Health Observation Lecture: Measuring and Recording the Vital Signs (2024)

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Introduction

The measurement and recording of the vital signs is the first step in the process of physically examining apatient - that is, in collecting objective data about a patient's signs (i.e. what the nursecan observe, feel, hear or measure). This is a fundamental skill for nurses working in all clinical areas, butone which only develops with practice. This chapter introduces the knowledge and skills required by nurses toaccurately measure and record a patient's vital signs - that is, their blood pressure (BP), pulse or heart rate(HR), temperature (T°), respiratory rate (RR) and blood oxygen saturation (SpO2).

This chapter begins with an introduction to the importance of measuring the vital signs in nursing practice. Itgoes on to describe the measurement of each of the vital signs and the collection of other supporting data (e.g.height, weight, pain score), discussing key strategies and considerations. The chapter then reviews theprocesses involved in recording the data collected about the vital signs. Finally, the chapter discusses how anurse should go about interpreting the data they have obtained, to build a clinical picture of the patient andplan for their care.

Learning objectives for this chapter

By the end of this chapter, we would like you:

  • To describe the place of measuring and recording the vital signs in the health observation and assessmentprocess.
  • To state the normal parameters of each vital sign for a healthy adult.
  • To understand how to accurately measure each vital sign.
  • To understand how to collect other key health data (e.g. height, weight, pain score).
  • To describe how to correctly record this data.
  • To explain how this data should be interpreted and used in nursing practice.

Important note

This section of the chapter assumes a basic knowledge of human anatomy and physiology. If you feel you need torevise these concepts, you are encouraged to consult a quality nursing textbook.

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Measurement and recording of the vital signs

As described in the introduction of this chapter, the measurement and recording of the vital signs is afundamental skill for nurses working in all clinical areas. The vital signs - blood pressure (BP), pulse orheart rate (HR), temperature (T°), respiratory rate (RR) and blood oxygen saturation (SpO2) -provide baseline indicators of a patient's current health status. It is important to note that some nursesmeasure and record the vital signs at the commencement of the physical examination, while others integrate thecollection of vital signs data into the physical examination; either approach is fine, provided the nurse issystematic in the way in which they approach their assessment, and so collects accurate and complete healthdata.

As you saw in the previous chapter of this module, health observation and assessment involves three concurrentsteps:

Health Observation Lecture: Measuring and Recording the Vital Signs (1)

The measurement and recording of the vital signs is the first step in the process of physically examining apatient. This step involves collecting objective data - that is, data about a patient's signs(i.e. what the nurse can observe, feel, hear or measure). Data collected during the physical examination,including measurements of the vital signs, is combined with that collected during the health history (asdescribed in the previous chapter of this module), to build a complete picture of the clients' health status.

The normal parameters for each of the vital signs of healthy adults are listed following:

VITAL SIGN

HEALTHY RANGE

Blood pressure (BP)

120/80 mmHg

Pulse or heart rate (HR)

60-100 beats per minute

Temperature (T°)

36.5°C to 37.5° Celsius

Respiratory rate (RR)

10 to 16 breaths per minute

Blood oxygen saturation (SpO2)

98%-100%

Nurses should become thoroughly familiar with the parameters for each of the vital signs. However, it isimportant for nurses to remember that these are average values for healthy adults. Some adults may havevalues which fall outside of these ranges. For example, very fit adults may have a pulse or heart rate whichnormally sits at or below 60 beats per minute; similarly, adults with respiratory conditions often have anoxygen saturation which normally sits well below 98%. Children and neonates have differing normal parameters foreach of the vital signs; nurses who work with these patient groups must become familiar with these. Wheninterpreting vital signs, it is important that nurses use critical thinking to interpret the entire clinicalpicture of the individual patient with whom they are working.

Measurement of blood pressure

Blood pressure is often abbreviated to 'BP'. Blood pressure uses two measurements, each recorded in millimetresof mercury (mmHg) - for example, 120mmHg / 80mmHg, often abbreviated to 120/80. Blood pressure is defined as thepressure of the blood against the arterial walls:

  • When the heart contracts (systolic BP - the first measurement), and
  • When the heart rests (diastolic BP - the second measurement).

Essentially, blood pressure is a measurement of the relationship between: (1) cardiac output (the volume ofblood ejected from the heart each minute), and (2) peripheral resistance (the force that opposes the flow ofblood through the vessels). Blood pressure also depends on factors such as the velocity of the blood, theintravascular blood volume and the elasticity of the vessel walls, etc.

The difference between the systolic and diastolic blood pressures is referred to as the pulse pressure.This normally ranges between 30mmHg and 40mmHg.

Blood pressure can be measured in a number of different ways. It is measured directly by inserting a smallcatheter into an artery - however, as a very invasive procedure, this strategy is typically only used forpatients who are critically ill and for whom blood pressure is very difficult to measure accurately. In allother settings, blood pressure is measured indirectly using: (1) a sphygmomanometer and a stethoscope (a'manual' measurement), or (2) a non-invasive blood pressure monitor (an 'automatic' measurement). This sectionof the chapter will teach both methods.

It is important that nurses familiarise themselves with the equipment used to measure the vitalsigns.

Review the image of a sphygmomanometer to the left, which is labelled with the device's keyfeatures:

Cuff

Manometer

Valve

Pressure bulb

Health Observation Lecture: Measuring and Recording the Vital Signs (2)Health Observation Lecture: Measuring and Recording the Vital Signs (3)Health Observation Lecture: Measuring and Recording the Vital Signs (4)Health Observation Lecture: Measuring and Recording the Vital Signs (5)Health Observation Lecture: Measuring and Recording the Vital Signs (6)

  • Measuring blood pressure using a sphygmomanometer and a stethoscope (a 'manual' measurement): The clientshould be sitting or lying down. The arm used to take the blood pressure should be at the client's side,slightly flexed and with the palm turned upwards. The nurse should palpate the brachial pulse, in theantecubital space (i.e. the groove between the biceps and triceps muscles, in the bend of the elbow). Ablood pressure cuff should be placed 2.5 centimetres above the site of the brachial pulse, with the bladderof the cuff (usually marked with a white stripe) centred over the artery. The cuff should be secured so itfits evenly and snugly around the arm.

The manometer - the device used to read the blood pressure measurement - should be positioned at the nurse's eyelevel. The valve on the pressure bulb should be closed by turning it clockwise. Avoid closing the valve tootightly, or it may be too difficult to release when the time comes to do so.

Place the stethoscope over the patient's brachial pulse, and hold it with your non-dominant hand. Place thebinaurals (earpieces) of the stethoscope in your ears. Using your dominant hand, inflate the cuff to around180mmhg (note that you may need to go higher if the patient's systolic blood pressure is >180mmHg, howeverthis is rare). Then, release the valve to deflate the cuff, slowly and steadily (around 2 to 3mmHg per second toreduce measurement errors). You are listening for two things:

  1. The first Korotkoff sound. This is a sharp thump or tap of the brachial pulse, which indicates the systolicblood pressure. Read the pressure (in mmHg) on the manometer at the point this occurs.
  2. The disappearance of all Korotkoff sounds (i.e. all the noises related to the brachial pulse). Thisindicates the diastolic blood pressure. Read the pressure (in mmHg) on the manometer at the point thisoccurs.

Once these two measurements have been made, the cuff should be completely deflated and removed from the client'sarm. The two blood pressure readings should be promptly recorded.

  • Measuring blood pressure using a non-invasive blood pressure monitor (an 'automatic' measurement): This isachieved using the same principles as with the manual measurement, described above. However, it involvesusing an electronic monitoring device; this measures the circulating blood flow using an electronic sensorand, therefore, does not require the nurse to listen for Korotkoff sounds. The cuff of an automatic bloodpressure monitor is applied in the same way as described above. The nurse then presses a 'start' button toinstruct the machine to inflate the cuff, take a measurement and provide a reading.

It is important to highlight that although automatic blood pressure measurements are quick and convenient, theyare not as accurate as manual blood pressure measurements. If a non-invasive blood pressure monitor returns areading which is outside the expected parameters, it should always be checked with a manualmeasurement. Furthermore, it is worth noting that a cuff must fit correctly on a patient's arm, and be placedcorrectly so the bladder of the cuff is above the brachial artery, if a non-invasive blood pressure monitor isto return an accurate reading.

As described in the above section, the upper arm is the most common site to measure blood pressure; however, ifthis is not possible, blood pressure may also be measured from the thigh. Research suggests that the systolicblood pressure is slightly higher in the leg than in the arm, but the diastolic blood pressures are roughlysimilar. Blood pressure is taken on the thigh using the same technique described above.

In some cases, a patient may have their blood pressure taken a number of times in a number of positions (e.g.lying, sitting, standing). This is done to assess the client for orthostatic hypotension. This occurswhen there is a 20 to 30mmHg drop in blood pressure when the client changes positions, and it may indicatehealth problems.

It is important for nurses to note that there are a number of common errors associated with blood pressuremeasurement. Errors may result if:

  • The client's arm is positioned above or below the level of their heart.
  • The cuff used is too large or too narrow for the client's arm.
  • The cuff is wrapped too loosely or unevenly around the client's arm.
  • The cuff is not deflated to a pressure higher than the patient's systolic blood pressure.
  • The cuff is deflated at a rate slower or faster than 2 to 3mmHg per second.
  • The cuff is reinflated (e.g. to check readings) before it is completely deflated.
  • The stethoscope is pressed too firmly against the brachial artery.
  • The nurse fails to wait 2 minutes before repeating the blood pressure measurement.

As described above, the majority of the common errors associated with blood pressure measurement are related tothe size and position of the cuff. Blood pressure cuffs come in a variety of sizes, and it is essential thatnurses select the correct size for the individual patient with whom they are working - if the cuff is too large,blood pressure will be underestimated, and if it is too small, blood pressure will be overestimated. Ideally,the width of the cuff should be 40% of the circumference of the limb from which the blood pressure is beingmeasured, and the bladder within must encircle at least 80% of the limb.

As you saw in an earlier section of this chapter, the average blood pressure of a healthy adult is120mmHg/80mmHg, typically written as 120/80. When measuring a client's blood pressure, a nurse may identify thatit is high - a condition referred to as hypertension, or low - a condition referred to ashypotension. There may be a number of pathophysiological causes of hypertension (e.g. brain injury,systemic vasoconstriction, fluid retention, etc.) and hypotension (e.g. fluid / blood loss, dehydration,etc.). It is important for nurses to recognise that there are also a number of physiological factors whichaffect blood pressure measurement; for example, recent exercise, feeling anxious or angry, experiencing pain,ingesting caffeine or tobacco, and obesity can all result in a patient recording higher than normal bloodpressure. Remember: when interpreting vital signs, it is important that nurses use critical thinking tointerpret the entire clinical picture of the individual patient with whom they are working.

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Measurement of pulse or heart rate

Pulse or heart rate is often abbreviated to 'HR'. It is defined as the number of times a person's heart beats ina one-minute period. It is recorded at a rate of 'beats per minute'. Each contraction of the heart results inthe ejection of blood into the vascular system, and this is felt in key locations of the body as a 'pulse'. Inaddition to assessing the rate at which a person's heart is beating, when measuring a person's HR, a nurseshould also assess for the rhythm and quality of the pulse.

A patient's pulse may be measured using the same types of non-invasive, automatic monitors used to measure bloodpressure, as described in the previous section of this chapter. However, it is generally preferred that heartrate is assessed by palpating a pulse, and it is this technique which will be taught in this chapter.

To measure a pulse, a nurse should place their fingers over an artery and feel for the pulse. Generally, pulsesare palpated with the pads of the index and middle fingers. Firm pressure is applied to the pulse, but not somuch pressure that the artery is occluded. There are a number of locations on the body in which a nurse maypalpate an artery to feel for a pulse; the most common are:

  • The radial artery, located on the outer edge of each wrist.
  • The brachial artery, located in the antecubital space on each arm.
  • The carotid artery, located on the inner sides of the sternocleidomastoid muscle in the neck.

It is important for nurses to note that a patient's heart rate can also be assessed by auscultating the heart.This is referred to as measuring the apical pulse.

When measuring the HR, a nurse may:

  • Count the number of pulses for 60 seconds.
  • Count the number of pulses for 30 seconds, and multiply by 2 - if the HR is regular.
  • Count the number of pulses for 15 seconds, and multiply by 4 - if the HR is regular.

As described, it is important that a nurse assesses the pulse for regularity. If the pulse is irregular (i.e.the time between each beat varies, or beats are skipped, etc.), the pulse must be counted for one fullminute (60 seconds). Additionally, an irregular pulse must be documented when recording the vital signs.

It is also important that the nurse assess the quality of the pulse - that is, its key characteristics. Apatient's pulse may be described using terms such as thready (meaning the pulse is 'weak') orbounding (meaning the pulse is 'full' and 'strong'). This is important information that is used, alongwith HR and regularity of the pulse, to assess the health of the cardiovascular and other body systems.

The average pulse or heart rate for a healthy adult is 60 to 100 beats per minute. If a patient's pulse is>100 beats per minute, this is referred to as tachycardia; pain, infection, dehydration, stress,anxiety, thyroid disorder, shock, anaemia, certain heart conditions, etc. can all result in tachycardia. If apatient's pulse is <60 beats per minute, this is referred to as bradycardia; cardiac conductiondefects, overdose (e.g. central nervous system depressants), head injury, severe hypoxia (with impendingrespiratory / cardiac arrest), shock, etc. can all result in bradycardia.

Measurement of temperature

Temperature is often abbreviated to 'T°'. This is defined as the temperature, in degrees Celsius (°C),of a person's body. Temperature is typically measured using a thermometer, which may be either automatic ormanual. Temperature may be measured by one of several different routes:

  • Orally, with the thermometer placed under the tongue (i.e. in the right or left sublingual pockets). This isthe safest way of recording a patient's temperature, and also one of the most accurate. When taking an oraltemperature measurement, nurses should take care to ensure the patient has not recently (within the last 10minutes) ingested hot or cold foods or liquids, that the thermometer is covered by an appropriate shield(for hygiene purposes), and that the patient closes their mouth completely while the thermometer reads theirtemperature. Automatic thermometers can take up to 30 seconds to record a temperature reading.
  • Via the tympanic membrane, with the thermometer placed onto the tympanic membrane within the ear. Whentaking a tympanic temperature measurement, nurses should take care to ensure that the thermometer is coveredby an appropriate shield (for hygiene purposes), and that the sensor comes into contact with all sides ofthe ear canal.
  • Via the axilla, with the thermometer placed under the arm. Although the axilla is a convenient location fromwhich to record a temperature measurement, the accuracy of temperature measurements recorded here areuncertain (i.e. the axilla probably poorly reflects core body temperature).
  • Rectally, with the thermometer inserted into the patient's rectum. This is both a safe and accurate way ofrecording a patient's body temperature, but it is both uncomfortable and invasive; therefore, it is notoften used in most clinical settings.

When using an automatic or electronic thermometer to record a patient's temperature, the nurse should place thethermometer in the location on the patient's body at which the temperature is to be recorded, press 'start', andwait for an audible signal and the measurement to register on a display screen. If using a manual thermometer,the thermometer must be located on the patient's body as described, and the nurse must wait at least one fullminute before reading the measurement on the gauge of the thermometer. It is worth noting that manualthermometers are rarely used in most clinical settings in the United Kingdom.

The average temperature for a healthy adult is 36.5°C to 37.5°C. If a patient's temperature is>37.5°C, they are said to have hyperthermia or a fever. If a patient's temperature is<36.5°C, they are said to have hypothermia. Causes of variations from normal temperature includeinfection, stress, dehydration, recent exercise, being in a hot or cold environment, drinking a hot or coldbeverage, and thyroid disorders.

Measurement of respiratory rate

Respiratory rate is often abbreviated to 'RR'. This is defined as the number of times a person inhales andexhales in a 1 minute period. It is recorded at a rate of 'breaths per minute'.

Respiratory rate is typically measured by counting the number of times a patient completes a full ventilatorycycle (inhalation plus exhalation) in a 1 minute period. This can be measured by watching the rise and fall ofthe patient's chest and / or abdomen, or (though less commonly) the breath sounds may also be auscultated. It isbest that nurses measure a patient's respiratory rate when the patient is unaware that they are doing so, asthis will prevent the patient unconsciously (or even consciously!) changing the way they breathe.

When measuring the RR, a nurse may:

  • Count the number of pulses for 60 seconds.
  • Count the number of pulses for 30 seconds, and multiply by 2 - if the RR is regular.
  • Count the number of pulses for 15 seconds, and multiply by 4 - if the RR is regular.

In addition to assessing a patient's heart rate, the nurse should assess:

  • The rhythm, or pattern / regularity, of the patient's breathing.
  • The depth of the patient's breathing, or level of lung expansion (normal, shallow, or deep).
  • The effort associated with the patient's breathing, often evaluated by observing for accessory muscle useand tissue retractions, etc.

The average respiratory rate for a healthy adult is 10 to 16 breaths per minute. If a patient's RR is >16breaths per minute, this is referred to as tachpynoea; this may result from cellular hypoxia, acidosis,conditions that interfere with gas exchange / ventilation / perfusion (e.g. pulmonary oedema, pneumonia,pulmonary embolism), shock, pain, anxiety, asthma, respiratory disease, cardiac disease, etc. If a patient's RRis <10 breaths per minute, this is referred to as bradypnoea; this may result from head injury,stroke, overdose (particularly of central nervous system depressants), respiratory failure, etc.

Measurement of blood oxygen saturation

Blood oxygen saturation is often abbreviated to 'SpO2'. This is defined as the amount of oxygenpresent in a person's blood - specifically, bound to their haemoglobin - at a given time. It is measured as apercentage, using a non-invasive automatic measuring device called a pulse oximeter. The probe of a pulseoximeter is usually placed on the end of a patient's finger or toe or, less commonly, on their earlobe or theirnose. A reading is given on the machine's screen after a period of approximately 15 seconds.

The blood oxygen saturation of a healthy adult is typically 98%-100%. A variety of problems, particularly thoserelated to the respiratory and cardiovascular systems (refer to the information on HR and RR, above), can resultin a patient's blood oxygen saturation reducing below this normal range.

Measurement of height, weight and body mass index (BMI)

Although not strictly vital signs, a patient's height, weight and - subsequently - their body mass index (BMI)can provide a nurse with important information about their overall health and physical condition. A patient'sweight is measured using a scale, whilst their height is measured using a platform ruler or tape measure. Bodymass index can then be calculated, using the following formula: BMI = Weight (kg) / Height (m)2 It isworth noting that most clinical areas have charts which assist nurses to calculate BMI.

BMI is a useful, objective measurement of a person's body condition, based on their unique height and weight. Apatient's BMI is interpreted as follows:

BMI

Interpretation

<18.5

Underweight

18.6 to 24.9

Normal weight

25 to 29.9

Overweight

>30

Obese

It is worth noting that the accuracy of the BMI measurement - and, therefore, its utility in the clinicalcontext - is subject to much conjecture. As always, it is important that nurses use critical thinking tointerpret the entire clinical picture of the individual patient with whom they are working.

Measurement of pain

In many clinical areas, pain is considered the sixth 'vital sign'. Pain is generally assessed using a strategywhich can be remembered using the 'OPQRST' mnemonic

O

Onset: "When did the pain begin?"

P

Provocation and palliation: "What makes the pain worse? What helps the pain?"

Q

Quality: "Describe the pain." (E.g. sharp, dull, stabbing, etc.).

R

Region and radiation: "Where do you feel the pain? Does the pain spread to other areas of yourbody?"

S

Severity: "On a scale of 1 to 10, where 1 is no pain and 10 is the most severe pain you haveexperienced, how would you rate the pain?" (Note that there are a range of other pain scales -including visual scales for paediatric and non-verbal patients - which may be used in health caresettings).

T

Time: "How long has the pain been present?"

It is also important to highlight that there are a number of visual scales which can be used to assess pain inpatients who are non-verbal. In patients who cannot describe their pain or communicate that they areexperiencing pain, nurses should look for other signs of pain - such as restlessness, agitation, tachycardia,diaphoresis, pallor, etc.

Recording the vital signs

So far, this chapter has described in detail the processes involved in measuring a patient's vital signs. Oncethese have been measured, the information must be documented so that it can be used to: (1) assess the patient'scondition, and (2) inform the care which is appropriate for that patient. As you saw in a previous chapter ofthis module, there are a variety of different ways that data can be recorded, and this generally differs betweenclinical settings and organisations; nurses are encouraged to familiarise themselves with the documentationstrategies used in the organisation where they work. Regardless of how data is recorded, however, documentationmust be complete, accurate, concise, legible and free from bias. You should revise the principles of documentinghealth observation and assessment data from the earlier chapter of this module, if required.

Often in the United Kingdom, a patient's vital signs are recorded using early warning score tools. These piecesof documentation allow a nurse to graphically represent a patient's vital sign measurements to identify changesover time, and to calculate simple scores which describe a patient's risk of deterioration into serious illness.Early warning score tools may also provide a nurse with information about how they should respond if theyidentify that a patient's vital signs are outside the expected ranges - for example, by increasing the frequencyof monitoring, by requesting a medical review or by initiating an emergency call.

Interpreting the vital signs

Once you have measured and recorded a patient's vital signs, it is important that you are able to analyse andinterpret the data you have collected. Essentially, this means attempting to understand and make sense of thisdata, based on the patient's physiological condition. Remember: it is important that nurses use criticalthinking to interpret the entire clinical picture of the individual patient with whom they are working. Let'sconsider a case study example:

Example

Elizabeth is a graduate nurse working in the Accident and Emergency Department (A&E) of a large tertiaryhospital in London. She is caring for a young man, Luke, who has been transported by road ambulance following ahigh-speed motor vehicle accident. Luke has an open, mid-shaft femoral fracture which is bleeding heavily.

Whilst receiving handover from the paramedics who attended the scene, Elizabeth measures Luke's vital signs,finding:

  • A HR of 101 beats per minute (high).
  • A RR of 18 breaths per minute (high).
  • A BP of 60/110 (low).

The paramedics estimate that Luke has lost 1000mL of blood.

Elizabeth analyses and interprets this assessment data. She knows Luke has lost a significant amount of blood,which is likely to result directly in his low BP. Luke's high HR and RR are probably to compensate for his lowblood pressure (i.e. his heart beats faster, and he breathes more rapidly, in an attempt to increase perfusionto his organs). Luke's high HR and RR may also be a response to the significant pain he is likely to beexperiencing, and also shock at the situation in which he finds himself.

In analysing and interpreting her measurements of Luke's vital signs in this way, Elizabeth can plan effectivecare for Luke. She also has a baseline which she can use to evaluate the effectiveness of the care provided.

It is important to remember that learning to measure and record a patient's vital signs accurately, and toanalyse and interpret the data collected, are skills which comes with practice. As a student and new graduatenurse, it is essential that you take every possible opportunity to practice collecting, recording andinterpreting the vital signs of a variety of different patients, in a range of different clinical settings.

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Conclusion

As you have seen in this chapter, the measurement and recording of the vital signs is the first step in theprocess of physically examining a patient - that is, in collecting objective data about a patient'ssigns (i.e. what the nurse can observe, feel, hear or measure). This chapter began with an introductionto the importance of measuring the vital signs in nursing practice. It went on to describe the measurement ofeach of the vital signs and the collection of other supporting data (e.g. height, weight, pain score),discussing key strategies and considerations. The chapter then reviewed the processes involved in recording datacollected about the vital signs. Finally, the chapter discussed how a nurse should go about interpreting thedata they have obtained, to build a clinical picture of the patient and plan for their care. In completing thischapter, you have become equipped with the knowledge and skills you require to accurately measure and record apatient's vital signs.

Reflection

Now we have reached the end of this chapter, you should be able:

  • To describe the place of measuring and recording the vital signs in the health observation and assessmentprocess.
  • To state the normal parameters of each vital sign for a healthy adult.
  • To understand how to accurately measure each vital sign.
  • To understand how to collect other key health data (e.g. height, weight, pain score).
  • To describe how to correctly record this data.
  • To explain how this data should be interpreted and used in nursing practice.

Reference list

Cox, C. (2009). Physical Assessment for Nurses (2nd edn.). West Sussex, UK: Blackwell Publishing, Ltd.

Jensen, S. (2014). Nursing Health Assessment: A Best Practice Approach. London, UK: Wolters KluwerPublishing.

Wilson, S.F. & Giddens, J.F. (2005). Health Assessment for Nursing Practice (4th edn.). St Louis,MI: Mosby Elsevier.

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Health Observation Lecture: Measuring and Recording the Vital Signs (2024)

FAQs

What are the 5 main vitals observations? ›

What are vital signs?
  • Body temperature.
  • Pulse rate.
  • Respiration rate (rate of breathing)
  • Blood pressure (Blood pressure is not considered a vital sign, but is often measured along with the vital signs.)

Why is observing and recording vital signs important? ›

[1] The degree of vital sign abnormalities may also predict the long-term patient health outcomes, return emergency department visits, and frequency of readmission to hospitals, and utilization of healthcare resources.

What is the importance of measuring and documenting vital signs correctly for patients? ›

Your vital signs measure your body's basic functions. Vitals display a snapshot of what's going on inside your body. They provide crucial information about your organs. Therefore, the importance of vital signs monitoring is that it allows medical professionals to assess your wellbeing.

Why is it important to accurately measure and record vital signs for a patient resident? ›

Assessing General Physical Health:

They provide a baseline that helps compare current measurements with past records to detect deviations from a patient's normal range. Regular monitoring of vital signs can preemptively alert to health issues even before symptoms become apparent, allowing for early intervention.

What are the 5 steps of vital signs? ›

Let's take a look at how these signs are measured and what the measurements mean.
  • Body temperature. ...
  • Pulse or heart rate. ...
  • Respiratory rate. ...
  • Blood pressure. ...
  • Oxygen level/saturation (SpO2)
Jul 6, 2022

How do you document vital signs? ›

Temperature, pulse, respira- tion, and blood pressure are usually taken in this order. For proper charting of vital signs in the medical record, it is helpful to remember the T, P, R, BP sequence and record the results in that order. During some office visits, only one of the vital signs may be measured.

Why is it important to record observations? ›

Importance of Recording in Observation

It allows researchers and practitioners to document their observations and review them later, ensuring accuracy and consistency. Recording also enables the sharing of observations with other researchers or practitioners, facilitating collaboration and peer review.

Why is it essential that vital signs are measured? ›

Vital signs reflect essential body functions, including your heartbeat, breathing rate, temperature, and blood pressure. Your health care provider may measure, or monitor your vital signs to check your level of physical functioning.

What are abnormal vital signs? ›

A pulse rate less than 60/min or greater than 100/min, a temperature less than 95 °F or greater than 99.6 °F, and a blood oxygen level of less than 95% defined abnormal levels.

How often should vital signs be taken? ›

* ESI Level 3: Patients with normal vital signs should be reassessed at the discretion of the nurse, but no less frequently than every 4 hours. Patients with abnormal vital signs should be reassessed no less frequently than every 2 hours for the first 4 hours, then every 4 hours if clinically stable.

Why is it important to measure and observe vital signs for all patients who are unwell in relation to homeostasis? ›

The human body constantly struggles to maintain a stable state of being or homeostasis, which is central to life. Vital signs are measurements of the body's most basic functions and are an extremely useful tool to monitor homeostasis and measure physiological normal functions within the body (25).

Why is it important to take and record accurate vital signs? ›

Urgent message: Recording thorough and accurate vital signs supports the urgent care physician in asking the right questions of the patient's history of present illness, guides the physician in the physical exam, and thus is essential in reaching an accurate diagnosis and devising an effective treatment plan.

Why are observations of the vital signs important to nurses and physicians? ›

Vital signs, i.e. respiratory rate, oxygen saturation, pulse, blood pressure and temperature, are regarded as an essential part of monitoring hospitalized patients. Changes in vital signs prior to clinical deterioration are well documented and early detection of preventable outcomes is key to timely intervention.

What is the best reason to obtain and record an accurate set of vital signs? ›

Select the BEST reason to obtain and record an accurate set of vital signs. It is required by the medical control protocols. Medical control reviews these for compliance. It allows the hospital staff to see changes in patient condition.

What are the 5 principles of vital signs? ›

There are four primary vital signs: body temperature, blood pressure, pulse (heart rate), and breathing rate (respiratory rate), often notated as BT, BP, HR, and RR. However, depending on the clinical setting, the vital signs may include other measurements called the "fifth vital sign" or "sixth vital sign."

What are the 5 clinical observations? ›

Our quick guide to nursing observations
  • body temperature.
  • respiratory rate.
  • heart rate.
  • pain score.
  • level of alertness.
May 20, 2024

What are the five important of vital signs? ›

These include your temperature, heart rate, respiratory rate, blood pressure, and oxygen saturation. At almost every healthcare appointment, a doctor, nurse, or another member of the healthcare team will take your vital signs and record them. It's important to establish and record baseline measurements.

What are the 5 vital signs their normal values? ›

In healthy adults at rest, normal values are as follows :
  • Heart rate (pulse): 60-100 bpm.
  • Respiratory rate: 12-18 breaths per minute.
  • Blood pressure: between 90/60 mmHg and 120/80 mmHg.
  • Temperature: 97.8°F (36.5°C) to 99.1°F (37.3°C); average 98.6°F (37°C)
Feb 16, 2024

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