Nasal Alar FAST SpO₂ Sensor, Case of 20

Pulse oximetry supplies

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The Philips Nasal Alar FAST SpO2 Sensor ensures dependable monitoring of oxygen saturation at the nasal ala, where a robust blood supply from the carotid arteries is maintained. This location generates a strong, consistent signal and is less susceptible to vascular constriction compared to extremities,¹ providing accurate and reliable signals, even in challenging conditions involving low perfusion and centralization of blood flow.² Designed for comfort and durability, the sensor is non-adhesive and can be used on one patient for up to seven days across multiple care areas.

Features
Customer story: real-world experience
Customer story: real-world experience video

Customer story: real-world experience

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.

Customer story: real-world experience

Customer story: real-world experience video

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.

Customer story: real-world experience

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.
Click here for more information
Customer story: real-world experience
Customer story: real-world experience video

Customer story: real-world experience

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.
Preferred placement for low perfusion
Reliable and comfortable

Reliable and comfortable

When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.

Reliable and comfortable

Reliable and comfortable
When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.

Reliable and comfortable

When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.
Click here for more information
Preferred placement for low perfusion
Reliable and comfortable

Reliable and comfortable

When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.
Low perfusion solution
The nasal ala provides reliable measurement

The nasal ala provides reliable measurement

The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.

The nasal ala provides reliable measurement

The nasal ala provides reliable measurement
The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.

The nasal ala provides reliable measurement

The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.
Click here for more information
Low perfusion solution
The nasal ala provides reliable measurement

The nasal ala provides reliable measurement

The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.
Durable SpO₂ sensor
Extended-stay monitoring capabilities

Extended-stay monitoring capabilities

Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.

Extended-stay monitoring capabilities

Extended-stay monitoring capabilities
Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.

Extended-stay monitoring capabilities

Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.
Click here for more information
Durable SpO₂ sensor
Extended-stay monitoring capabilities

Extended-stay monitoring capabilities

Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.
Flexible use cases
Real-world benefits to meet various priorities

Real-world benefits to meet various priorities

Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.

Real-world benefits to meet various priorities

Real-world benefits to meet various priorities
Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.

Real-world benefits to meet various priorities

Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.
Click here for more information
Flexible use cases
Real-world benefits to meet various priorities

Real-world benefits to meet various priorities

Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.
  • Customer story: real-world experience
  • Preferred placement for low perfusion
  • Low perfusion solution
  • Durable SpO₂ sensor
See all features
Customer story: real-world experience
Customer story: real-world experience video

Customer story: real-world experience

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.

Customer story: real-world experience

Customer story: real-world experience video

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.

Customer story: real-world experience

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.
Click here for more information
Customer story: real-world experience
Customer story: real-world experience video

Customer story: real-world experience

Conventional pulse oximeters are placed on the finger, but for patients with poor perfusion the Philips Nasal Alar SpO2 sensor offers an exciting and practical alternative. Watch this video to hear Dr. Lieven Vergote and Mr. Kristoff Colman from the A.S.Z. Hospital in Aalst, Belgium, share their real-world experience of the Alar sensor and explain some of the benefits of this solution.
Preferred placement for low perfusion
Reliable and comfortable

Reliable and comfortable

When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.

Reliable and comfortable

Reliable and comfortable
When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.

Reliable and comfortable

When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.
Click here for more information
Preferred placement for low perfusion
Reliable and comfortable

Reliable and comfortable

When compared to forehead sensors, the Nasal Alar SpO₂ Sensor showed lower occurrence of pressure injuries over a period of 5 days of sensor use.³ The alar sensor doesn’t require headbands or adhesive, exposing the patient to minimal heat and pressure, and allowing patients' hands to be sensor-free.
Low perfusion solution
The nasal ala provides reliable measurement

The nasal ala provides reliable measurement

The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.

The nasal ala provides reliable measurement

The nasal ala provides reliable measurement
The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.

The nasal ala provides reliable measurement

The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.
Click here for more information
Low perfusion solution
The nasal ala provides reliable measurement

The nasal ala provides reliable measurement

The nasal alar consistently maintains a good blood supply from the internal and external carotid arteries, producing a strong, steady signal and is less prone to vasal constriction than the extremities. It provides reliable results even during critical states of low perfusion and blood flow centralization.
Durable SpO₂ sensor
Extended-stay monitoring capabilities

Extended-stay monitoring capabilities

Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.

Extended-stay monitoring capabilities

Extended-stay monitoring capabilities
Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.

Extended-stay monitoring capabilities

Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.
Click here for more information
Durable SpO₂ sensor
Extended-stay monitoring capabilities

Extended-stay monitoring capabilities

Philips Nasal Alar SpO₂ Sensor is sustainable and durable, with a single sensor remaining with the patient for up to 7 days as they move between care areas.
Flexible use cases
Real-world benefits to meet various priorities

Real-world benefits to meet various priorities

Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.

Real-world benefits to meet various priorities

Real-world benefits to meet various priorities
Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.

Real-world benefits to meet various priorities

Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.
Click here for more information
Flexible use cases
Real-world benefits to meet various priorities

Real-world benefits to meet various priorities

Retain a consistent SpO₂ signal during critical ICU procedures. Have a sensor on a more accessible site than traditional finger sensors when used in the OR. Improve time efficiency with no need for nursing teams to discard multiple sensors when seeking a steady signal.

Specifications

Product details
Product details
Package dimensions
  • 270 x 230 x 127 mm (10.5 x 9 x 5 in)
Product details
Product details
Use with non-Philips healthcare equipment
  • No
Use with Philips healthcare equipment
  • M1020B, M3001A, MP2, X2 MX100, X3 MP5, MP5SC, MP5T
Color
  • White
Product category
  • SpO₂
Product type
  • Sensor
CE certified
  • Yes
Single-patient use or multi-patient use
  • Single-patient use
Package weight
  • 1.36 kg (3 lbs)
Packaging unit
  • 20 sensors
Not manufactured with natural rubber latex
  • Yes
Sterile or non-sterile
  • Non-sterile
Shelf life
  • Five years
SpO2 Sensor
SpO2 Sensor
Adapter Cable Compatibility
  • M1943A, M1943AL
SpO₂ sensor
SpO₂ sensor
Patient application
  • Pediatric and adult
Application site
  • Nasal ala
Cable length
  • 1 m (3.28 ft)
Product details
Product details
Package dimensions
  • 270 x 230 x 127 mm (10.5 x 9 x 5 in)
Product details
Product details
Use with non-Philips healthcare equipment
  • No
Use with Philips healthcare equipment
  • M1020B, M3001A, MP2, X2 MX100, X3 MP5, MP5SC, MP5T
See all specifications
Product details
Product details
Package dimensions
  • 270 x 230 x 127 mm (10.5 x 9 x 5 in)
Product details
Product details
Use with non-Philips healthcare equipment
  • No
Use with Philips healthcare equipment
  • M1020B, M3001A, MP2, X2 MX100, X3 MP5, MP5SC, MP5T
Color
  • White
Product category
  • SpO₂
Product type
  • Sensor
CE certified
  • Yes
Single-patient use or multi-patient use
  • Single-patient use
Package weight
  • 1.36 kg (3 lbs)
Packaging unit
  • 20 sensors
Not manufactured with natural rubber latex
  • Yes
Sterile or non-sterile
  • Non-sterile
Shelf life
  • Five years
SpO2 Sensor
SpO2 Sensor
Adapter Cable Compatibility
  • M1943A, M1943AL
SpO₂ sensor
SpO₂ sensor
Patient application
  • Pediatric and adult
Application site
  • Nasal ala
Cable length
  • 1 m (3.28 ft)
  • * Nasal Alar FAST SpO₂ Sensor is not released in all geographies. Please check with your Philips representative for complete portfolio availability.
  • 1. Morey TE, Rice MJ, Vasilopoulos T, Dennis DM, Melker RJ.Feasibility and accuracy of nasal alar pulse oximetry. Br J Anaesth. 2014; 112(6):1109-14. doi: 10.1093/bja/aeu095.
  • 2. Schallom M, Prentice D, Sona C, Arroyo C, Mazuski J. Comparison of nasal and forehead oximetry accuracy and pressure injury in critically ill patients. Heart & Lung 2018, 47:93-99. https://doi.org/10.1016/j.hrtlng.2017.12.002
  • 3. Schallom M, Prentice D, Sona C, Mazuski J. Comparison of Nasal and Forehead Oximetry Accuracy and Pressure Injury in Critically Ill Patients. Critical Care Medicine. 2016;44:12(Suppl.).

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