Measuring Vital Signs

Physical Examinations I

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Overview

Source: Meghan Fashjian, ACNP-BC, Beth Israel Deaconess Medical Center, Boston MA

The vital signs are objective measurements of a patient's clinical status. There are five commonly accepted vital signs: blood pressure, heart rate, temperature, respiratory rate, and oxygen saturation. In many practices, pain is considered the sixth vital sign and should regularly be documented in the same location as the other vital signs. However, the pain scale is a subjective measurement and, therefore, has a different value according to each individual patient.

The vital signs assessment includes estimation of heart rate, blood pressure (demonstrated in a separate video), respiratory rate, temperature, oxygen saturation, and the presence and severity of pain. The accepted ranges for vital signs are: heart rate (HR), 50-80 beats per minute (bpm); respiratory rate (RR), 14-20 bpm; oxygen saturation (SaO2), > 92%; and average oral temperature, ~98.6 °F (37 °C) (average rectal and tympanic temperatures are ~1° higher, and axillary temperature is ~1° lower compared to the average oral temperature).

Vital signs serve as the first clue that something may be amiss with a patient, especially if the patient is unable to communicate. Although there are quoted normal ranges, each patient should be considered as an individual and not treated without taking into account the entire clinical picture.

Cite this Video

JoVE Science Education Database. Physical Examinations I. Measuring Vital Signs. JoVE, Cambridge, MA, (2017).

Procedure

Make sure the patient has been seated and resting for at least 5 minutes prior to obtaining vital signs (VS) to accurately determine the baseline.

1. Heart rate

The radial artery is the most common site used to assess the pulse.

  1. Explain to the patient that you are going to start by checking their pulse.
  2. Place your index and middle fingers on the radial pulse (never use the thumb, as you can sometimes feel your own pulse). To prevent occlusion, do not press or apply pressure to the artery.
  3. Assess the rhythm.
    1. If the rhythm is regular, count the beats for 15 seconds, then multiply by 4.
    2. If the rhythm is irregular, count the beats for a full 60 seconds. A regularly irregular pulse may signal premature beats, whereas an irregularly irregular rhythm may signal atrial fibrillation. Confirm any abnormalities with an electrocardiogram (ECG).
  4. Note the amplitude of the pulse (normal, bounding, diminished, or absent). Bounding pulses may be observed at rest with atherosclerosis, congestive heart failure (CHF), kidney disease, aortic insufficiency, or fever. Diminished pulses may be noted with peripheral vascular disease (PVD) or sepsis. If absent, it may be due to occlusion of the artery and should be further investigated.
  5. Record HR, making a note of rhythm and amplitude on the VS flow sheet.

2. Respiratory rate

Attempt to calculate the respiratory rate without the patient becoming aware. This can be done either by leaving the fingers on the patient's radial pulse or by counting during the cardiovascular portion of the physical exam when they are breathing normally.

  1. Count the respiratory rate for a full 60 seconds. One respiratory cycle includes both inspiration and expiration. Note if slow breathing (bradypnea) or rapid shallow breathing (tachypnea) is present.
  2. Assess the regularity of breathing. Note if an irregularly irregular (ataxic or Biot's) or regularly irregular (Cheyne-Stokes, characterized by long periods of apnea) pattern is present.
  3. Note the depth of breathing. Is the patient engaged in shallow or very deep breathing? For example, rapid shallow breathing can be labeled as tachypnea, whereas deep rapid breathing may be the Kussmaul breathing, which is associated with diabetic ketoacidosis.
  4. Note the work of breathing. Is the patient utilizing accessory muscles with respiration? These include the trapezius, scalene, sternomastoid, and external intercostal muscles. This often indicates if there is an issue with oxygen delivery or air trapping.
  5. Record the rate and rhythm on the VS flow sheet. Also include depth and work of breathing, if abnormal.

3. Temperature

An examiner can obtain oral, rectal, axillary, or tympanic membrane temperatures. Be familiar with the differences in the expected normal values. In the office setting, the most common method of checking the temperature is oral. If the patient is non-responsive or unable to cooperate, oral is not the preferred method, and the examiner should use an alternate technique.

  1. Explain to the patient that you are going to check their temperature.
  2. Place a disposable plastic sheath on the thermometer.
  3. If using a digital thermometer, insert under the patient's tongue and hold there until the thermometer alerts you that the temperature has been calculated.
  4. If using a glass thermometer, make sure it reads less than 96 °F and insert under the patient's tongue. Hold there for 3 min.
  5. Record the temperature and location obtained on the vital sign flow sheet.

4. Oxygen saturation

The oxygen saturation (SaO2) can be measured by a non-invasive method called pulse oximetry. The oximeter is a small, usually portable, device that consists of a monitor and a probe, which is placed on the patient's finger, toe, or earlobe. The probe allows two wavelengths of light to pass through the body to a photodetector. The changes in absorbance indicate the percentage of saturated hemoglobin in the arterial blood. Most oximeters display the patient's pulse rate, too. Be advised: if a patient's fingertip is cold or if the patient is wearing nail polish, this may interfere with the reading. There are also conditions that falsely elevate the readings including carbon monoxide poisoning.

  1. Explain to the patient that you are going to check their oxygen saturation.
  2. Place the oximeter probe onto the patient's finger. Finger probes are often a single rubber piece that can be hinged and slipped onto the fingertip. There are alternative probes that can be placed on other body parts, if unable to obtain a read from the finger.
  3. Record the oximeter reading on the vital sign flow sheet.

5. Pain

In most instances , a numeric scale (1-10, 10 being the worst pain imaginable) is utilized to estimate presence and the level of pain. In non-verbal patients, children, or those who do not speak English, severity of pain is assessed by using the visual Wong-Baker FACES® scale. Always remember to reassess pain after any intervention taken.

  1. Ask the patient if they are having pain.
  2. If the patient expresses comprehension and does have pain, ask them to quantify it on a scale of 1-10.
  3. If the patient is unable to comprehend, but appears to have pain, show them the Wong-Baker FACES® scale to determine the severity of pain.
  4. Record on the vital sign flow sheet.

Vital signs are objective measurements of a patient's clinical status. The commonly documented vital signs are blood pressure, heart rate, temperature, respiratory rate, oxygen saturation and the presence and severity of pain.

The principles and procedure of blood pressure measurement have been covered in detail in another video of this collection. Here, we will illustrate how to measure and record the rest of the vital signs.

Before starting with the procedure, ensure that the patient has been seated and resting for at least 5 minutes. In the meantime, wash your hands thoroughly with soap and warm water. Upon entering the room, introduce yourself to the patient, briefly explain what you are going to do, and obtain their consent, "Now I am going to check your vital signs, will that okay?"

Start by assessing the heart rate also known as the pulse rate. The radial artery is the most common site used to assess this parameter. Place your index and middle fingers on the radial pulse. Do not apply pressure, and never use the thumb, as with thumb you may sometimes feel your own pulse. Assess the rhythm and note if it is regular. Count the beats for 15 seconds, and then multiply by 4 to calculate the pulse rate in beats per minute. If the rhythm is irregular, count the beats for a full minute. Simultaneously, assess the amplitude of the pulse, and note whether it is normal, bounding, diminished, or absent. Record the heart rate, making a note of the rhythm and amplitude on the vital signs flow sheet. The accepted range for a normal heart rate is 50-80 beats per minute.

The next vital sign to be recorded is the respiratory rate. Attempt to calculate this without the patient becoming aware. Count the respiratory cycles for at least one full minute. One respiratory cycle includes both inspiration and expiration. Note the rate, regularity, depth, and work of breathing. The work of breathing refers to the utilization of accessory muscles of respiration. These include neck muscles like scalene and sternomastoid. The constant utilization of these muscles indicates difficulty with breathing. Record the rate and rhythm on the vital signs sheet. Also include the depth and work of breathing, if abnormal. The normal respiratory rate is about 14 to 20 breaths per minute.

After obtaining the respiratory rate, check the temperature, most commonly done by using a digital oral thermometer. Place a disposable plastic sheath on the thermometer, and insert it under the patient's tongue and hold there until the thermometer alerts you that the temperature has been calculated. Other than the oral temperature, an examiner can obtain axillary, rectal, or tympanic membrane temperatures. However, remember that there is a difference in the expected normal values based on the location. Record the temperature and the location where it was obtained.

Next, measure the oxygen saturation, commonly known as SaO2, which refers to the fraction of oxygen-saturated hemoglobin relative to total hemoglobin. This can be measured by a non-invasive method called pulse oximetry. The pulse oximeter is a small, usually portable device that consists of a monitor and a probe, which is usually placed on the patient's finger. One side of the probe has the light sources, which emit two different types of lights-infrared and red, which are transmitted through the finger to the detector on the other side. The oxygen-rich hemoglobin absorbs more of the infrared light and the deoxygenated hemoglobin absorbs more of the red light. The microprocessor calculates the differences and converts the information into a digital readout of the percentage oxygen-saturated hemoglobin in the arterial blood, which is nothing but SaO2. To obtain this value, simply place the oximeter probe, which is often a single rubber piece that can be hinged and slipped onto the patient's fingertip. After a few seconds, record the display reading, which should normally be more than 92 percent. In case if the patient's fingertip is cold or if the patient is wearing nail polish, which might interfere with the fingertip reading, consider using a probe for the ear lobe.

Lastly, ask the patient if they are experiencing any type of pain. If the patient expresses comprehension and does have pain, ask them to quantify it on a scale. If the patient is unable to comprehend, but appears to have pain, show them the Wong-Baker FACES® scale to determine the severity of pain.

You've just watched JoVE's demonstration of the principles and procedures associated with obtaining the commonly required vital signs.

These simple non-invasive measurements provide essential insight into a patient's clinical status, as they can indicate early objective changes prior to the onset of symptoms. Therefore, every examiner should be aware about the methods used to record these and the accepted variations in the readings. As always, thanks for watching!

Summary

The vital signs - blood pressure, heart rate, respiratory rate, temperature, oxygen saturation, and "the 6th vital sign", pain - are often the first pieces of objective evidence gathered before formal evaluation of the patient. These simple non-invasive measurements provide essential (i.e., vital) insight into a patient's clinical status, as they can indicate early objective changes prior to the onset of symptoms.

A medical practitioner should be familiar with accepted variations in normal ranges of measurements based on age, weight, and gender. Abnormality in vital signs can indicate an acute medical problem or a change in chronic disease state. If these have been obtained prior to the examiner's first encounter with the patient, but are abnormal, it is advised to perform repeated measurement. The vital signs help guide the evaluation of the patient and to formulate the assessment and plan.

Make sure the patient has been seated and resting for at least 5 minutes prior to obtaining vital signs (VS) to accurately determine the baseline.

1. Heart rate

The radial artery is the most common site used to assess the pulse.

  1. Explain to the patient that you are going to start by checking their pulse.
  2. Place your index and middle fingers on the radial pulse (never use the thumb, as you can sometimes feel your own pulse). To prevent occlusion, do not press or apply pressure to the artery.
  3. Assess the rhythm.
    1. If the rhythm is regular, count the beats for 15 seconds, then multiply by 4.
    2. If the rhythm is irregular, count the beats for a full 60 seconds. A regularly irregular pulse may signal premature beats, whereas an irregularly irregular rhythm may signal atrial fibrillation. Confirm any abnormalities with an electrocardiogram (ECG).
  4. Note the amplitude of the pulse (normal, bounding, diminished, or absent). Bounding pulses may be observed at rest with atherosclerosis, congestive heart failure (CHF), kidney disease, aortic insufficiency, or fever. Diminished pulses may be noted with peripheral vascular disease (PVD) or sepsis. If absent, it may be due to occlusion of the artery and should be further investigated.
  5. Record HR, making a note of rhythm and amplitude on the VS flow sheet.

2. Respiratory rate

Attempt to calculate the respiratory rate without the patient becoming aware. This can be done either by leaving the fingers on the patient's radial pulse or by counting during the cardiovascular portion of the physical exam when they are breathing normally.

  1. Count the respiratory rate for a full 60 seconds. One respiratory cycle includes both inspiration and expiration. Note if slow breathing (bradypnea) or rapid shallow breathing (tachypnea) is present.
  2. Assess the regularity of breathing. Note if an irregularly irregular (ataxic or Biot's) or regularly irregular (Cheyne-Stokes, characterized by long periods of apnea) pattern is present.
  3. Note the depth of breathing. Is the patient engaged in shallow or very deep breathing? For example, rapid shallow breathing can be labeled as tachypnea, whereas deep rapid breathing may be the Kussmaul breathing, which is associated with diabetic ketoacidosis.
  4. Note the work of breathing. Is the patient utilizing accessory muscles with respiration? These include the trapezius, scalene, sternomastoid, and external intercostal muscles. This often indicates if there is an issue with oxygen delivery or air trapping.
  5. Record the rate and rhythm on the VS flow sheet. Also include depth and work of breathing, if abnormal.

3. Temperature

An examiner can obtain oral, rectal, axillary, or tympanic membrane temperatures. Be familiar with the differences in the expected normal values. In the office setting, the most common method of checking the temperature is oral. If the patient is non-responsive or unable to cooperate, oral is not the preferred method, and the examiner should use an alternate technique.

  1. Explain to the patient that you are going to check their temperature.
  2. Place a disposable plastic sheath on the thermometer.
  3. If using a digital thermometer, insert under the patient's tongue and hold there until the thermometer alerts you that the temperature has been calculated.
  4. If using a glass thermometer, make sure it reads less than 96 °F and insert under the patient's tongue. Hold there for 3 min.
  5. Record the temperature and location obtained on the vital sign flow sheet.

4. Oxygen saturation

The oxygen saturation (SaO2) can be measured by a non-invasive method called pulse oximetry. The oximeter is a small, usually portable, device that consists of a monitor and a probe, which is placed on the patient's finger, toe, or earlobe. The probe allows two wavelengths of light to pass through the body to a photodetector. The changes in absorbance indicate the percentage of saturated hemoglobin in the arterial blood. Most oximeters display the patient's pulse rate, too. Be advised: if a patient's fingertip is cold or if the patient is wearing nail polish, this may interfere with the reading. There are also conditions that falsely elevate the readings including carbon monoxide poisoning.

  1. Explain to the patient that you are going to check their oxygen saturation.
  2. Place the oximeter probe onto the patient's finger. Finger probes are often a single rubber piece that can be hinged and slipped onto the fingertip. There are alternative probes that can be placed on other body parts, if unable to obtain a read from the finger.
  3. Record the oximeter reading on the vital sign flow sheet.

5. Pain

In most instances , a numeric scale (1-10, 10 being the worst pain imaginable) is utilized to estimate presence and the level of pain. In non-verbal patients, children, or those who do not speak English, severity of pain is assessed by using the visual Wong-Baker FACES® scale. Always remember to reassess pain after any intervention taken.

  1. Ask the patient if they are having pain.
  2. If the patient expresses comprehension and does have pain, ask them to quantify it on a scale of 1-10.
  3. If the patient is unable to comprehend, but appears to have pain, show them the Wong-Baker FACES® scale to determine the severity of pain.
  4. Record on the vital sign flow sheet.

Vital signs are objective measurements of a patient's clinical status. The commonly documented vital signs are blood pressure, heart rate, temperature, respiratory rate, oxygen saturation and the presence and severity of pain.

The principles and procedure of blood pressure measurement have been covered in detail in another video of this collection. Here, we will illustrate how to measure and record the rest of the vital signs.

Before starting with the procedure, ensure that the patient has been seated and resting for at least 5 minutes. In the meantime, wash your hands thoroughly with soap and warm water. Upon entering the room, introduce yourself to the patient, briefly explain what you are going to do, and obtain their consent, "Now I am going to check your vital signs, will that okay?"

Start by assessing the heart rate also known as the pulse rate. The radial artery is the most common site used to assess this parameter. Place your index and middle fingers on the radial pulse. Do not apply pressure, and never use the thumb, as with thumb you may sometimes feel your own pulse. Assess the rhythm and note if it is regular. Count the beats for 15 seconds, and then multiply by 4 to calculate the pulse rate in beats per minute. If the rhythm is irregular, count the beats for a full minute. Simultaneously, assess the amplitude of the pulse, and note whether it is normal, bounding, diminished, or absent. Record the heart rate, making a note of the rhythm and amplitude on the vital signs flow sheet. The accepted range for a normal heart rate is 50-80 beats per minute.

The next vital sign to be recorded is the respiratory rate. Attempt to calculate this without the patient becoming aware. Count the respiratory cycles for at least one full minute. One respiratory cycle includes both inspiration and expiration. Note the rate, regularity, depth, and work of breathing. The work of breathing refers to the utilization of accessory muscles of respiration. These include neck muscles like scalene and sternomastoid. The constant utilization of these muscles indicates difficulty with breathing. Record the rate and rhythm on the vital signs sheet. Also include the depth and work of breathing, if abnormal. The normal respiratory rate is about 14 to 20 breaths per minute.

After obtaining the respiratory rate, check the temperature, most commonly done by using a digital oral thermometer. Place a disposable plastic sheath on the thermometer, and insert it under the patient's tongue and hold there until the thermometer alerts you that the temperature has been calculated. Other than the oral temperature, an examiner can obtain axillary, rectal, or tympanic membrane temperatures. However, remember that there is a difference in the expected normal values based on the location. Record the temperature and the location where it was obtained.

Next, measure the oxygen saturation, commonly known as SaO2, which refers to the fraction of oxygen-saturated hemoglobin relative to total hemoglobin. This can be measured by a non-invasive method called pulse oximetry. The pulse oximeter is a small, usually portable device that consists of a monitor and a probe, which is usually placed on the patient's finger. One side of the probe has the light sources, which emit two different types of lights-infrared and red, which are transmitted through the finger to the detector on the other side. The oxygen-rich hemoglobin absorbs more of the infrared light and the deoxygenated hemoglobin absorbs more of the red light. The microprocessor calculates the differences and converts the information into a digital readout of the percentage oxygen-saturated hemoglobin in the arterial blood, which is nothing but SaO2. To obtain this value, simply place the oximeter probe, which is often a single rubber piece that can be hinged and slipped onto the patient's fingertip. After a few seconds, record the display reading, which should normally be more than 92 percent. In case if the patient's fingertip is cold or if the patient is wearing nail polish, which might interfere with the fingertip reading, consider using a probe for the ear lobe.

Lastly, ask the patient if they are experiencing any type of pain. If the patient expresses comprehension and does have pain, ask them to quantify it on a scale. If the patient is unable to comprehend, but appears to have pain, show them the Wong-Baker FACES® scale to determine the severity of pain.

You've just watched JoVE's demonstration of the principles and procedures associated with obtaining the commonly required vital signs.

These simple non-invasive measurements provide essential insight into a patient's clinical status, as they can indicate early objective changes prior to the onset of symptoms. Therefore, every examiner should be aware about the methods used to record these and the accepted variations in the readings. As always, thanks for watching!

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