Background Hemoglobin Gas Exchange and Respiration
HEMOGLOBIN Hemoglobin
(abbreviated Hb) is the iron-containing oxygen-transport metalloprotein in the red blood cells of vertebrates. Hemoglobin transports oxygen from the lungs to the rest of the body, where it releases the oxygen for cell use.
HEMOGLOBIN (continue)
Gas exchange and respiration
Gas exchange and respiration
What is a Pulse Oximeter? A Pulse Oximeter is a device used to perform the diagnostic procedure for determining the: Percentage of hemoglobin (Hb) that is
saturated with oxygen The oxygen saturation (SpO2) is a measure of how much oxygen the blood is carrying as a percentage of the maximum it could carry and is sometimes referred to colloquially as the "sats" reading The heart rate The heart rate refers to the number of times that the heart contracts in a period of one minute
TYPES OF OXIMETERS Designs: Pulse Oximeter as part of an anesthetic machine A portable desktop unit A finger/mobile pulse Oximeter
Pulse Oximeter
as part of an anesthetic machine
Pulse Oximeters (continue) Desktop
Finger/mobile
What does a Pulse Oximeter tell you? A Pulse Oximeter can detect hypoxia (too little oxygen to fulfill the needs of the brain and body) before a patient shows signs of becoming cyanotic (bluish discoloration of the skin and mucous membranes due to not enough oxygen in the blood).
Pulse Oximeters in patients:
Undergoing surgical procedure under general anesthesia
may be used
Undergoing surgical procedure under conscious sedation
Pulse Oximeters in patients: Emergency situations
like loss of consciousness, trauma etc. After surgery during the recovery phase Monitoring the blood
oxygen saturation in various aviation situations Sport applications – e.g. mountaineering
may be used
Pulse Oximeters in patients: In the ICU, Pulse Oximetry is used
extensively on mechanically ventilated patients, as it can frequently detect problems with oxygenation before they are noticed clinically, as well as a valuable guide for weaning patients off ventilation and helping to assess the adequacy of a patient's oxygen therapy. This continuing assessment process has been instrumental in the introduction of Pulse Oximeter usage within the community and homecare environment of patients suffering from a variety of heart and lung diseases and conditions Pulse Oximeters are routinely used in certain hospital wards and in casualty departments for immediate assessment of patients
may be used
Pulse Oximeter reading may not be accurate: Reduced peripheral
pulsatile blood flow Venous congestion (partial obstruction of the veins) of an arm or leg Bright overhead lights, such as in an operating theatre Shivering or significant, repeated movement of the sensor
Pulse Oximeter reading may not be accurate: Pulse oximetry
struggles to distinguish between different forms of hemoglobin, such as carboxyhemoglobin (hemoglobin combined with carbon monoxide) Nail varnish may cause falsely low readings with most pulse Oximeters, especially those colored blue or black
The following won’t affect the Pulse Oximeter reading: Anemia
Jaundice
But what is a "normal" reading?
Firstly, we would ask "normal for whom"?
A fit, healthy person should have an oxygen saturation level between 95% & 99%. Results lower than this, and especially below 90% may be caused by problems including lung diseases, such as COPD, breathing difficulties, cigarette smoking or circulatory problems such as excessive bleeding or blood vessel problems.
How does a Pulse Oximeter Work? The measurements are obtained by simply shining two wavelengths of light (1 is a visible red beam, the other an invisible infrared beam) at e.g. the fingertip.
By measuring how much light has been absorbed by the oxygen in the blood, an oxygen saturation or “sats” reading is established and displayed as a percentage of the maximum amount of oxygen the blood could carry.
Q1 If a patient’s saturation is unacceptably low, what are your immediate actions? Check Airways, Breathing and Circulation (ABC)
Q1 If a patient’s saturation is unacceptably low, what are your immediate actions? Check Airways, Breathing and Circulation (ABC)
Q2 An elderly patient is admitted with pneumonia and has a pulse oximetry reading of 75% breathing air. With oxygen 6L per min, saturation improves to 85%. What are the implications of this oximetry reading?
Q2 An elderly patient is admitted with pneumonia and has a pulse oximetry reading of 75% breathing air. With oxygen 6L per min, saturation improves to 85%. What are the implications of this oximetry reading? The patient was severely hypoxic (Lack of Oxygen)
Increase oxygen flow
Q3 What happens to the pulse Oximeter reading of a patient immediately after a cardiac arrest? The pulse would be lost (causing the alarm to sound) and the saturations will decrease
Q3 What happens to the pulse Oximeter reading of a patient immediately after a cardiac arrest? The pulse would be lost (causing the alarm to sound) and the saturations will decrease
Q4 What happens to the Pulse Oximeter reading of a patient immediately after a respiratory arrest? The saturations decrease until cardiac arrest occurs
Q4 What happens to the Pulse Oximeter reading of a patient immediately after a respiratory arrest? The saturations decrease until cardiac arrest occurs
In conclusion… Pulse Oximetry is a useful modality for
assessing a patient’s pulse rate and Hemoglobin Oxygen saturation in a number of routine and emergency medical situations The clinician should be aware of the limitations of Pulse Oximetry and the various factors that may produce a falsely low or high reading Always keep the basics principles of medicine in mind, and keep a high level of suspicion especially when the figures don’t make sense!
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