Intended for healthcare professionals

Papers

Incidence and types of preventable adverse events in elderly patients: population based review of medical records

BMJ 2000; 320 doi: https://doi.org/10.1136/bmj.320.7237.741 (Published 18 March 2000) Cite this as: BMJ 2000;320:741
  1. Eric J Thomas (ethomas{at}heart.med.uth.tmc.edu), assistant professora,
  2. Troyen A Brennan, professor of medicineb
  1. a University of Texas-Houston Medical School, Department of Medicine, Division of General Internal Medicine, and Section for Clinical Epidemiology, 6431 Fannin MSB 1.122, Houston, TX 77030, USA
  2. b Brigham and Women's Hospital and Harvard Medical School, Division of General Medicine, Department of Medicine, 75 Francis Street, Boston, MA 02115, USA
  1. Correspondence to: E J Thomas
  • Accepted 18 February 2000

Abstract

Objectives: To determine the incidence and types of preventable adverse events in elderly patients.

Design: Review of random sample of medical records in two stage process by nurses and physicians to detect adverse events. Two study investigators then judged preventability.

Setting: Hospitals in US states of Utah and Colorado, excluding psychiatric and Veterans Administration hospitals.

Subjects: 15 000 hospitalised patients discharged in 1992.

Main outcome measures: Incidence of preventable adverse events (number of preventable events per 100 discharges) in elderly patients (65 years old) and non-elderly patients (16-64 years).

Results: When results were extrapolated to represent all discharges in 1992 in both states, non-elderly patients had 8901 adverse events (incidence 2.80% (SE 0.18%)) compared with 7419 (5.29% (0.37%)) among elderly patients (P=0.001). Non-elderly patients had 5038 preventable adverse events (incidence 1.58% (0.14%)) compared with 4134 (2.95% (0.28%)) in elderly patients (P=0.001). Elderly patients had a higher incidence of preventable events related to medical procedures (such as thoracentesis, cardiac catheterisation) (0.69% (0.14%) v 0.13% (0.04%)), preventable adverse drug events (0.63% (0.14%) v 0.17% (0.05%)), and preventable falls (0.10% (0.06%) v 0.01% (0.02%)). In multivariate analyses, adjusted for comorbid illnesses and case mix, age was not an independent predictor of preventable adverse events.

Conclusion: Preventable adverse events were more common among elderly patients, probably because of the clinical complexity of their care rather than age based discrimination. Preventable adverse drug events, events related to medical procedures, and falls were especially common in elderly patients and should be targets for efforts to prevent errors.

Introduction

Data from the Harvard medical practice study and the Utah and Colorado medical practice study show that preventable adverse events in hospitalised patients are at least the eighth leading cause of death in the United States.1 The Harvard medical practice study also found that adverse events were more common among elderly patients.2 Several studies in single institutions have also suggested this may be true, but they have limited generalisability because of their reliance on data from one hospital. Given that the population of many countries is ageing, additional data to confirm these findings and to focus efforts to improve care would be useful. For example, the number of people in the United States aged 65 years and over will increase from 34.1 million in 1997 to 69.4 million in 2030.3

For this paper, we reanalysed data from the Utah and Colorado medical practice study4 in order to describe the incidence and types of preventable adverse events in elderly patients and the morbidity and mortality caused by these events in elderly compared with non-elderly patients.

Methods

A detailed description of the Utah and Colorado medical practice study can be found elsewhere.4

Sampling strategy

From a representative sample of hospitals, excluding psychiatric and Veterans Administration hospitals, we randomly sampled records of 5000 discharges in Utah and 10 000 discharges in Colorado in the calendar year 1992. The number of records sampled in each hospital was proportional to the number of each hospital's discharges relative to the total discharges of all hospitals in the study.

Record review

Initially, 31 trained nurses reviewed the medical records for any one of 18 criteria associated with an adverse event. Records that were positive were referred to one of 22 local physicians (board certified family practitioners or internists) who were trained to use the adverse event analysis form.5 Since judgments about adverse events may be complex, we used a six point confidence scale. Specialist consultation was available for the reviewing physicians if requested.

We addressed concerns about the reliability of this process in three ways. Firstly, we standardised the physicians' and nurses' training by conducting only two training sessions for each group (one in each state), and the sessions were conducted by the same two investigators. Secondly, we conducted a quality control study to identify and then re-review the charts of the physician reviewers with the lowest and highest detection rates of adverse events. Thirdly, we conducted an in-depth reliability study.

Definition of variables

An adverse event was defined as an injury caused by medical management (rather than the disease process) that resulted in either prolonged hospital stay or disability at discharge. We required a confidence score of four or greater from the reviewing physician to indicate the presence of an adverse event. As with other studies,6 preventability was then independently judged by two study investigators (EJT and TAB), who were blinded to all hospital characteristics. An adverse event was considered preventable if it was avoidable by any means currently available unless that means was not considered standard care. All adverse events that contributed to the annual incidence were analysed for this report.

The patient characteristics used were sex, race (white and non-white), and payment method (uninsured, Medicare, Medicaid, private care or other, and managed care). To focus on adverse events among elderly patients, age was categorised as 16–64 years (non-elderly) and ≥65 (elderly). Comorbid illness was measured with the Charlson comorbidity index. We also recorded diagnosis related group (DRG) level as a measure of case mix.5 This variable was created by grouping DRGs into four levels according to the clinical likelihood that they would be associated with an adverse event. Data on age, sex, and payment method were obtained from the state discharge databases and confirmed by the chart reviewers. Patients' race and Charlson score were obtained using data from the medical record. Hospital characteristics were: size (<8000 discharges a year or ≥8000 discharges a year), location (urban or rural), teaching status (major, minor, or non-teaching), and ownership (for profit, non-profit, or government).

Disability ratings were first made by the physician reviewers using the severity of injury scale of the National Association of Insurance Commissioners.7 Next, the two study investigators and a panel of adjusters for medical malpractice claims reviewed each case and reached consensus on a final score for each patient.

Table 1.

Number and incidence of adverse events and preventable adverse events among patients discharged from hospitals in Utah and Colorado in 1992 by age group

View this table:

Statistical analysis

We report the rates of adverse events and preventable adverse events for elderly and non-elderly patients as the percentage of hospitalisations during which events were detected. If more than one adverse event was detected during a hospitalisation, only the event that caused the most disability was analysed. To avoid overrepresentation and underrepresentation of patients from particular types of hospitals, we report population estimates of adverse events. For each of the sample hospitals, we calculated weights by dividing the number of discharges of elderly or non-elderly patients during 1992 by the total number of records of elderly or non-elderly patients that were reviewed. Standard errors for the weighted rates were calculated, using weighted logistic regression models.

Logistic regression was used to determine if age was independently associated with preventable adverse events after other patient and hospital characteristics were adjusted for. Since we included hospital characteristics in the logistic regression models, the models analysed only those patients whose adverse events were due to management in a sampled hospital, as opposed to during an office visit before hospitalisation.

Variables in the model included hospital ownership, teaching status, size, location, and the patient characteristics of age (16-64 and ≥65 years), race, sex, payment method, DRG level, and Charlson score. We made adjustment for correlation of adverse events within hospitals by using the generalised estimating equation approach.8

Results

Thirteen hospitals in Utah and 15 in Colorado participated in the study. Nurses reviewed 4943 (98.9%) of the 5000 sampled records in Utah and 9757 (97.6%) of the 10 000 records sampled in Colorado, representing 2.6% of all discharges in these states in 1992. Of these records, the nurses referred 854 (17.3%) Utah records and 2014 (20.6%) Colorado records to physicians for further review. The physicians reviewed 842 (98.6%) of the referred Utah records and 1978 (98.2%) of the referred Colorado records. The rest were classified as missing.

The demographic characteristics of the patients whose records were sampled were similar to the characteristics of all patients discharged in each state in 1992.4

Table 1 shows that the reviewers detected 241 adverse events (of which 132 were preventable) among non-elderly patients (aged 16–64 years) and 207 adverse events (of which 117 were preventable) among elderly patients (aged ≥65). When these results were extrapolated to represent all discharges in each state in 1992, there were 8901 adverse events among non-elderly patients (incidence 2.80% (SE 0.18%)) compared with 7419 (5.29% (0.37%)) among elderly patients (P=0.001). For preventable adverse events, the incidence was also nearly twice as high in elderly patients: non-elderly patients had 5038 preventable adverse events (incidence 1.58% (SE 0.14%)) compared with 4134 (2.95% (0.28%)) in elderly patients (P=0.001).

A greater proportion of the elderly patients who experienced preventable adverse events had permanent disability or death as a result than did the non-elderly patients (8.66% (SE 2.75%) v 5.80% (2.11%) for permanent disability and 10.44% (2.96%) v 4.65% (1.94%) for death). However, these differences were not statistically significant (table 2).

Table 2.

Disability and death due to preventable adverse events among patients discharged from hospitals in Utah and Colorado in 1992 by age group∗

View this table:

The elderly patients had a higher incidence of several types of preventable adverse events (table 3). The incidence was significantly higher for preventable events related to medical procedure (such as thoracentesis or cardiac catheterisation) (0.69% (SE 0.14%) in elderly patients v 0.13% (0.04%) in non-elderly patients), preventable adverse drug events (0.63% (0.14%) v 0.17% (0.05%)), and preventable falls (0.10% (0.06%) v 0.01% (0.02%)).

Table 3.

Number and incidence of preventable adverse events among patients discharged from hospitals in Utah and Colorado in 1992 by type of event and age group∗

View this table:

Multivariate analyses

After adjusting for the patient and hospital characteristics mentioned above, we found that age was not independently associated with preventable adverse events. The only patient characteristic associated with preventable adverse events was diagnosis related group (DRG) level. Compared with patients with DRG level 1 (the least complex DRG), patients with DRG level 2 had an odds ratio of 7.8 (P=0.001), patients with DRG level 3 had an odds ratio of 11.4 (P=0.0001), and patients with DRG level 4 had an odds ratio of 14.3 (P=0.0001) for suffering a preventable adverse event. Since DRGs are assigned to admissions retrospectively, a higher DRG level may indicate the presence of an adverse event during the admission in addition to, or instead of, more complex care. Therefore, we ran the model without the DRG level variable and found that age was still not independently associated with preventable adverse events.

Discussion

This population based study of hospitalised patients in Utah and Colorado found that elderly patients had a higher incidence of preventable adverse events, especially preventable adverse drug events, events related to medical procedures, and falls. They also tended to experience more permanent disability and death from these events, although the results were not statistically significant. We also found that, after adjustment for other patient and hospital characteristics, age was not an independent predictor of preventable adverse events.

This suggests that the elderly patients were not victims of age related discrimination but rather that their care was more complex. It is also likely that their time at risk and exposure to preventable adverse events was greater than younger patients. For example, the elderly patients could have received more drugs, had more procedures performed, and had longer lengths of stay in hospital than younger patients. In addition, elderly patients often do not present with typical signs and symptoms of diseases, thus making timely and accurate diagnoses more difficult; they take more drugs than younger patients; and they have impaired physiological compensatory mechanisms and are therefore more likely to be harmed by errors in care.9

Comparison with other studies

Other studies support these findings. The Harvard medical practice study found that elderly patients had a higher incidence of adverse drug events, falls, and events related to medical procedure.2 Steel et al found that the mean age of patients experiencing a severe preventable adverse event was 6.2 years greater than patients whose hospital course was uncomplicated.10 A study of 232 admissions to a Veterans Administration hospital found that the complication rate for the younger group (<65 years old) was 29% compared with 45% for the older group (≥65).11 Another study of 185 veterans who were all aged over 75 (mean age 81) found an incidence of 38% for hospital acquired complications.12

When we focused on specific types of events, our results were consistent with those of others, who found that elderly patients have more adverse drug events and falls. One study reported the incidence of adverse drug events to be 14.8% among hospitalised elderly patients (mean age 78.2).13 This figure is much higher than the reported rate of adverse drug events in patients of all ages from other studies. 6 14 More detailed comparisons cannot be made because of the use of different methods to detect, and different definitions of, adverse drug events. The literature on falls among elderly people is large, reflecting the importance of this problem. However, this research is mostly focused on elderly people residing in nursing homes or at home. In one study of hospitalised patients of all age groups, Morgan et al found that the incidence of falls in elderly patients was 1.9%.15 Once again, this generally corroborates our finding, but detailed comparisons are not possible because Morgan etal did not require the fall to prolong hospital stay, as our definition of an adverse event did. In fact, they detected only three falls that prolonged hospital stay.

We also found more preventable adverse events related to medical procedures in the elderly patients. In our study this was a heterogeneous group of procedures (thoracentesis, central venous catheterisation, bronchoscopy, cardiac catheterisation, etc) and complications (bleeding, infections, pneumothorax, etc). This heterogeneity and the relatively small sample size limit specific comparisons of complications related to procedures described in other studies and also limit the conclusions to be drawn from our observation.

Limitations of study

Limitations of our study include the moderate reliability of judgments about adverse events (κ=0.4), our method's reliance on documentation in medical records, our counting only those events that prolonged hospital stay or caused disability at discharge, our use of general internists and family practitioners as reviewers instead of specialists, and the non-random selection of hospitals. We could not quantify the degree to which a preventable adverse event caused death sooner than a patient's underlying disease process would have led to death. Finally, we did not directly measure and adjust for variables that may have influenced the rate of preventable adverse events in the elderly patients, such as number of procedures, number of drugs, and length of stay. However, we were able to control for comorbid illnesses, and we used a surrogate marker (DRG level) for complexity of care.

Conclusions

We found that elderly patients suffered more preventable adverse events in hospital than younger patients, possibly because of the increased complexity of their care. Additional research and prevention efforts should focus on adverse drug events, falls, and operative complications.

What is already known on this topic

Only one large population based study has found a higher rate of preventable adverse events in elderly people

What this study adds

Patients aged ≥65 experienced more preventable adverse events than those aged <65

Preventable adverse drug events, falls, and events related to medical procedure were more common in the elderly patients

After adjustments were made for complexity of care and other patient and hospital characteristics, age was not an independent correlate of preventable adverse events

Acknowledgments

Contributors: EJT supervised data collection, conducted data analysis and interpretation, and wrote the paper. TAB was principal investigator, supervised data collection and analysis, interpreted data, and assisted in writing the paper. Mr Tim Zeena performed statistical programming. EJT is guarantor for the study.

Footnotes

  • Funding The study was funded by the American Association of Retired Persons and the Robert Wood Johnson Foundation. EJT is a Robert Wood Johnson Foundation generalist physician faculty scholar.

  • Competing interests None declared

References

  1. 1.
  2. 2.
  3. 3.
  4. 4.
  5. 5.
  6. 6.
  7. 7.
  8. 8.
  9. 9.
  10. 10.
  11. 11.
  12. 12.
  13. 13.
  14. 14.
  15. 15.
View Abstract