Overview

Proven Technology, State-of-the-Art Design

The Nellcor™ bedside respiratory patient monitoring system, PM1000N incorporates the latest Nellcor™ digital signal processing and cardiac-based technology for accurate, reliable readings. Because Nellcor™ pulse oximetry is closely tied to patient physiology, it drives consistent performance during various challenging conditions, such as patient movement, noise, and low perfusion which can impede the assessment of patient respiratory status. The patient monitoring system is also cleared as a motion-­tolerant bedside pulse oximeter that is compliant with ISO 80601--­2--­61.

Available with respiration rate along with SpO2 and pulse rate, the system provides easy access to the status of a patient's oxygenation and respiration. With its intuitive, easy-to-read, graphical user interface and state-of-the-art color touch screen, this monitoring system provides clinicians with easy access to the critical information they need for patient care. The system provides continuous SpO2, pulse rate and respiration rate monitoring, SatSeconds alarm management, and Saturation Pattern Detection (SPD) alert, so clinicians may detect respiratory complications earlier and, therefore, intervene sooner. 

Respiratory Compromise is Common, Costly and Deadly

Learn more about the dangers of respiratory compromise.

Learn More

Product Features

  • Modular software, expandable parameters and easy upgrades to help ensure long­term functionality
  • State-of-the-art, lightweight and versatile design
  • Multiple connectivity options
  • Includes Nellcor™ respiration rate technology, which delivers oxygen saturation (SpO2), pulse rate, and respiration rate through a single finger sensor.
  • Nellcor™ pulse oximetry with Oximax™ technology has accuracy claims of +/- 2% in the standard ranges of 70% to 100% saturation, and best-in-class LoSat accuracy claims of +/- 3% of 60% to 80%, enabling clinicians to accurately assess patients’ oxygen saturation.
  • The speed of measuring oxygenation and displaying the value has been shown to be clinically important. In two published papers, clinical studies employed different sequences for sensor application and connection to the patient; Nellcor OxiMax™ technology responded fastest to changes in neonate patients.1,2
  • Medtronic received FDA clearance for a motion-tolerant pulse oximeter portfolio that is also compliant with ISO 80601-2-61. Motion tolerant pulse oximetry is critical for ensuring patient safety because patient movement can thwart accurate readings and delay diagnosis of serious respiratory compromise.

How to Order

For additional information or to place an order, call Customer Service at +44 (0) 19 2320 2504.

Order Information
Order Code Description Unit of Measure Quantity
PM1000N Nellcor™ Bedside Respiratory Patient Monitoring System Box 1
Performance
Measurement Range
SpO2 1% to 100%
Pulse rate 20 to 250 beats per minute (bpm)
Pulse amplitude 0.03% to 20Accuracy
Accuracy
Saturation
Adult 70% to 100% ±2 digits
Adult and neonate low sat 60 to 80% ±3 digits
Neonate 70 to 100% ±2 digits
Low perfusion 70 to 100% ±2 digits
Adult and neonate with motion 70 to 100% ±3 digits
Pulse rate  
Adult and neonate 20 to 250 bpm ±3 digits
Low perfusion 20 to 250 bpm ±3 digits
Adult and neonate with motion 20 to 250 bpm ±5 digits
Electrical
Instrument
Power requirements 80-263 VAC, 47/63 Hz, 30 VA power
Fuse rating Slow blow 1.5A 250V
Battery  
Type Li-Ion
Battery capacity 6 hours under nominal load conditions
Environmental
Operating Temperature
Instrument 5°C to 40°C (41°F to 104°F)
Transport/Storage Temperature (in shipping carton) -40°C to 70°C (-40°F to 160°F)
Operating Humidity
15% to 95% noncondensing
Operating Altitude
-304.8 m to 4572 m (-1000 ft to 15,000 ft)
Physical Characteristics
Weight
3.4kg (7.5 lbs)
Size
254 H x 165 W x 127 D (mm)
10 H x 6.5 W x 5 D (in)
Equipment Compliance
Standards Compliance
EN ISO 80601-2-61 2011
EN IEC 60601-1 2005
EN IEC 60601-1-2 2007.03.01 3rd edition
EN IEC 60601-1-2 2nd edition
IEC 60601-1-8: 2006 and EN 60601-1-8:2007  
EN IEC 60601-1-9 2007
ISO 10993-1: 2003
CAN/CSA C22.2 No. 60601-1:08  
WEEE 2002/96/EC  
RoHS directive 2011/65/EU

Equipment Classifications
Type of protection against electric shock Class 1 (internally powered)
Degree of protection against electric shock Type BF - Applied part
Mode of operation Continuous
Electromagnetic compatibility IEC 60601-1-2:2007 3rd edition
Liquid ingress IPX1
Degree of safety Not suitable for use in the presence of flammable anesthetics
Output
Stores up to 48 hours of trend data readings that can be downloaded for analysis and archive
Capability to connect to both wired and wireless LAN networks
Capability to connect to Philips Vuelink Module and Nurse Call via wired serial port
Capability to download trend data to PC
Display/Indicators
Pulse Amplitude Indicator (16 segments)
Plethysmographic waveform
Real time numbers
Real time trend data
Multiple alarm conditions
Up to 3 alarm conditions simultaneously
SatSeconds Alarm Management
OxiMax SPD Alert
Battery Charging
Clock
Event Marker
Histogram Display
Clinical Log
Neonatal Default Mode
Alarms
Audible and visual alarms for high/low saturation and pulse rate
SatSeconds Alarm Management settings: 10,25,50 and 100, or OFF
Saturation Pattern Detection sensitivity setting: 1,2,3 or OFF
Pulse Rate Delay settings: 5, 10 or OFF
Audible and visual warning indicators for low battery and sensor off
Audible and visual sensor disconnect alarms
Communication failure visual alarm
Backup audible alarm
Variable pitch beep tone for point-by-point changes in SpO2
User configurable sensor alarm prioritization
Optional Accessories
GCX mounting adapter
Interface cable

Order Information

Product Technology

The Nellcor™ bedside respiratory patient monitoring system provides SpO2, pulse rate, and respiration rate monitoring through a single finger sensor as well as SatSeconds alarm management, so clinicians may detect respiratory complications earlier and, therefore, intervene sooner.

The monitor also features Saturation Pattern Detection (SPD) alert for automated, real-time detection of desaturation patterns indicative of repetitive reductions in airflow. As an institution’s needs change, the system’s highly modular software and hardware can be upgraded on-site with new features and parameters, offering long-term functionality.

The system memory stores up to 48 hours of trend data at one second intervals. Clinicians can view the data in real-time, as historical trend data in graphical and tabular views, or download the data to a USB flash drive. With both real-time and trend data, clinicians get a complete picture of patient progress and are better informed to make treatment decisions.

  • Provides easy access to critical information via a stand-alone bedside monitor with SpO2, pulse rate, and respiration rate parameters
  • Numbers and trend data are provided and clearly displayed in real-time
  • Stores up to 48 hours of trend data readings at one-¬second intervals in memory that can be stored on a PC for analysis and archiving
  • Audible and visual alarms for low and high respiration rate
  • Includes the Saturation Pattern Detection alert (SPD) that provides a real-time indication of the presence of repetitive reductions in airflow (RRiA) through an adult patient’s upper airway and into the lungs
  • Field-upgradable via a USB port for feature enhancements/improvements or new parameters, including Nellcor™ Respiration Rate software
  • Includes SatSeconds alarm management, a clinician-controlled feature that has been proven to reduce nuisance alarms*
  • Offers various screen layouts that give the user the ability to select among a set of predefined views and easily switch between views
  • Based on a portable, lightweight design that enables easy transport

CLINICAL DECISION MAKING. UNCOMPLICATED

We created the Vital Sync™ Monitoring & Clinical Decision Support Solution: a customizable remote monitoring and clinical decision support (CDS) system that makes your patients’ monitoring data more meaningful. This system provides the tools you need to support real-time protocol driven clinical decisions, create workflow efficiencies, and control costs.

  • 1. Saraswat A, Simionato L, Dawson J, et al. Determining the best method of Nellcor™ pulse oximeter sensor application in neonates. Acta Paediatr. December 19, 2011.

     View Abstract
  • 2. O’Donnell CPF, Kamlin COF, Davis PG, Morley CJ. Obtaining pulse oximetry data in neonates: a randomized crossover study of sensor application techniques. Arch Dis Child Fetal Neonatal Ed. 2005;90:F84-F85.

     View Abstract