Understanding Frequencies and Percentages Essay
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Details:
Complete Exercises 6, 8, and 9 in Statistics for Nursing Research: A Workbook for Evidence-Based Practice, and submit as directed by the instructor.]
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chapter 6
Understanding Frequencies
and Percentages
STATISTICAL TECHNIQUE IN REVIEW
Frequency is the number of times a score or value for a variable occurs in a set of data.
Frequency distribution is a statistical procedure that involves listing all the possible
values or scores for a variable in a study. Frequency distributions are used to organize
study data for a detailed examination to help determine the presence of errors in coding
or computer programming ( Grove, Burns, & Gray, 2013 ). In addition, frequencies and
percentages are used to describe demographic and study variables measured at the nominal
or ordinal levels.
Percentage can be defi ned as a portion or part of the whole or a named amount in
every hundred measures. For example, a sample of 100 subjects might include 40 females
and 60 males. In this example, the whole is the sample of 100 subjects, and gender is
described as including two parts, 40 females and 60 males. A percentage is calculated
by dividing the smaller number, which would be a part of the whole, by the larger
number, which represents the whole. The result of this calculation is then multiplied
by 100%. For example, if 14 nurses out of a total of 62 are working on a given day, you
can divide 14 by 62 and multiply by 100% to calculate the percentage of nurses working
that day. Calculations: (14 ÷ 62) × 100% = 0.2258 × 100% = 22.58% = 22.6%. The answer
also might be expressed as a whole percentage, which would be 23% in this example.
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A cumulative percentage distribution involves the summing of percentages from the
top of a table to the bottom. Therefore the bottom category has a cumulative percentage
of 100% (Grove, Gray, & Burns, 2015). Cumulative percentages can also be used to determine
percentile ranks, especially when discussing standardized scores. For example, if 75%
of a group scored equal to or lower than a particular examinee ’ s score, then that examinee ’ s
rank is at the 75 th percentile. When reported as a percentile rank, the percentage is often
rounded to the nearest whole number. Percentile ranks can be used to analyze ordinal
data that can be assigned to categories that can be ranked. Percentile ranks and cumulative
percentages might also be used in any frequency distribution where subjects have only one
value for a variable. For example, demographic characteristics are usually reported with the
frequency ( f ) or number ( n ) of subjects and percentage (%) of subjects for each level of a
demographic variable. Income level is presented as an example for 200 subjects:
Income Level Frequency ( f ) Percentage (%) Cumulative %
1. < $40,000 20 10% 10%
2. $40,000–$59,999 50 25% 35%
3. $60,000–$79,999 80 40% 75%
4. $80,000–$100,000 40 20% 95%
5. > $100,000 10 5% 100%
EXERCISE
6
60 EXERCISE 6 • Understanding Frequencies and Percentages
Copyright © 2017, Elsevier Inc. All rights reserved.
In data analysis, percentage distributions can be used to compare fi ndings from different
studies that have different sample sizes, and these distributions are usually arranged in
tables in order either from greatest to least or least to greatest percentages ( Plichta &
Kelvin, 2013 ).
RESEARCH ARTICLE
Source
Eckerblad, J., Tödt, K., Jakobsson, P., Unosson, M., Skargren, E., Kentsson, M., & Theander,
K. (2014). Symptom burden in stable COPD patients with moderate to severe airfl ow
limitation. Heart & Lung, 43 (4), 351–357.
Introduction
Eckerblad and colleagues (2014 , p. 351) conducted a comparative descriptive study to
examine the symptoms of “patients with stable chronic obstructive pulmonary disease
(COPD) and determine whether symptom experience differed between patients with moderate
or severe airfl ow limitations.” The Memorial Symptom Assessment Scale (MSAS)
was used to measure the symptoms of 42 outpatients with moderate airfl ow limitations
and 49 patients with severe airfl ow limitations. The results indicated that the mean
number of symptoms was 7.9 ( } 4.3) for both groups combined, with no signifi cant differences
found in symptoms between the patients with moderate and severe airfl ow limitations.
For patients with the highest MSAS symptom burden scores in both the moderate
and the severe limitations groups, the symptoms most frequently experienced included
shortness of breath, dry mouth, cough, sleep problems, and lack of energy. The researchers
concluded that patients with moderate or severe airfl ow limitations experienced multiple
severe symptoms that caused high levels of distress. Quality assessment of COPD
patients ’ physical and psychological symptoms is needed to improve the management of
their symptoms.
Relevant Study Results
Eckerblad et al. (2014 , p. 353) noted in their research report that “In total, 91 patients
assessed with MSAS met the criteria for moderate ( n = 42) or severe airfl ow limitations
( n = 49). Of those 91 patients, 47% were men, and 53% were women, with a mean age of
68 ( } 7) years for men and 67 ( } 8) years for women. The majority (70%) of patients were
married or cohabitating. In addition, 61% were retired, and 15% were on sick leave.
Twenty-eight percent of the patients still smoked, and 69% had stopped smoking. The
mean BMI (kg/m 2 ) was 26.8 ( } 5.7).
There were no signifi cant differences in demographic characteristics, smoking history,
or BMI between patients with moderate and severe airfl ow limitations ( Table 1 ). A lower
proportion of patients with moderate airfl ow limitation used inhalation treatment with
glucocorticosteroids, long-acting β 2 -agonists and short-acting β 2 -agonists, but a higher
proportion used analgesics compared with patients with severe airfl ow limitation.
Symptom prevalence and symptom experience
The patients reported multiple symptoms with a mean number of 7.9 ( } 4.3) symptoms
(median = 7, range 0–32) for the total sample, 8.1 ( } 4.4) for moderate airfl ow limitation
and 7.7 ( } 4.3) for severe airfl ow limitation ( p = 0.36) . . . . Highly prevalent physical symptoms
( ≥ 50% of the total sample) were shortness of breath (90%), cough (65%), dry mouth
(65%), and lack of energy (55%). Five additional physical symptoms, feeling drowsy, pain,
Understanding Frequencies and Percentages • EXERCISE 6 61
Copyright © 2017, Elsevier Inc. All rights reserved.
TABLE 1 BACKGROUND CHARACTERISTICS AND USE OF MEDICATION FOR PATIENTS WITH
STABLE CHRONIC OBSTRUCTIVE LUNG DISEASE CLASSIFIED IN PATIENTS WITH
MODERATE AND SEVERE AIRFLOW LIMITATION
Moderate
n = 42
Severe
n = 49 p Value
Sex, n (%) 0.607
Women 19 (45) 29 (59)
Men 23 (55) 20 (41)
Age (yrs), mean ( SD ) 66.5 (8.6) 67.9 (6.8) 0.396
Married/cohabitant n (%) 29 (69) 34 (71) 0.854
Employed, n (%) 7 (17) 7 (14) 0.754
Smoking, n % 0.789
Smoking 13 (31) 12 (24)
Former smokers 28 (67) 35 (71)
Never smokers 1 (2) 2 (4)
Pack years smoking, mean ( SD ) 29.1 (13.5) 34.0 (19.5) 0.177
BMI (kg/m 2 ), mean ( SD ) 27.2 (5.2) 26.5 (6.1) 0.555
FEV 1 % of predicted, mean ( SD ) 61.6 (8.4) 42.2 (5.8) < 0.001
SpO 2 % mean ( SD ) 95.8 (2.4) 94.5 (3.0) 0.009
Physical health, mean ( SD ) 3.2 (0.8) 3.0 (0.8) 0.120
Mental health, mean ( SD ) 3.7 (0.9) 3.6 (1.0) 0.628
Exacerbation previous 6 months, n (%) 14 (33) 15 (31) 0.781
Admitted to hospital previous year, n (%) 10 (24) 14 (29) 0.607
Medication use, n (%)
Inhaled glucocorticosteroids 30 (71) 44 (90) 0.025
Systemic glucocorticosteroids 3 (6.3) 0 (0) 0.094
Anticholinergic 32 (76) 42 (86) 0.245
Long-acting β 2 -agonists 30 (71) 45 (92) 0.011
Short-acting β 2 -agonists 13 (31) 32 (65) 0.001
Analgesics 11 (26) 5 (10) 0.046
Statins 8 (19) 11 (23) 0.691
Eckerblad, J., Tödt, K., Jakobsson, P., Unosson, M., Skargren, E., Kentsson, M., & Theander, K. (2014). Symptom burden in stable
COPD patients with moderate to severe airfl ow limitation. Heart & Lung, 43 (4), p. 353.
numbness/tingling in hands/feet, feeling irritable, and dizziness, were reported by between
25% and 50% of the patients. The most commonly reported psychological symptom was
diffi culty sleeping (52%), followed by worrying (33%), feeling irritable (28%) and feeling
sad (22%). There were no signifi cant differences in the occurrence of physical and psychological
symptoms between patients with moderate and severe airfl ow limitations”
( Eckerblad et al., 2014 , p. 353).
62 EXERCISE 6 • Understanding Frequencies and Percentages
Copyright © 2017, Elsevier Inc. All rights reserved.
STUDY QUESTIONS
1. What are the frequency and percentage of women in the moderate airfl ow limitation group?
2. What were the frequencies and percentages of the moderate and the severe airfl ow limitation
groups who experienced an exacerbation in the previous 6 months?
3. What is the total sample size of COPD patients included in this study? What number or frequency
of the subjects is married/cohabitating? What percentage of the total sample is married
or cohabitating?
4. Were the moderate and severe airfl ow limitation groups signifi cantly different regarding married/
cohabitating status? Provide a rationale for your answer.
5. List at least three other relevant demographic variables the researchers might have gathered data
on to describe this study sample.
6. For the total sample, what physical symptoms were experienced by ≥ 50% of the subjects? Identify
the physical symptoms and the percentages of the total sample experiencing each symptom.
Understanding Frequencies and Percentages • EXERCISE 6 63
Copyright © 2017, Elsevier Inc. All rights reserved.
7. Were the physical symptoms identifi ed in the study what you might expect for patients with
moderate to severe COPD? Provide a rationale for your answer with documentation.
8. What frequency and percentage of the total sample used inhaled glucocorticosteroids? Show
your calculations and round to the nearest tenth of a percent.
9. Is there a signifi cant difference between the moderate and severe airfl ow limitation groups
regarding the use of inhaled glucocorticosteriods? Provide a rationale for your answer.
10. Was the percentage of COPD patients with moderate and severe airfl ow limitations using
inhaled glucocorticosteriods what you expected? Provide a rationale for your answer with
documentation.
64 Copyright © 2017, Elsevier Inc. All rights reserved.
Answers to Study Questions
1. The moderate airfl ow limitation group included 19 women, which means 45% of this group
was female (see Table 1 ).
2. A frequency of 14 (33%) of the moderate airfl ow limitation group and a frequency of 15 (31%)
of the severe airfl ow limitation group experienced an exacerbation in the previous 6 months
(see Table 1 ).
3. The total sample was N = 91 patients with COPD in the Eckerblad et al. (2014) study (see the
narrative of study results). The number or frequency of subjects ’ who were married/cohabitating
is calculated by adding the frequencies from the two groups in Table 1 .
Calculation: Frequency married/cohabitating = 29 moderate group + 34 severe group = 63.
The percentage of the sample married/cohabitating is 70% (see narrative of study results) or
can be calculated by (frequency married/cohabitating ÷ sample size) × 100% = (63 ÷ 91) ×
100% = 69.23% = 69%. The researchers might have rounded to next higher whole percent of
70%, but 69% is a more accurate percentage of the married/cohabitating for the sample.
4. No, the moderate and severe airfl ow limitation groups were not signifi cantly different regarding
married/cohabitating status as indicated by p = 0.854 (see Table 1 ). The level of signifi –
cance or alpha ( α ) in most nursing studies is set at α = 0.05 ( Grove et al., 2015 ). Since the
p value is > 0.05, the two groups were not signifi cantly different in this study.
5. Additional demographic variables that might have been described in this study include race/
ethnicity, socioeconomic status or income level, years diagnosed with COPD, and other comorbid
medical diagnoses of these study participants. You might have identifi ed other relevant
demographic variables to be included in this study.
6. “Highly prevalent physical symptoms ( ≥ 50% of the total sample) were shortness of breath
(90%), cough (65%), dry mouth (65%), and lack of energy (55%)” ( Eckerblad et al., 2014 ,
p. 353; see study narrative of results).
7. Yes, the physical symptoms of shortness of breath, cough, dry mouth, and lack of energy or
fatigue are extremely common in patients with COPD who have moderate to severe airfl ow
limitations. Evidence-based guidelines for many chronic diseases can be found on the Agency
for Healthcare Research and Quality (AHRQ) website at www.guidelines.gov . Specifi c evidence-
based guidelines for the assessment, diagnosis, and management of COPD can be
found at the following AHRQ website: http://www.guideline.gov/content.aspx?id = 23801
&search = copd . The Global Initiative for Chronic Obstructive Lung Disease website is also an
excellent resource at http://www.goldcopd.org/Guidelines/guidelines-resources.html . You
might document with other websites, research articles, or textbooks.
Understanding Frequencies and Percentages • EXERCISE 6 65
Copyright © 2017, Elsevier Inc. All rights reserved.
8. Frequency = 74 and percent = 81.3%. In this study, 30 of the moderate airfl ow limitation group
and 44 of the severe group used inhaled glucocorticosteroids. Calculations: Frequency = 30
+ 44 = 74. Percentage total sample = (74 ÷ 91) × 100% = 0.8132 × 100% = 81.32% = 81.3%,
rounded to the nearest tenth of a percent.
9. Yes, the moderate and severe airfl ow limitation groups were signifi cantly different regarding
the use of inhaled glucocorticosteroids as indicated by p = 0.025 (see Table 1 ). The level of
signifi cance or alpha ( α ) in most nursing studies is set at 0.05. Since the p value is < 0.05, the
two groups were signifi cantly different for the use of inhaled glucocorticosteroids in this
study ( Grove et al., 2013 ; Shadish, Cook, & Campbell, 2002 ).
10. In this study, 30 (71%) of the patients with moderate airfl ow limitation and 44 (90%) of the
patients with severe airfl ow limitation were treated with glucocorticosteroids. The mean percentage
for the total sample who used glucocorticosteroids is (71% + 90%) ÷ 2 = 161 ÷ 2 =
80.5%, or 81%. The use of inhaled glucocorticosteroids is very common for patients with
moderate to severe COPD, in fact, recommended by national evidence-based guidelines, particularly
for those with severe airfl ow limitation. Thus, you might expect that a large number
of COPD patients in this study were using inhaled glucocorticosteroids. The Gold Standard
for the management of COPD can be found at the AHRQ (2015) website at: http://www
.guideline.gov/content.aspx?id = 23801&search = copd or at the Global Initiative for Chronic
Obstructive Lung Disease website at: http://www.goldcopd.org/Guidelines/guidelinesresources.
html .
Copyright © 2017, Elsevier Inc. All rights reserved. 67
EXERCISE
6
Questions to Be Graded
Follow your instructor ’ s directions to submit your answers to the following questions for grading.
Your instructor may ask you to write your answers below and submit them as a hard copy for
grading. Alternatively, your instructor may ask you to use the space below for notes and submit your
answers online at http://evolve.elsevier.com/Grove/statistics/ under “Questions to Be Graded.”
1. What are the frequency and percentage of the COPD patients in the severe airfl ow limitation
group who are employed in the Eckerblad et al. (2014) study?
2. What percentage of the total sample is retired? What percentage of the total sample is on sick
leave?
3. What is the total sample size of this study? What frequency and percentage of the total sample
were still employed? Show your calculations and round your answer to the nearest whole percent.
4. What is the total percentage of the sample with a smoking history—either still smoking or former
smokers? Is the smoking history for study participants clinically important? Provide a rationale
for your answer.
Name: _______________________________________________________ Class: _____________________
Date: ___________________________________________________________________________________
68 EXERCISE 6 • Understanding Frequencies and Percentages
Copyright © 2017, Elsevier Inc. All rights reserved.
5. What are pack years of smoking? Is there a signifi cant difference between the moderate and severe
airfl ow limitation groups regarding pack years of smoking? Provide a rationale for your answer.
6. What were the four most common psychological symptoms reported by this sample of patients
with COPD? What percentage of these subjects experienced these symptoms? Was there a signifi
cant difference between the moderate and severe airfl ow limitation groups for psychological
symptoms?
7. What frequency and percentage of the total sample used short-acting β2 -agonists? Show your
calculations and round to the nearest whole percent.
8. Is there a signifi cant difference between the moderate and severe airfl ow limitation groups
regarding the use of short-acting β 2 -agonists? Provide a rationale for your answer.
9. Was the percentage of COPD patients with moderate and severe airfl ow limitation using shortacting
β 2 -agonists what you expected? Provide a rationale with documentation for your answer.
10. Are these fi ndings ready for use in practice? Provide a rationale for your answer
chapter 8
Measures of Central Tendency :
Mean, Median, and Mode
EXERCISE
8
STATISTICAL TECHNIQUE IN REVIEW
Mean, median, and mode are the three measures of central tendency used to describe
study variables. These statistical techniques are calculated to determine the center of a
distribution of data, and the central tendency that is calculated is determined by the level
of measurement of the data (nominal, ordinal, interval, or ratio; see Exercise 1 ). The mode
is a category or score that occurs with the greatest frequency in a distribution of scores
in a data set. The mode is the only acceptable measure of central tendency for analyzing
nominal-level data, which are not continuous and cannot be ranked, compared, or subjected
to mathematical operations. If a distribution has two scores that occur more frequently
than others (two modes), the distribution is called bimodal . A distribution with
more than two modes is multimodal ( Grove, Burns, & Gray, 2013 ).
The median ( MD ) is a score that lies in the middle of a rank-ordered list of values of
a distribution. If a distribution consists of an odd number of scores, the MD is the middle
score that divides the rest of the distribution into two equal parts, with half of the values
falling above the middle score and half of the values falling below this score. In a distribution
with an even number of scores, the MD is half of the sum of the two middle numbers
of that distribution. If several scores in a distribution are of the same value, then the MD
will be the value of the middle score. The MD is the most precise measure of central tendency
for ordinal-level data and for nonnormally distributed or skewed interval- or ratiolevel
data. The following formula can be used to calculate a median in a distribution of
scores.
Median(MD) (N 1) 2
N is the number of scores
Example: N Median th score 31
31 1
2
32 2 16
Example: N Median . th score 40
40 1
2
41 2 20 5
Thus in the second example, the median is halfway between the 20 th and the 21 st scores.
The mean ( X ) is the arithmetic average of all scores of a sample, that is, the sum of its
individual scores divided by the total number of scores. The mean is the most accurate
measure of central tendency for normally distributed data measured at the interval and
ratio levels and is only appropriate for these levels of data (Grove, Gray, & Burns, 2015).
In a normal distribution, the mean, median, and mode are essentially equal (see Exercise
26 for determining the normality of a distribution). The mean is sensitive to extreme
80 EXERCISE 8 • Measures of Central Tendency: Mean, Median, and Mode
Copyright © 2017, Elsevier Inc. All rights reserved.
scores such as outliers. An outlier is a value in a sample data set that is unusually low or
unusually high in the context of the rest of the sample data. If a study has outliers, the
mean is most affected by these, so the median might be the measure of central tendency
included in the research report ( Plichta & Kelvin, 2013 ). The formula for the mean is:
MeanX
X
N
Σ X is the sum of the raw scores in a study
N is the sample size or number of scores in the study
Example:Raw scores 8, 9, 9,10,11,11 N 6 Mean 58 6 9.666 9.67
RESEARCH ARTICLE
Source
Winkler, C., Funk, M., Schindler, D. M., Hemsey, J. Z., Lampert, R., & Drew, B. J. (2013).
Arrhythmias in patients with acute coronary syndrome in the fi rst 24 hours of hospitalization.
Heart & Lung, 42 (6), 422–427.
Introduction
Winkler and colleagues (2013) conducted their study to describe the arrhythmias of a
population of patients with acute coronary syndrome (ACS) during their fi rst 24 hours
of hospitalization and to explore the link between arrhythmias and patients ’ outcomes.
The patients with ACS were admitted through the emergency department (ED), where a
Holter recorder was attached for continuous 12-lead electrocardiographic (ECG) monitoring.
The ECG data from the Holter recordings of 278 patients with ACS were analyzed.
The researchers found that “approximately 22% of patients had more than 50 premature
ventricular contractions (PVCs) per hour. Non-sustained ventricular tachycardia (VT)
occurred in 15% of the patients . . . . Only more than 50 PVCs/hour independently predicted
an increased length of stay ( p < 0.0001). No arrhythmias predicted mortality. Age
greater than 65 years and a fi nal diagnosis of acute myocardial infarction (AMI) independently
predicted more than 50 PVCs per hour ( p = 0.0004)” ( Winkler et al., 2013 , p. 422).
Winkler and colleagues (2013 , p. 426) concluded: “Life-threatening arrhythmias are
rare in patients with ACS, but almost one quarter of the sample experienced isolated
PVCs. There was a signifi cant independent association between PVCs and a longer length
of stay (LOS), but PVCs were not related to other adverse outcomes. Rapid treatment of
the underlying ACS should remain the focus, rather than extended monitoring for
arrhythmias we no longer treat.”
Relevant Study Results
The demographic and clinical characteristics of the sample and the patient outcomes for
this study are presented in this exercise. “The majority of the patients ( n = 229; 83%) had
a near complete Holter recording of at least 20 h and 171 (62%) had a full 24 h recorded.
We included recordings of all patients in the analysis. The mean duration of continuous
12-lead Holter recording was 21 } 6 (median 24) h.
The mean patient age was 66 years and half of the patients identifi ed White as
their race ( Table 1 ). There were more males than females and most patients (92%) experienced
chest pain as one of the presenting symptoms to the ED. Over half of the patients
Measures of Central Tendency: Mean, Median, and Mode • EXERCISE 8 81
Copyright © 2017, Elsevier Inc. All rights reserved.
TABLE 1 DEMOGRAPHIC AND CLINICAL CHARACTERISTICS OF THE SAMPLE ( N = 278)
Characteristic N %
Gender
Male 158 57
Female 120 43
Race
White 143 51
Asian 60 22
Black 50 18
American Indian 23 8
Pacifi c Islander 2 < 1
Presenting Symptoms to the ED (May Have > 1)
Chest pain 255 92
Shortness of breath 189 68
Jaw, neck, arm, or back pain 152 55
Diaphoresis 116 42
Nausea and vomiting 96 35
Syncope 11 4
Cardiovascular Risk Factors (May Have > 1)
Hypertension 211 76
Hypercholesterolemia 175 63
Family history of CAD 148 53
Diabetes 81 29
Smoking (current) 56 20
Cardiovascular Medical History (May Have > 1)
Personal history of CAD 176 63
History of unstable angina 124 45
Previous acute myocardial infarction 114 41
Previous percutaneous coronary intervention 85 31
Previous CABG surgery 54 19
History of arrhythmias 53 19
Final Diagnosis
Unstable angina 180 65
Non-ST elevation myocardial infarction 74 27
ST elevation myocardial infarction 24 9
Interventions during 24-h Holter Recording
PCI ≤ 90 min of ED admission 14 5
PCI > 90 min of ED admission 3 1
Thrombolytic medication 3 1
Interventions Any Time during Hospitalization
PCI 76 27
Treated with anti-arrhythmic medication 16 6
CABG surgery 22 8
Mean ( SD ) Median Range
Age (years) 66 (14) 66 30–102
ECG recording time (hours) 21 (6) 24 2–25
ED, emergency department; CAD, coronary artery disease; CABG, coronary artery bypass graft; PCI, percutaneous coronary
intervention; SD , standard deviation; ECG, electrocardiogram.
Winkler, C., Funk, M., Schindler, D. M., Hemsey, J. Z., Lampert, R., & Drew, B. J. (2013). Arrhythmias in patients with acute
coronary syndrome in the fi rst 24 hours of hospitalization. Heart & Lung, 42 (6), p. 424.
82 EXERCISE 8 • Measures of Central Tendency: Mean, Median, and Mode
Copyright © 2017, Elsevier Inc. All rights reserved.
Winkler, C., Funk, M., Schindler, D. M., Hemsey, J. Z., Lampert, R., & Drew, B. J. (2013). Arrhythmias in patients with acute
coronary syndrome in the fi rst 24 hours of hospitalization. Heart & Lung , 42 (6), p. 424.
TABLE 2 OUTCOMES DURING INPATIENT STAY, AND WITHIN 30 DAYS AND 1 YEAR OF
HOSPITALIZATION ( N = 278)
Outcomes N %
Inpatient complications (may have > 1)
AMI post admission for patients admitted with UA 21 8
Transfer to intensive care unit 17 6
Cardiac arrest 7 3
AMI extension (detected by 2nd rise in CK-MB) 6 2
Cardiogenic shock 5 2
New severe heart failure/pulmonary edema 2 1
Readmission *
30-day
To ED for a cardiovascular reason 42 15
To hospital for ACS 13 5
1-year ( N = 246)
To ED for a cardiovascular reason 108 44
To hospital for ACS 24 10
All-cause mortality †
Inpatient 10 4
30-day 13 5
1-year ( N = 246) 27 11
Mean ( SD ) Median Range
Length of stay (days) 5.37 (7.02) 4 1–93
AMI, acute myocardial infarction; UA, unstable angina; CK-MB, creatinine kinase-myocardial band; ED, emergency department;
ACS, acute coronary syndrome; SD , standard deviation.
* Readmission: 1-year data include 30-day data.
† All-cause mortality: 30-day data include inpatient data; 1-year data include both 30-day and inpatient data.
experienced shortness of breath (68%) and jaw, neck, arm, or back pain (55%). Hypertension
was the most frequently occurring cardiovascular risk factor (76%), followed by
hypercholesterolemia (63%) and family history of coronary artery disease (53%). A majority
had a personal history of coronary artery disease (63%) and 19% had a history of
arrhythmias” ( Winkler et al., 2013 , pp. 423–424).
Winkler et al. (2013 , p. 424) also reported: “We categorized patient outcomes into four
groups: 1) inpatient complications (of which some patients may have experienced more
than one); 2) inpatient length of stay; 3) readmission to either the ED or the hospital
within 30-days and 1-year of initial hospitalization; and 4) death during hospitalization,
within 30-days, and 1-year after discharge ( Table 2 ). These are outcomes that are reported
in many contemporary studies of patients with ACS. Thirty-two patients (11.5%) were lost
to 1-year follow-up, resulting in a sample size for the analysis of 1-year outcomes of 246
patients” ( Winkler et al., 2013 , p. 424).
Measures of Central Tendency: Mean, Median, and Mode • EXERCISE 8 83
Copyright © 2017, Elsevier Inc. All rights reserved.
STUDY QUESTIONS
1. In Table 1 , what is the mode for cardiovascular risk factors? Provide a rationale for your answer.
What percentage of the patients experienced this risk factor?
2. Which measure of central tendency always represents an actual score of the distribution?
a. Mean
b. Median
c. Mode
d. Range
3. What is the mode for the variable presenting symptoms to the ED? What percentage of the
patients had this symptom? Do the presenting symptoms have a single mode or is this distribution
bimodal or multimodal? Provide a rationale for your answer.
4. What are the three most common presenting symptoms to the ED, and why is this clinically
important?
5. For this study, what are the mean and median ages in years for the study participants?
6. Are the mean and median ages similar or different? What does this indicate about the distribution
of the sample?
84 EXERCISE 8 • Measures of Central Tendency: Mean, Median, and Mode
Copyright © 2017, Elsevier Inc. All rights reserved.
7. What are the mean and median ECG recording times in hours? What is the range for ECG
recordings? Does this distribution of data include an outlier? Provide a rationale for your answer.
8. What is the effect of outliers on the mean? If the study data have extreme outliers (either high
or low scores) in the data, what measure(s) of central tendency might be reported in a study?
Provide a rationale for your answer.
9. In the following example, 10 ACS patients were asked to rate their pain in their jaw and neck
on a 0–10 scale: 3, 4, 7, 7, 8, 5, 6, 8, 7, 9. What are the range and median for the pain scores?
10. Calculate the mean ( X ) for the pain scores in Question 9. Does this distribution of scores appear
to be normal? Provide a rationale for your answer.
Copyright © 2017, Elsevier Inc. All rights reserved. 85
Answers to Study Questions
1. Hypertension (HTN) is the mode for the cardiovascular risk factors since it is the most frequent
risk factor experienced by 211 of the study participants. A total of 76% of the study
participants had HTN.
2. Answer: c. Mode. The mode is the most frequently occurring score in a distribution; thus, it
will always be an actual score of the distribution. The mean is the average of all scores, so it
may not be an actual score of the distribution. Median is the middle score of the distribution,
which, with an even number of items, may not be an actual score in the distribution. The
range is a measure of dispersion, not a measure of central tendency.
3. Chest pain was the mode for the variable presenting symptoms to the ED, with 255 or 92%
of the participants experiencing it (see Table 1 ). The variable presenting symptoms to the ED
has one mode, chest pain, which was the most reported symptom.
4. Chest pain (92%); shortness of breath (68%); and jaw, neck, arm, or back pain (55%) are the
three most commonly reported presenting symptoms to the ED by study participants. This
is clinically important because nurses and other healthcare providers need to assess for these
symptoms, diagnose the problem, and appropriately manage patients presenting with ACS
at the ED. Since 92% of the participants had chest pain, it is clinically important to note this
symptom is common for both males and females in this study.
5. Both the mean ( X ) and median ( MD ) values were equal to 66 years.
6. In this study, the X age = MD age = 66 years, so they are the same value. In a normal distribution
of scores, the mode = MD = X ( Grove et al., 2013 ). Since the MD = X = 66 years, age seems
to be normally distributed in this sample.
7. ECG recording time has X = 21 hours and MD = 24 hours, with a range of 2–25 hours (see
Table 1 ). The 2 hours of ECG Holter monitoring seems to be an outlier, which resulted in
the difference between the mean and median ( X = 21 hours and MD = 24 hours) numbers of
monitoring hours. Winkler et al. (2013) reported that 83% of the study participants had a
near complete Holter recording of at least 20 hours, and 62% of the participants had a full
24 hours recorded, which supports the 2 hours as an outlier. You would need to examine the
study data to determine more about possible outliers. All ECG data were analyzed regardless
of the monitoring time, and more explanation is needed about outliers and the reasons for
including all recordings in the study analyses.
8. An unusually low score or outlier decreases the value of the mean as in this study (see the
answer to Question 7), and an unusually high score increases the mean value. The mean in a
study is most affected by outliers ( Grove et al., 2013 ). If the outliers cause the data to be
skewed or not normally distributed, it is best to report the median. If the data are normally
distributed, then the mean is the best measure of central tendency to report.
86 EXERCISE 8 • Measures of Central Tendency: Mean, Median, and Mode
Copyright © 2017, Elsevier Inc. All rights reserved.
9. Place the pain scores in order from the least to the greatest score = 3, 4, 5, 6, 7, 7, 7, 8,
8, 9. In this example, the range of pain scores = 3–9. The mode = 7 and the MD or middle
score = 7.
10. X = (3 + 4 + 5 + 6 + 7 + 7 + 7 + 8 + 8 + 9) ÷ 10 = 64 ÷ 10 = 6.4. The mode = median = approximately
the mean, so this is a normal distribution of scores. Exercise 26 provides the steps for
determining the normality of a distribution of scores.
Copyright © 2017, Elsevier Inc. All rights reserved. 87
Questions to Be Graded EXERCISE
8
Follow your instructor ’ s directions to submit your answers to the following questions for grading.
Your instructor may ask you to write your answers below and submit them as a hard copy for
grading. Alternatively, your instructor may ask you to use the space below for notes and submit your
answers online at http://evolve.elsevier.com/Grove/statistics/ under “Questions to Be Graded.”
1. The number of nursing students enrolled in a particular nursing program between the years of
2010 and 2016, respectively, were 563, 593, 606, 520, 563, 610, and 577. Determine the mean
( X ), median ( MD ), and mode of the number of the nursing students enrolled in this program.
Show your calculations.
2. What is the mode for the variable inpatient complications in Table 2 of the Winkler et al. (2014)
study? What percentage of the study participants had this complication?
3. Does the distribution of inpatient complications have a single mode, or is this distribution
bimodal or multimodal? Provide a rationale for your answer.
4. As reported in Table 1 , what are the three most common cardiovascular medical history events
in this study, and why is it clinically important to know the frequency of these events?
Name: _______________________________________________________ Class: _____________________
Date: ___________________________________________________________________________________
88 EXERCISE 8 • Measures of Central Tendency: Mean, Median, and Mode
Copyright © 2017, Elsevier Inc. All rights reserved.
5. What are the mean and median lengths of stay (LOS) for the study participants?
6. Are the mean and median for LOS similar or different? What might this indicate about the
distribution of the sample? Provide a rationale for your answer.
7. Examine the study results and determine the mode for arrhythmias experienced by the participants.
What was the second most common arrhythmia in this sample?
8. Was the most common arrhythmia in Question 7 related to LOS? Was this result statistically
signifi cant? Provide a rationale for your answer.
9. What study variables were independently predictive of the 50 premature ventricular contractions
(PVCs) per hour in this study?
10. In Table 1 , what race is the mode for this sample? Should these study fi ndings be generalized to
American Indians with ACS? Provide a rationale for your answer.
Copyright © 2017, Elsevier Inc. All rights reserved. 89
chapter 9
Measures of Dispersion :
Range and Standard Deviation
STATISTICAL TECHNIQUE IN REVIEW
Measures of dispersion , or measures of variability, are descriptive statistical techniques
conducted to identify individual differences of the scores in a sample. These techniques
give some indication of how scores in a sample are dispersed, or spread, around the mean.
The measures of dispersion indicate how different the scores are or the extent that individual
scores deviate from one another. If the individual scores are similar, dispersion or
variability values are small and the sample is relatively homogeneous , or similar, in terms
of these scores. A heterogeneous sample has a wide variation in the scores, resulting in
increased values for the measures of dispersion. Range and standard deviation are the
most common measures of dispersion included in research reports.
The simplest measure of dispersion is the range . In published studies, range is presented
in two ways: (1) the range includes the lowest and highest scores obtained for a
variable, or (2) the range is calculated by subtracting the lowest score from the highest
score. For example, the range for the following scores, 8, 9, 9, 10, 11, 11, might be reported
as 8 to 11 (8–11), which identifi es outliers or extreme values for a variable. The range can
also be calculated as follows: 11 − 8 = 3. In this form, the range is a difference score that
uses only the two extreme scores for the comparison. The range is generally reported in
published studies but is not used in further analyses ( Grove, Burns, & Gray, 2013 ).
The standard deviation ( SD ) is a measure of dispersion and is the average number of
points by which the scores of a distribution vary from the mean. The SD is an important
statistic, both for understanding dispersion within a distribution and for interpreting the
relationship of a particular value to the distribution. When the scores of a distribution
deviate from the mean considerably, the SD or spread of scores is large. When the degree
of deviation of scores from the mean is small, the SD or spread of the scores is small. SD
is a measure of dispersion that is the square root of the variance. The equation and steps
for calculating the standard deviation are presented in Exercise 27 , which is focused on
calculating descriptive statistics.
RESEARCH ARTICLE
Source
Roch, G., Dubois, C. A., & Clarke, S. P. (2014). Organizational climate and hospital nurses ’
caring practices: A mixed-methods study. Research in Nursing & Health, 37 (3), 229–240.
EXERCISE
9
90 EXERCISE 9 • Measures of Dispersion: Range and Standard Deviation
Copyright © 2017, Elsevier Inc. All rights reserved.
Introduction
Roch and colleagues (2014) conducted a two-phase mixed methods study ( Creswell, 2014 )
to describe the elements of the organizational climate of hospitals that directly affect
nursing practice. The fi rst phase of the study was quantitative and involved surveying
nurses ( N = 292), who described their hospital organizational climate and their caring
practices. The second phase was qualitative and involved a study of 15 direct-care registered
nurses (RNs), nursing personnel, and managers. The researchers found the following:
“Workload intensity and role ambiguity led RNs to leave many caring practices to
practical nurses and assistive personnel. Systemic interventions are needed to improve
organizational climate and to support RNs ’ involvement in a full range of caring practices”
( Roch et al., 2014 , p. 229).
Relevant Study Results
The survey data were collected using the Psychological Climate Questionnaire (PCQ) and
the Caring Nurse-Patient Interaction Short Scale (CNPISS). The PCQ included a fi vepoint
Likert-type scale that ranged from strongly disagree to strongly agree , with the high
scores corresponding to positive perceptions of the organizational climate. The CNPISS
included a fi ve-point Likert scale ranging from almost never to almost always, with the
higher scores indicating higher frequency of performing caring practices. The return rate
for the surveys was 45%. The survey results indicated that “[n]urses generally assessed
overall organizational climate as moderately positive ( Table 2 ). The job dimension relating
to autonomy, respondents ’ perceptions of the importance of their work, and the
feeling of being challenged at work was rated positively. Role perceptions (personal workload,
role clarity, and role-related confl ict), ratings of manager leadership, and work
groups were signifi cantly more negative, hovering around the midpoint of the scale, with
organization ratings slightly below this midpoint of 2.5.
Caring practices were regularly performed; mean scores were either slightly above or
well above the 2.5 midpoint of a 5-point scale. The subscale scores clearly indicated,
however, that although relational care elements were often carried out, they were less
frequent than clinical or comfort care” ( Roch et al., 2014 , p. 233).
TABLE 2 NURSES ’ RESPONSES TO ORGANIZATIONAL CLIMATE SCALE AND SELF-RATED
FREQUENCY OF PERFORMANCE OF CARING PRACTICES ( N = 292)
Scale and Subscales
(Possible Range) M SD
Observed
Range
Organizational Climate
Overall rating (1–5) 3.13 0.56 1.75–4.67
Job (1–5) 4.01 0.49 1.94–5.00
Role (1–5) 2.99 0.66 1.17–4.67
Leadership (1–5) 2.93 0.89 1.00–5.00
Work group (1–5) 3.36 0.88 1.08–5.00
Organization (1–5) 2.36 0.74 1.00–4.67
Caring Practices
Overall rating (1–5) 3.62 0.66 1.95–5.00
Clinical care (1–5) 4.02 0.57 2.44–5.00
Relational care (1–5) 2.90 1.01 1.00–5.00
Comforting care (1–5) 4.08 0.72 1.67–5.00
Roch, G., Dubois, C., & Clarke, S. P. (2014). Research in Nursing & Health, 37 (3), p. 234.
Measures of Dispersion: Range and Standard Deviation • EXERCISE 9 91
Copyright © 2017, Elsevier Inc. All rights reserved.
STUDY QUESTIONS
1. Organizational Climate was measured with which type of scale? What level of measurement was
achieved with this scale? Provide a rationale for your answer.
2. The mean ( X ) is a measure of __________________ ___________________ of a distribution,
while the standard deviation ( SD ) is a measure of _______________________ of its scores. Both
X a nd S D are __________________________ statistics.
3. What is the purpose of the range, and how is it determined in a distribution of scores?
4. What subscales were included in the description of Organizational Climate? Do these seem
relevant? Provide a rationale for your answer with documentation.
5. Which Organizational Climate subscale had the lowest mean? What does this result probably
mean?
6. What were the dispersion results for the Organization subscale in Table 2 ? What do these results
indicate?
92 EXERCISE 9 • Measures of Dispersion: Range and Standard Deviation
Copyright © 2017, Elsevier Inc. All rights reserved.
7. Which aspect or subscale of Organizational Climate has the lowest dispersion or variation of
scores? Provide a rationale for your answer.
8. Is the dispersion or variation of the ratings on Jobs more homogeneous or heterogeneous than
the other subscales? Provide a rationale for your answer.
9. Which subscale of Organization Climate had the greatest dispersion of scores? Provide a rationale
for your answer.
10. What additional research is needed in this area?
Copyright © 2017, Elsevier Inc. All rights reserved. 93
Answers to Study Questions
1. Organizational Climate was measured with the Psychological Climate Questionnaire (PCQ),
which is a 5-point Likert scale. This scale has multiple items, and the participants mark their
responses to each item using a scale of 1 = strongly disagree to 5 = strongly agree . The data
obtained from multiple-item Likert scales are combined and usually analyzed as though they
are interval-level data as in this study ( Grove et al., 2013 ). Some sources might describe Likert
scale data as ordinal because the 5-point rating scale used in a Likert scale lacks continuous
values. However, most nursing and healthcare researchers analyze data from multiple-item
Likert scales as interval-level data.
2. The X i s a measure of central tendency, and the S D is a measure of dispersion. Both X and SD
are descriptive or summary statistics.
3. Range is the simplest measure of dispersion, obtained by identifying the lowest and highest
scores in a distribution or by subtracting the lowest score from the highest score in the distribution
of scores.
4. The subscales included in Organizational Climate were Job, Role, Leadership, Work Group,
and Organization (see Table 2 ). Yes, these subscales seem relevant because the items used to
measure Job were related to perceived autonomy, importance of work, and being challenged.
The Role subscale included personal workload, role clarity, and role-related confl ict (see narrative
of results). Thus, the items of these fi ve subscales are important in understanding the
organizational climate in a hospital. The American Hospital Association (AHA) promotes
research to improve the climates in hospitals. For more information on AHA, review their
website at http://www.aha.org/research/index.shtml . A subsidiary of AHA is the American
Organization of Nurses Executives, which is focused on improving nursing leadership in the
current healthcare system (AONE; http://www.aone.org/ ). You might document with other
research articles, texts, and websites.
5. Organization had the lowest mean at 2.36, indicating this is the most negatively perceived of
the subscales covered by the PCQ scale. The lower the mean the more negative the nurses ’
perception of their organization.
6. The dispersion results for the Organization subscale included range = 1.00–4.67 and SD =
0.74. The score for each item on the Organization subscale could range from 1.00–5.00 based
on the Likert scale used in the PCQ. Both the range and SD seemed similar to the other subscales,
indicating the dispersion of scores was similar for the Organization subscale.
7. The Job subscale had the lowest dispersion with range = 1.94–5.00 or, when calculating the
range by subtracting the lowest score from the highest score, 5.00 − 1.94 = 3.06. The SD =
0.49 was also the lowest for Organizational Climate, indicating the scores for Job had the
lowest variation of the subscales. Focusing on the subscales ’ results rather than just on the
overall Organizational Climate rating provides readers with a richer understanding of the
nurses ’ perceptions of their organization.
94 EXERCISE 9 • Measures of Dispersion: Range and Standard Deviation
Copyright © 2017, Elsevier Inc. All rights reserved.
8. Job scores were the most homogeneous or had the least variation of the Organization Climate
subscales as indicated by the lowest range and SD results discussed in Question 7.
9. When compared with the other subscales, Leadership scores had the greatest dispersion or
variation among the subscales as indicated by the largest SD ( SD = 0.89) and range (1.00–5.00
or 5.00 − 1.00 = 4).
10. Additional studies in this area might include a larger sample size of RNs obtained from more
diverse hospitals. The response rate of 45% might be increased with an online survey format
and additional reminders sent to study participants reminding them to complete the survey.
An increased sample size might provide a stronger description of the hospitals ’ organizational
climate and the RNs ’ caring practices. Roch et al. (2014) indicated that interventions need to
be developed and tested to improve organizational climate and to support RNs ’ implementation
of caring practices.
Copyright © 2017, Elsevier Inc. All rights reserved. 95
Questions to Be Graded EXERCISE
9
Follow your instructor ’ s directions to submit your answers to the following questions for grading.
Your instructor may ask you to write your answers below and submit them as a hard copy for
grading. Alternatively, your instructor may ask you to use the space below for notes and submit your
answers online at http://evolve.elsevier.com/Grove/statistics/ under “Questions to Be Graded.”
1. What were the name and type of measurement method used to measure Caring Practices in the
Roch, Dubois, and Clarke (2014) study?
2. The data collected with the scale identifi ed in Questions 1 were at what level of measurement?
Provide a rationale for your answer.
3. What were the subscales included in the CNPISS used to measure RNs ’ perceptions of their
Caring Practices? Do these subscales seem relevant? Document your answer.
4. Which subscale for Caring Practices had the lowest mean? What does this result indicate?
Name: _______________________________________________________ Class: _____________________
Date: ___________________________________________________________________________________
96 EXERCISE 9 • Measures of Dispersion: Range and Standard Deviation
Copyright © 2017, Elsevier Inc. All rights reserved.
5. What were the dispersion results for the Relational Care subscale of the Caring Practices in
Table 2 ? What do these results indicate?
6. Which subscale of Caring Practices has the lowest dispersion or variation of scores? Provide a
rationale for your answer.
7. Which subscale of Caring Practices had the highest mean? What do these results indicate?
8. Compare the Overall rating for Organizational Climate with the Overall rating of Caring
Practices. What do these results indicate?
9. The response rate for the survey in this study was 45%. Is this a study strength or limitation?
Provide a rationale for your answer.
10. What conclusions did the researchers make regarding the caring practices of the nurses in this
study? How might these results affect your practice?
Copyright © 2017, Elsevier Inc. All rights reserved. 97
Description of a Study Sample
STATISTICAL TECHNIQUE IN REVIEW
Most research reports describe the subjects or participants who comprise the study
sample. This
Understanding Frequencies and Percentages Essay