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Unintentional Injuries in the Home in the

United States

Part I: Mortality

Carol W. Runyan, PhD, Carri Casteel, MPH, PhD, David Perkis, MA, Carla Black, MPH,

Stephen W. Marshall, PhD, Renee M. Johnson, MPH, Tamera Coyne-Beasley, MD, MPH, Anna E. Waller, ScD, Shankar Viswanathan, MSc

Background: Unintentional injuries are a leading cause of death in the United States. It is unclear, however, what proportion of these injuries occur in the home. The purpose of this paper is to quantify and describe fatal unintentional injuries that take place in the home environment.

Methods: Data from the National Vital Statistics System (NVSS) were used to calculate average annual rates for unintentional home injury deaths, with 95% confidence intervals from 1992 to 1999 for the United States overall, and by mechanism of injury, gender, and age group. Results: From 1992 to 1999, an average of 18,048 unintentional home injury deaths occurred

annually in the United States (6.83 deaths per 100,000). Home injury deaths varied by age and gender, with males having higher rates of home injury death than females (8.78 vs 4.97 per 100,000), and older adults (ⱖ70 years) having higher rates than all other age groups. Falls (2.25 per 100,000), poisoning (1.83 per 100,000), and fire/burn injuries (1.29 per 100,000) were the leading causes of home injury death. Rates of fall death were highest for older adults, poisoning deaths were highest among middle-aged adults, and fire/burn death rates were highest among children. Inhalation/suffocation and drowning deaths were important injury issues for young children.

Conclusions: Unintentional injury in the home is a significant problem. Specific home injury issues include falls among older adults, poisonings among middle-aged adults, fire/burn injuries among older adults and children, and inhalation/suffocation and drowning among young children. In addition, recommendations are presented for improvements to the NVSS. (Am J Prev Med 2005;28(1):73–79) © 2005 American Journal of Preventive Medicine

Introduction

U

nintentional injury was the leading cause of death for people aged 1 to 34 years, and the fifth leading cause of death for all ages combined in the United States from 1992 to 1999.1In this same time period, unintentional injuries were the leading cause of years of potential life lost before age 65, accounting for 2 million years of life lost annually.1Motor vehicle crashes

accounted for nearly half (47.5%) of all unintentional injury deaths.1Following motor vehicle crashes, falls and poisoning were responsible for the largest proportions of unintentional injury deaths.

A substantial proportion of unintentional injuries are transportation related, taking place primarily on road-ways. Few studies have focused on the location of unintentional injury occurrence. However, homes also represent an important setting for unintentional inju-ries, the national prevalence of which is largely un-known.2– 4Specific characteristics of the home environ-ment may contribute to the likelihood that an injurious event will occur; for example, the presence of unse-cured poisonous substances in the home or the absence of railings on stairways. Characteristics of the home environment may also increase the severity of injury events. For example, the flammability of mobile homes or the absence of adequate exits may increase the lethality of a fire in that environment.5

The objectives in this study were to estimate the prevalence of fatal unintentional injury in the home From the Injury Prevention Research Center (Runyan, Casteel,

Perkis, Black, Marshall, Johnson, Coyne-Beasley, Waller, Viswanathan), University of North Carolina, Chapel Hill, North Carolina; Departments of Health Behavior and Health Education (Runyan, Johnson, Viswanathan), Epidemiology (Runyan, Casteel, Black, Marshall), and Biostatistics (Casteel), School of Public Health, University of North Carolina, Chapel Hill, North Carolina; and Departments of Pediatrics (Runyan, Coyne-Beasley), Internal Medi-cine (Coyne-Beasley), and Emergency MediMedi-cine (Waller), School of Medicine, University of North Carolina, Chapel Hill, North Carolina Address correspondence and reprint requests to: Carol W. Runyan, PhD, University of North Carolina Injury Prevention Research Center, Bank of America Building, 137 East Franklin Street, Suite 500, Campus Box #7505, Chapel Hill NC 27599-7505. E-mail: carol_runyan@ unc.edu.

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environment in the United States, and to describe the circumstances surrounding these injury events. Addi-tionally, information gaps were identified in available data to inform surveillance systems. The ultimate goal was to identify high-risk populations that can be tar-geted for prevention.

Methods

Data came from the National Center for Health Statistics’ National Vital Statistics System (NVSS).6The NVSS

mortal-ity data set contains information from death certificates compiled in each state and combined nationally. Data were used from 1992 to 1999 to calculate average annual counts and rates of unintentional home injury death. Injury incidents were classified from NVSS as occurring in the home, in a location other than the home, or in an unknown location. The home environment was defined as areas inside of the home dwelling, as well as outside areas that are part of the home, including yards, gardens, or driveways. A classification of “unknown” refers to an inci-dent where the location of the injury was recorded as “location unknown” in the NVSS.

To classify injuries by mechanism and intent, a recom-mended framework developed by the National Center for Health Statistics in collaboration with the National Center for Injury Prevention and Control was adapted.7The framework

groups external cause of injury and poisoning codes (E-codes) into a matrix of mechanism and intent for purposes of standardizing the presentation of injury mortality data (Table 1). The E-codes are based on the International Classification of Diseases, Ninth Revision (ICD-9).8

Average annual counts and age-adjusted rates of uninten-tional injury in the home are presented from 1992 to 1999 overall, and by mechanism, gender, and age group. To quantify the random error associated with the rate estimates,

95% confidence intervals were calculated using the Wilson score method.9 Denominator data for rate estimates came

from the postcensal data set for the civilian noninstitutional-ized population,10and accounted for an under-enumeration

correction for the 1990 census.11 Analyses were performed

using the SAS software (SAS Institute, Cary NC, 2002).

Results

Fatal Unintentional Injuries in the Home

From 1992 to 1999, there was an average of 146,970 injury-related deaths annually in the United States, with an average annual injury death rate of 54.90 per 100,000 persons. Injury deaths represented nearly 4% of all U.S. deaths, and nearly two thirds (61.8%) were classified as unintentional.

Information on the location of injury was available for 33% (home 20%; location other than home 13%) of all fatal unintentional injuries (Table 2). Of those

Table 1. External cause of injury codes for types of unintentional injury

Mechanism/cause Unintentional E-codea

All injury E800–E869, E880–E929

Cut/pierce E920 (.0–.9)

Drowning/submersion E830 (.0–.9), E832 (.0–.9), E910 (.0–.9)

Fall E880.0–E886.9, E888

Fire/burn E890.0–E899, E924 (.0–.9)

Firearm E922 (.0–.3, .8, .9)

Machinery E919 (.0–.9)

Motor vehicle E810–E819 (.0–.9)

Pedal cyclist, other E800–E807 (.3), E820–825 (.6), E826 (.1, .9), E827–E829 (.1) Pedestrian, other E800–E807 (.2), E820–E825 (.7), E826–E829 (.0)

Transport, other E800–E807 (.0, .1, .8, .9), E820–E825 (.0–.5, .8, .9), E826 (.2–.8), E827–E829 (.2–.9), E831 (.0–.9), E833.0–E845.9

Natural/environmental E900.0–E909, E928 (.0–.2)

Overexertion E927

Poisoning E850.0–E869.9

Struck by/against E916–E917.9 Choking/suffocation E911–E913.9

Other and not elsewhere E846–E848, E914–E915, E918, E921 (.0–.9), E922 (.4–.5), E923 Classified (.0–.9), E925.0–E926.9, E928 (.3, .8), E929 (.0–.5, .8)

Unspecified E887, E928.9, E929.9

Notes: The classification system was adapted from National Center for Injury Prevention and Control.7Accessed June 2003.

aE-codes are from World Health Organization.8

Table 2. Location of fatal unintentional injuries, average annual number and percent, United States, 1992–1999a

Category n %

Transportation-related injuriesb 44,830 49

All other injuries

Home 18,048 20

Other 11,762 13

Unknown 14,596 16

Blankc 1,622 2

aData derive from National Center for Health Statistics.6

bLocation of injury was not recorded for transportation-related

injuries. Location was recorded for E-codes E850.0 –E869.0 and E880.0 –E928.9 only.

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with known location, an average of 18,048 uninten-tional injury deaths occurring in the home environ-ment were reported annually in the United States from 1992 to 1999. This represents an annual rate of 6.83 deaths per 100,000. Although location was not re-corded (i.e., the item was left blank) for the 44,830 transportation-related injury deaths, some proportion of those deaths may have occurred in the home envi-ronment, such as in driveways or yards.

Gender and Age Group Comparisons

The average annual unintentional home injury death rate was higher for males (8.78 deaths per 100,000, 95% CI⫽8.61–8.94) than for females (4.97 deaths per 100,000, 95% CI⫽4.85–5.08) (Table 3). This increased rate among males was apparent across all age groups, with male-to-female rate ratios ranging from 1.3:1 in the⬍1-year-old age group to 3.5:1 in the 15- to 19-year-old group. Male and female death rates varied consid-erably by age group. The highest death rates were among people aged ⱖ80 years (47.91 deaths per 100,000, 95% CI⫽46.41–49.40), followed by those aged 70 to 79 (14.57 per 100,000 deaths, 95% CI⫽13.97– 15.61) and children aged ⬍1 year (12.19 per 100,000 deaths, 95% CI⫽11.08–13.29). Among adults aged

ⱖ80, there was an average of 57.37 deaths annually

per 100,000 males (95% CI⫽54.57–60.31) and 39.80 deaths annually per 100,000 females (95% CI⫽38.13–41.46).

Leading Causes of Death

Falls, poisonings, and fire and burn injuries were the leading causes of injury death occurring in the home environment (Table 4). Combined, they accounted for 78.6% of all fatal unintentional home injuries.

Inhala-tion/suffocation and drowning were the fourth and fifth leading causes of unintentional home injury deaths, respectively, accounting for an additional 10.7% of all fatal home injuries.

Fall Deaths

More than half (53.7%) of all unintentional fall deaths occurred in the home (Table 4). Another 35% oc-curred in a location other than the home, and the remaining (11.0%) occurred in an unknown location. From 1992 to 1999, an average of 5961 falls occurred in the home each year, accounting for one third of all home injury deaths.

Death rates associated with falls increased substan-tially with age (Figure 1). Very few deaths occurred among people aged⬍20 years. Rates of fall deaths were highest among adults agedⱖ60, specifically those aged

ⱖ70. Home fall death rates were higher for males than

females in all age groups.

The circumstances surrounding the majority (63.0%) of fall deaths occurring in the home defied classification or were recorded as “unknown” in the National Vital Statistics System. Falling on or from steps or stairs was the second leading cause of home fall fatalities, accounting for 17.4% of all falls, followed by falls from slipping, tripping, or stumbling (5.8%). Although males experienced a higher percentage of fatal falls from steps and stairs compared with females (56.3% vs 43.7%), they experienced far more fatalities than females as a result of falling from a ladder (92.8% vs 7.2%) or falling from or out of a building (79.5% vs 20.5%). Females, however, experienced a larger per-centage of fatalities from slipping, tripping, or stum-bling (55.5%), compared to males (44.5%).

Table 3. Average annual numbers, percentages, and rates of fatal unintentional injuries in the home, United States, 1992–1999

Age group (years)

Male Female Total Rateratio

males: females

n (%) Rate (95% CI) n (%) Rate (95% CI) n (%) Rate (95% CI)

⬍1 268 (2.4) 12.34 (10.78–13.89) 201 (3.0) 9.81 (8.39–11.22) 469 (2.6) 12.19 (11.08–13.29) 1.3:1 1–4 616 (5.4) 7.48 (6.87–8.02) 382 (5.7) 5.23 (4.71–5.74) 998 (5.5) 6.42 (6.02–6.81) 1.4:1 5–9 215 (1.9) 2.17 (1.87–2.46) 139 (2.1) 1.58 (1.32–1.83) 354 (2.0) 1.85 (1.65–2.04) 1.4:1 10–14 194 (1.7) 1.99 (1.70–2.27) 81 (1.2) 0.95 (0.75–1.14) 275 (1.5) 1.47 (1.29–1.64) 2.1:1 15–19 327 (2.9) 3.40 (3.02–3.77) 81 (1.2) 0.96 (0.75–1.16) 408 (2.3) 2.22 (2.00–2.43) 3.5:1 20–29 1010 (8.9) 6.00 (5.64–6.35) 302 (4.5) 2.08 (1.87–2.28) 1312 (7.3) 3.53 (3.33–3.72) 2.9:1 30–39 1896 (16.7) 9.93 (9.50–10.35) 657 (9.8) 3.88 (3.61–4.14) 2553 (14.1) 5.88 (5.65–6.10) 2.6:1 40–49 1965 (17.3) 10.98 (10.50–11.45) 672 (10.0) 3.98 (3.69–4.26) 2637 (14.6) 6.85 (6.58–7.11) 2.8:1 50–59 941 (8.3) 7.63 (7.14–8.11) 428 (6.4) 3.55 (3.22–3.87) 1369 (7.6) 5.32 (5.03–5.60) 2.1:1 60–69 931 (8.2) 9.94 (9.29–10.58) 513 (7.6) 5.25 (4.81–5.68) 1444 (8.0) 7.21 (6.83–7.58) 1.9:1 70–79 1253 (11.1) 18.07 (17.04–19.09) 1017 (15.1) 11.94 (11.22–12.65) 2270 (12.6) 14.57 (13.97–15.61) 1.5:1 ⱖ80 1715 (15.1) 57.37 (54.57–60.31) 2245 (33.4) 39.80 (38.13–41.46) 3960 (21.9) 47.91 (46.41–49.40) 1.4:1 All 11,331 (100.0) 8.78 (8.61–8.94) 6718 (100.0) 4.97 (4.85–5.08) 18,048 (100.0) 6.83 (6.73–6.92) 1.8:1 Note: Rates are per 100,000 persons, and are based on the average annual 1992–1999 postcensal civilian noninstitutional U.S. population. Source: National Center for Health Statistics.6

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Poisoning Deaths

An annual average of 4833 unintentional home injury deaths due to poisonings were reported from 1992 to 1999, accounting for over one fourth (26.8%) of all home injury deaths (Table 4). Across all poisoning deaths, over 50% occurred in the home and 15.7% occurred in a location other than the home. Over one third of all poisoning deaths were classified as location unknown in the National Vital Statistics System.

Rates of fatal poisonings were highest among adults aged 20 to 59 years (Figure 1), specifically adults aged 40 to 49 (4.14 per 100,000) and 30 to 39 (3.85 per 100,000). Over two thirds of all poisoning deaths oc-curred among adults aged 30 to 49 years, where males had rates that exceeded female rates over threefold. Males had higher rates of poisoning death than females across all age groups (Figure 1).

Over half of all poisoning deaths occurring at home were due to unintentional overdoses of three sub-stances: heroin (23.8%), appetite depressants (21.9%), and other substances such as amphetamines, caffeine, antidepressants, and alcohol (21.2%). Another 12.3% of poisoning deaths were the result of drugs acting on the central nervous system. These drugs were local anesthetics, including cocaine, anticonvulsant and anti-Parkinsonism drugs, and central nervous system depres-sants. Three percent of the unintentional poisoning deaths occurring at home were due to exhaust gas from

combustion engines, such as from a car not in transit. Males experienced⬎80% of the poisoning deaths from heroin overdoses and ⬎70% of the overdoses from appetite depressants.

Fire and Burn Deaths

From 1992 to 1999, an average of 3402 individuals died each year as a result of a fire or burn injury that occurred in the home, for an annual rate of 1.29 per 100,000 (95% CI⫽1.24 –1.33) (Table 4). Nearly 90% of all fatalities due to a fire or burn injury occurred in the home, while 6.5% occurred in a location other than the home. Most home injury deaths due to fires were the result of inhaling smoke, fumes, or carbon monoxide from uncontrolled residential fires (68.7%), followed by burns from uncontrolled resi-dential fires (15.2%). Two percent of fire-related injury deaths were due to the ignition of clothing from a controlled residential fire, such as from a stove or other heating source.

Rates of death for fire-related home injuries were high for young children, decreased among adolescents, and increased again for adults aged ⱖ20 (Figure 1). Rates significantly increased for adults aged ⱖ70, sur-passing the rates of young children. Across all age groups, males had higher fire- or burn-related death rates than females (Figure 1). However, a higher per-centage of deaths occurring among females, compared

Table 4. Average annual numbers and rates of unintentional injury deaths, by location and type of injury, United States, 1992–1999

Mechanism/ cause of injurya

Home Location other than home Unknown location

n % Rateb(95% CI) n % Rateb(95% CI) n % Rateb(95% CI)

Total 18,048 100.0 6.83 (6.73–6.93) 11,762 100.0 4.45 (4.36–4.53) 14,596 100.0 5.52 (5.43–5.60) Falls 5,961 33.0 2.25 (2.19–2.31) 3,928 33.4 1.49 (1.44–1.53) 1,211 8.3 0.46 (0.43–0.48) Struck by/ against 285 1.6 0.11 (0.09–0.12) 570 4.5 0.22 (0.20–0.24) 73 0.5 0.03 (0.02–0.04) Overexertion 3 ⬍0.1 ⬍0.01 5 ⬍0.1 ⬍0.01 15 0.1 0.01 (0.02–0.04) Cut/pierce 60 0.3 0.02 (0.01–0.03) 28 0.2 0.01 (0.006–0.014) 19 0.1 0.01 (0.006–0.013) Natural environmental 427 2.4 0.16 (0.14–0.18) 550 4.7 0.21 (0.19–0.22) 571 3.9 0.22 (0.20–0.24) Poisoning 4,833 26.8 1.83 (1.77–1.88) 1,500 12.8 0.57 (0.54–0.59) 3,211 22.0 1.22 (1.7–1.26) Fire/burns 3,402 18.8 1.29 (1.24–1.33) 249 2.1 0.10 (0.08–0.11) 142 1.0 0.06 (0.05–0.07) Machinery 127 0.7 0.05 (0.04–0.06) 745 6.3 0.28 (0.25–0.30) 80 0.5 0.03 (0.02–0.04) Inhalation/ suffocation 1,092 6.1 0.41 (0.38–0.43) 582 4.9 0.22 (0.20–0.23) 2,759 18.9 1.04 (1.00–1.07) Firearm 590 3.3 0.22 (0.20–0.24) 261 2.2 0.10 (0.08–0.11) 314 2.2 0.12 (0.11–0.14) Drowning/ submersion 823 4.6 0.31 (0.29–0.33) 2,483 21.1 0.94 (0.90–0.97) 327 2.2 0.12 (0.11–0.14) Other specified 230 1.3 0.09 (0.07–0.10) 443 3.8 0.17 (0.15–0.18) 198 1.4 0.20 (0.18–0.21) Unspecified 215 1.2 0.08 (0.07–0.09) 418 3.6 0.16 (0.14–0.17) 5,676 38.9 2.15 (2.10–2.20) Source: National Center for Health Statistics.6

Note: This table excludes 41,692 transportation-related motor vehicle deaths, 125 pedal cycle injury deaths, 984 pedestrian-related motor vehicle deaths, and 2029 deaths due to other transportation injuries where the location of injury field in Yes:No NVSS was left blank Additionally, 11.4% of drowning and submersion deaths, 51.4% of other specified deaths, and 7.8% of unspecified deaths are omitted from the table due to the location of the injury field in NVSS being left blank.

aExternal cause of injury was determined by E-codes.

bRates are per 100,000 persons and are based on the average annual 1992–1999 postcensal civilian noninstitutional U.S. population.

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with males, was the result of injury from the ignition of clothing in a controlled residential fire (60.1% vs 39.9%) and from a hot substance or object (54.3% vs 45.7%).

Injury Fatalities by Selected Age Groups

Children. Fires and burns, inhalation and suffocation, and drowning were the leading causes of unintentional home injury death among children aged ⬍15 years. Fire/burn deaths were the leading cause for children aged 1 to 14 years and the second leading cause for children aged ⬍1 year. Nearly all fire/burn injury deaths among children aged ⬍15 were the result of residential fires. Inhalation/suffocation was the leading cause of home injury death among children aged ⬍1 year, and drowning was the second leading cause among children aged 1 to 9 years. The majority of drowning deaths among infants occurred in bathtubs. Similar to adults, death rates among young males exceeded those of young females (Table 3).

Unintentional home injury death rates among chil-dren varied by age, with infants having the highest

death rate (12.19 per 100,000 children aged⬍1 year, 95% CI⫽11.08–13.29), compared with children aged 1 to 4 years (6.42 per 100,000 1- to 4-year-old children, 95% CI⫽6.02–6.81), and children aged 5 to 9 years (1.85 per 100,000 5- to 9-year-old children, 95% CI⫽1.65–2.04) (Table 3). From 1992 to 1999, an aver-age of 469 children aver-aged⬍1 year died each year in the United States as a result of a home injury (Table 3), the majority of which were due to choking and suffocation incidents (62.8%). Children aged between 1 and 4 years had the second highest rate of home injury death per year, in which nearly 75% of the injuries were the result of residential fires (43.7%) and drownings (29.3%).

Older adults. From 1992 to 1999, an average of 7674

adults aged ⱖ60 years died each year as a result of a home injury. Falls were the leading cause of home injury death, accounting for 48.8% of the deaths for adults aged 60 to 69, and 65.9% of the home injury deaths for adults aged ⱖ70. Fire injuries were the second leading cause of home injury death across all older adult age groups.

Rates of home injury death increased twofold for adults aged 60 to 69 (7.21 per 100,000, 95% CI⫽6.83– 7.58) and 70 to 79 (14.57 per 100,000, 95% CI⫽13.97– 15.61), and over six-fold for adults aged 60 to 69 and

ⱖ80 (47.91 per 100,000, 95% CI⫽46.41–49.40) (Table

3). The ratio of home injury deaths for older males versus older females decreased as age increased, from 1.9:1 at 60 to 69 to 1.4:1 atⱖ80.

The circumstances surrounding fall deaths among older adults could not be identified in over two thirds of the events reported in the National Vital Statistics System. Of those that were identified, 16.8% were due to falls on or from stairs or steps; 6.6% from slipping, tripping, or stumbling; and 3.3% from falls from a chair or bed.

Discussion

Falls, poisonings, and fire/burn injuries were the lead-ing causes of unintentional home injury death in the United States. Older adults and young children expe-rienced the highest rates of home injury death. Their stages of physical development make them vulnerable population groups for fatal injury. Children may be-come injured while engaging in normal exploratory behaviors, lacking the judgment to avoid dangers. Older adults may experience more injuries as a result of balance or limited mobility. When injured, older adults are often unable to rehabilitate in the same way fully developed and stronger younger people can. In addi-tion, these age groups probably experience greater home injury because they spend more time in the home environment, compared with other age groups who spend a significant amount of time at school

Figure 1. Unintentional home injury death rates, by mecha-nism, gender, and age group, United States, 1992–1999. Rates are per 100,000 persons, and are based on the average annual 1992–1999 postcensal civilian noninstitutionalized U.S. pop-ulation. Note: Bars represent the rates of unintentional home injury death for males (left of the 0 point) and for females (right of the 0 point), by the leading causes of home injury death and age group. Source: National Center for Health Statistics, National Vital Statistics System, 1992–1999.

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and/or work. Older adults had the highest rates of falls, and young children had the highest rates of fire/burn and inhalation/suffocation injuries.

Males experienced higher rates of unintentional home injury death than females across all age groups. This gender difference is not unlike injury patterns occurring outside the home, but more striking if one considers that females, at least in some subgroups of the population, probably spend more time in the home environment than males. The existing literature does not report clear evidence for why males have higher rates of home injury death than females, although hypotheses for the relationship can be made. For example, males may have riskier behaviors than fe-males, which can expose them to activities that lead to increased injury severity with a greater probability of resulting in death. For instance, males may be more likely to climb a ladder and fall from greater heights, fight a fire with a fire extinguisher rather than flee, or use saws for home improvement, compared with fe-males. More research to identify why males have higher home injury death rates than females could help in the development of tailored behavioral and environmental intervention strategies suited to each group.

Although this study was able to advance our under-standing of the frequency and mechanisms of injury occurring in the home environment, there are impor-tant limitations to the NVSS data that must be noted. For instance, only 33% of the non–transportation-related deaths could be classified as to the location of injury. If an equal proportion of all unknown or blank (i.e., where the location field in NVSS was left blank) nontransportation cases occurred in the home as did those in which the location was known (60.5%), the total number of unintentional home injury deaths could be as high as 27,860, a figure 53% higher than the home injury fatality estimate provided here. Addi-tionally, it is reasonable to assume that a small number of the transportation deaths occurred in the home environment, which would also increase the average annual estimate.

Most data with a blank location were transporta-tion related, as 100% of the transportatransporta-tion data did not distinguish whether the injury occurred in the home or not. Although the vast majority of transpor-tation injuries likely occurred on roadways, it is probable that a small proportion occurred in drive-ways and garages, which meets the definition of the home environment. Furthermore, unintentional mo-tor vehicle–related fatalities in driveways and garages are probably more likely to involve young children. Therefore, the rates of home injury death among children associated with this means may be somewhat under-estimated in this study.

The percentage of injury deaths with unknown loca-tions ranged from 3.7% for fire/burn injuries to 90.0% for “unspecified” causes of injury. Other types of injury

deaths with a large percentage of unknown location data included overexertion injuries (65.2%), inhala-tions and suffocainhala-tions (62.2%), injuries associated with the natural environmental (36.9%), and poisonings (33.6%). Some of these injury types undoubtedly oc-curred in the home, but the magnitude of the under-reporting cannot be determined. In addition, under-reporting of injury deaths classified with an unknown location varied by state, ranging from 14.9% in South Dakota to 55.3% in Alabama. The magnitude and variation in the percentage of unknown injury locations could influ-ence the ranking of the leading causes of home injury death presented in this study. It is likely that location coding will improve once ICD-10 coding is universally implemented; however, this is expected to take some time to phase in.

This study showed that the magnitude of home injury death in the United States is substantial, and given the considerable gaps in the available data, the problem is even larger than that reported in this study. However, the available data are too limited to make specific recommendations about interventions. What is needed is a data system ensuring that the locations of injury are identified and recorded in a consistent manner and that documents more fully the circumstances of injury events.

Recommendations

There are several recommendations derived from this work. First, more careful consideration needs to be given concerning the collection of data, including development of consistent definitions for “home in-jury,” guidelines for recording this information, better training of medical personnel who complete the death certificates, and modifying the death certificate to make it an option to check off whether the injury occurred at home. Ultimately this will permit more complete assessment of the problem and the ability to compare information across locales and data systems (e.g., deaths and nonfatal injuries and data from inpa-tient and outpainpa-tient care), and before and after haz-ards are introduced or preventive interventions applied.

This fatality analysis highlights a need to focus atten-tion on prevenatten-tion of residential fires, falls among older adults, poisonings among all adults, and drown-ing and suffocation among young children. As with any intervention effort, multiple approaches should be examined, and those with the greatest potential effec-tiveness considered most carefully. Often, these will be strategies that modify elements of the home environ-ment, such as installation and maintenance of smoke alarms.4,12 However, strategies will also need to pro-mote changes in safety practices or behavior. For example, drowning among infants in bathtubs likely requires educational approaches associated with

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super-vision practices. Finally, policy change and service provision are also important intervention strategies. The prevention of adult poisonings associated with medications or illicit drugs specifically may require new policies regulating access and distribution of sub-stances. Adult poisoning associated with drug use also begs for closer consideration of the issues associated with accessibility of mental health services.

This work was funded by a contract from the Home Safety Council to The University of North Carolina Injury Preven-tion Research Center, with addiPreven-tional support from the National Center for Injury Prevention and Control (R49/ CCR402444). We wish to thank Daniel Macklin, MD, MPH, who assisted with data analyses, and Lois Fingerhut, MPH, who assisted in understanding coding issues within the data. We appreciate the continued support of Home Safety Council personnel, especially Meri-K Appy, Patricia Adkins, and Sarah Miles.

No financial conflict of interest was reported by the authors of this paper.

References

1. Office of Statistics and Programming. Web-based Injury Statistics Query and Reporting System (WISQARS). Atlanta GA: National Center for Injury

Prevention and Control, Centers for Disease Control and Prevention. Available at: www.cdc.gov/ncipc/wisqars/. Accessed June 2004. 2. National Committee for Injury Prevention and Control. Injury prevention:

meeting the challenge. New York: Oxford University Press, 1989. 3. National Safety Council. Injury facts, 2001. Itasca IL: National Safety

Council, 2001.

4. Kopjar B, Wickizer T. Population-based study of unintentional injuries in the home. Am J Epidemiol 1996;144:456 – 62.

5. Runyan C, Bangdiwala S, Linzer M, Sacks J, Butts J. Risk factors for fatal residential fires. N Engl J Med 1992;327:859 – 63.

6. National Center for Health Statistics. National Vital Statistics System (NVSS) data, 1992–1999, ICPSR version. Atlanta GA: Centers for Disease Control and Prevention; Ann Arbor MI: Inter-University Consortium for Political and Social Research, University of Michigan (distributor). Avail-able at: www.icpsr.umich.edu/index.html. Accessed June 2004.

7. National Center for Injury Prevention and Control. Table 1. Recom-mended framework of E-Code groupings for presenting injury mortality and morbidity data (May 15, 2003). Atlanta GA: Centers for Disease Control and Prevention. Available at: www.cdc.gov/ncipc/whatsnew/ matrix2.htm. Accessed June 2003.

8. World Health Organization. Manual of the international statistical classifi-cation of diseases, injuries, and causes of death, ninth revision, 1977. Geneva: World Health Organization, 1998.

9. Newcombe R. Two-sided confidence intervals for the single proportion: comparison of seven methods. Stat Med 1998;17:857–72.

10. U.S. Census Bureau. National population estimates for the 1990s: monthly postcensal civilian noninstitutional population. Population Division. Avail-able at: http://eire.census.gov/popest/archives/national/nat_90s_detail/ nat_90s_4.php. Accessed June 2004.

11. U.S. Census Bureau. Under-enumeration correction matrix for 1990 census. Population Division. Available at: www.census.gov/population/ censusdata/natadj.txt. Accessed June 2004.

12. Mallonee S, Istre G, Rosenberg M, et al. Surveillance and prevention of residential fire injuries. N Engl J Med 1996;335:27–31.

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