ≤ 65) mL/minute, flow measured by volume |
| Waveform sampling | 20 samples/second |
| Response time | 2.95 seconds (typical); with use with sampling lines with long tubing, ~5.0 seconds |
| Initialization time | 40 seconds (typical) |
| Calibration interval | Initially calibrate after 1,200 operating hours, then once a year or after 4,000 operating hours, whichever comes first |
| Nellcor™ pulse oximetry | |
| SpO2 measurement range | 1 to 100% |
| SpO2 accuracy | |
| Neonatal to adult | Saturation (% SpO2 ±1 SD) Without motion: 70 to 100% +/- 2 digits With motion: 70-100% +/- 3 digits |
| Low perfusion | 70 to 100% ±2 digits 20 to 250 bpm ±3 digits |
| Alarms | Adjustable alarm limits SpO2 High, SpO2 Low, PR High, PR Low |
| Nellcor™ SatSeconds alarm management range | 10, 25, 50, 100 |
| Data output and connectivity | |
| Data output | USB storage to flash memory devices Analog output for use in sleep labs and other laboratory enviornments Serial port (RS-232) for data transfer |
| Connectivity options | Vital Sync™ virtual patient monitoring platform connectivity option Profox™* respiratory oximetry software Nurse call Nuvon VEGA™* system iSirona™* system Capsule™* system Cerner™* system Epic™* system |
Frequently asked questions
Ordering information
Resources
Videos
Capnostream™ 20p Monitor Troubleshooting Tips (03:32)
Capnostream™ 20p monitor buttonology (07:00)
Related links
The Microstream™ capnography monitoring system should not be used as the sole basis for diagnosis or therapy and is intended only as an adjunct in patient assessment.
TM* Third-party brands are trademarks of their respective owners.
† SpO2 data from host required.
‡ Apnea-Sat Alert™ algorithm is FDA cleared for adults 22 years of age or older.
- Maddox Ray R, Williams Carolyn K, Oglesby Harold, Butler Betty, Colclasure Bernie. Clinical experience with patient-controlled analgesia using continuous respiratory monitoring and a smart infusion system. Am J Health Syst Pharm. 2006;63(2):157-164.
- ECRI Institute. The hazards of alarm overload. Keeping excessive physiologic monitoring alarms from impeding care. Health Devices. 2007;36(3):73–83.
- Hockman S, Glembot T, Niebel K. Comparison of capnography derived respiratory rate alarm frequency using the SARA algorithm versus an established non-adaptive respiratory rate alarm management algorithm in bariatric surgical patients. Respir Care. 2009;54(11):1582.
- Ronen M, Weissbrod R, Overdyk FJ, Ajizian S. Smart respiratory monitoring: clinical development and validation of the IPI™ (Integrated Pulmonary Index) algorithm. J Clin Monit Comput. 2017;31:435–442.
- Internal test data on file.