Introduction
Hip fractures are considered to be of great concern because they may result in personal disability and mortality, thereby placing a burden on family and societal expenditures. It is estimated that approximately 1.66 million hip fractures occur each year worldwide [
1,
2]. According to recent world population surveys, the population of older adults (aged 60 years or over) in 2013 was 841 million, which is four times higher than the 202 million in 1950 [
3]. The burdens associated with hip fracture could therefore be expected to become a great challenge worldwide.
Although several studies have demonstrated declining age-adjusted hip fracture rates for most Western countries over the past few decades [
4‐
7], the incidence of hip fracture has increased two- to threefold in most Asian countries over the past 30 years [
8]. Therefore, it is projected that by the year 2050, more than 50% of all osteoporotic hip fractures worldwide will occur in Asia [
1,
2]. Additionally, patients experiencing hip fractures have a twofold higher risk of subsequent hip fracture as compared to those without prior hip fractures [
9]. Thus, the burden and significance of hip fracture may be greater than expected due to the impact of recurrent hip fractures.
In 2005, osteoporosis was declared as a government mandated national health priority in Taiwan. Since then, programs for osteoporosis prevention and public awareness have been promoted through the media and various groups in Taiwan. In addition, Asian-Pacific guidelines (2006) [
10] and the Consensus and Guidelines on the Prevention of Adult Osteoporosis (The Taiwanese Osteoporosis Association, 2007) [
11] were published. The efficacy of these measures was assessed by the National Nutrition and Health Survey in Taiwan (NAHSIT). The survey found an increase in calcium intake from food and an increase in the consumption of calcium and vitamin D supplements when comparing 2005–2008 with 1993–1996 [
12,
13]. In order to quantify the burden of osteoporosis and to evaluate the potential impact of policy efforts, we conducted the present study to estimate the trend of the hip fracture incidence as well as economic burdens from 2001 to 2012. In addition, we used a whole population database, the National Health Insurance Research Database (NHIRD), to identify first hip fractures and to estimate 10-year second hip fracture probabilities in a competing risk model.
Methods
Ethics
This study was approved by the Ethical Medicine Committee of Chang Gung Memorial Hospital and supported by the Clinical Monitoring Research Program (CMRP) of Chang Gung Memorial Hospital at Keelung. The study protocol was also reviewed by the National Health Research Institute (NHRI), which consented to the planned analysis of the National Health Insurance Research Database (NHIRD) data.
Data sources
This study included annual national reports from the Ministry of Health and Welfare, Taiwan (
http://www.mohw.gov.tw/cht/DOS/Statistic_P.aspx?f_list_no=312&fod_list_no=2425&doc_no=13717, accessed date 2015/07/06), annual population reports from the Ministry of the Interior, Taiwan, and NHIRD. The annual national reports from the Ministry of Health and Welfare, Taiwan, included aggregated count data (numerator in hip fracture incidence rates) of hip fractures (including first, recurrent, pathological hip fractures, and trauma) stratified according to age and sex groups. In addition, overall admission costs were provided. The data of population at risk were retrieved from annual population reports from the Ministry of the Interior, Taiwan (denominators in hip fracture incidence rates). The incidence of hip fractures and the associated medical costs were calculated from the annual report of the Ministry of Health and Welfare, Taiwan, and population reports from the Ministry of the Interior, Taiwan. NHIRD is an individual-level claim database. The incidence of second hip fractures was calculated using the NHIRD, which contains records for approximately 23 million insured individuals. At the end of 2007, the NHIRD included information for more than 99% of the population enrolled in the National Health Insurance program, which has contracts with 97% of clinics and hospitals in Taiwan and covers all medical services received by each enrollee from 1996 to 2013, as well as the characteristics of the patients, hospitals, and physicians. For administrative use and research, the NHRI provided the research data, which are de-identified and encrypted before being released for medical research. We retrieved the whole population data of first hip fractures from the NHIRD.
The incidence of hip fractures
This study searched national databases for individuals aged 50 years and older who were diagnosed with hip fractures during the period from January 1, 2001 to December 31, 2012. The incidence of hip fractures and the associated medical costs were calculated from the annual report of the Ministry of Health and Welfare, Taiwan, and population reports from the Ministry of the Interior, Taiwan. The incidence rate (per 100,000 person-years) was defined as the number of occurrences of hip fractures divided by the age, sex-specific, mid-year population at risk. In addition, age-standardized incidence rates were calculated using the 2010 United Nations world population statistics as well [
14,
15].
The incidence of second hip fractures
Patients were identified from the database using the International Classification of Disease, 9th Revision, Clinical Modification (ICD-9-CM) diagnostic code for hip fractures (820.x) and surgical procedure code (64029B or 64170B) on their outpatient records or hospitalization discharge records. Pathological fractures were excluded. A total of 240,865 patients sustained their first hip fracture from January 1, 2001 to December 31, 2013; 14,503 traumatic cases that experienced traffic accidents (E810-E819, E881-E883, E8841) and 2463 patients with unknown sex, obscure records, or who were less than 50 years old were excluded. Additionally, 61,965 patients with a first hip fracture before January 1, 2001 and after December 31, 2011 were also excluded. Thus, a total of 161,934 patients (62,823 men and 99,111 women) with a first hip fracture between January 1, 2001 and December 31, 2011 were investigated and followed until December 31, 2013.
A patient’s second hospitalization with a hip fracture diagnosis and surgical procedure codes was defined as a second hip fracture. The incidence rate of second hip fractures was estimated by treating death as a competing risk. The censoring was defined as no occurrence of second hip fracture or death until December 31, 2013.
Statistical analysis
We conducted a multivariate analysis using data from the hip fracture reports as mentioned above. To estimate the impact of policy interventions, we defined period 1 as the calendar years of 2001 to 2005 and period 2 as the calendar years of 2006 to 2012. We first performed a Poisson regression and detected over-dispersion [
16]. Over-dispersion occurs when the Poisson distribution assumptions are likely violated. After exploring the possible sources of over-dispersion including outliers and interaction, we decided to use a negative binomial regression model (See Supplemental Table
S1 for statistical details) to add in the additional variance term. Finally, we used the model to predict the hip fracture reduction between the two periods to identify the impact of policies to reduce hip fractures. Furthermore, we used a competing risk model to model the cumulative state-occupied probability of first hip fracture, second hip fracture, and death, with death as a competing event of second hip fracture [
17,
18]. In addition, we also investigated the effect of age and sex on the event-specific incidence rate [
19]. All reported confidence intervals (CIs) and tests were two-sided with a 5% significance level. All analyses were performed using the R software version 3.3.1 (R Foundation for Statistical Computing, Vienna, Austria) with contributed packages “doBy,” “epitools,” “MASS,” “mstate,” and “compeir”. All the R codes in the current study are available from the corresponding author.
Discussion
The present study demonstrated the secular changes in hip fracture incidence rates in Taiwan. From 2001 to 2012, there was a significant reduction in the incidence of hip fracture. The secular trend for hip fracture reflects a difference between time periods (2001 to 2005 vs. 2006 to 2012) in all age groups for both men and women. Medical expenditures increased as the total annual number of hip fractures increased over time. However, the costs for each admission decreased. Among patients with their first hip fracture, the 10-year mortality rate was substantial. To our knowledge, this is the most up-to-date report regarding the epidemiology of osteoporotic hip fractures and second fractures in an Asian country.
It has been well-established that the incidence of hip fracture increases with age [
20], and the relative growth of the elderly population has been accompanied by a shift to an older average age at the time of hip fracture [
21]. It has been documented that the earliest decreases in hip fracture rates were noted in the UK starting in the late 1970s and in North America starting in the mid-1980s, followed by Scandinavia, where rates started to decline in the early 1990s for Norway and Sweden, and the late 1990s for Denmark and Finland [
7]. Although policy interventions and publishing of clinical practice guidelines have reduced the incidence rate of hip fracture, the number of hip fractures increased for both men and women due to an aging population. Compared with data for other countries, the decrease in incidence rate is not sufficient, indicating that our government and society should put more efforts on primary and secondary preventions [
22]. Nevertheless, our estimates of hip fracture incidence included first, recurrent, and traumatic hip fractures. The incidence rates are higher than previous reports [
23].
Aside from being a decade or so behind these Western countries, the improving trend in Taiwan is quite similar to theirs. In Asia, most countries, such as China [
24], Japan [
25], South Korea [
26], and Singapore [
27], have shown a continuous increase in hip fracture rates in the current decade. However, findings regarding hip fracture rates similar to those in the present study have also been reported in Hong Kong [
28]. The etiologies of the secular patterns in the aforementioned countries have not been completely clarified. Declared factors include urbanization, birth cohort effects, changes in bone mineral density and body mass index, osteoporosis medication use, and/or lifestyle interventions, such as smoking cessation, improvement in nutritional status, and fall prevention [
7,
28]. In 2005, osteoporosis was declared as a government-mandated national health priority in Taiwan, which has facilitated the implementation of programs for osteoporosis prevention since then. The impact of these programs can be seen in the NAHSIT survey as well as our results.
Patients with prior hip fracture have about a twofold higher rate of subsequent hip fracture as compared to those without prior hip fractures [
9]. The present study is the first to use the whole population data to analyze the occurrence of the second fracture in long-term follow-up. Melton et al. [
29] conducted a long-term cohort study of hip fracture incidence and recurrence. Some of their results were similar to ours. First, the incidence rates of all hip fracture stratified by age and sex were similar with ours. Second, they showed that 23% of recurrent hip fractures occurred within 1 year following a first-ever hip fracture and 70% occurred within the first 5 years. Our analyses revealed that, following a first-ever hip fracture, 27% of recurrent hip fractures occurred within 1 year and 75% within the first 5 years in men, compared to 23% within 1 year and 72% within the first 5 years in women. Third, Melton et al. reported that the cumulative incidence of a second hip fracture after 10 years was 11% in women and 6% in men, with death treated as a competing risk. Nevertheless, our present study did not thoroughly investigate the period effect of secondary preventions. To our knowledge, there has been little Asian population-based research to determine the cumulative incidence of second hip fractures using a competing risk model as we did.
The incidence rate of second hip fractures has been reported with variable frequencies, ranging from 2.3 to 9.5% [
30‐
40], which may be related to variations in the duration of follow-up, sample sizes, and statistical analysis. In accordance with the results reported by others [
29,
39], increased age as an independent predictor of hip fracture recurrence was also identified in the present study. However, by age group, the event-specific incidence rate for second hip fracture was highest in patients aged 80–90 years. It was somewhat different from other reports regarding recurrent hip fracture [
29,
30,
41], which increased linearly with age. In addition, the second hip fracture rate was higher in women than that in men in the present study, whereas other studies found no difference between men and women [
29,
40,
41].
As the population aged, the number of hip fractures increased by 39% from 2001 to 2012 in Taiwan. Hospitalization costs also increased by 39% from 2001 to 2012. According to reports from the Directorate-General of Budget, Accounting and Statistics, Executive Yuan, Taiwan, the CPI increased by 13% from 2001 to 2012. The average hospitalization cost per admission for hip fracture did not increase as the CPI increased, which was due to tight cost constraints by the Taiwanese National Health Insurance (NHI) [
42]. However, it should not be ignored that it is difficult to estimate the expenditures by a family and society after a hip fracture. In addition, whether the strict limited health payment was related to the disease burden of hip fractures and recurrent hip fractures in Taiwan should be further investigated. Since Taiwan’s compulsory national health care system covers 99% of Taiwan nationals, almost all patients with hip fractures would receive surgical treatment. The persistently high recurrent hip fracture and mortality rate demonstrates that, in addition to surgical management, better pharmacological [
43] and rehabilitation [
44] regimens comprising a comprehensive fracture prevention strategy, such as the Fracture Liaison Service model [
45], may help to improve secondary preventions.
The main strengths of our study are that it is based on whole population data from the NHIRD for incidence rate of second hip fracture spanning 12 years and the incidence of hip fracture was assessed both from the annual report of the Ministry of Health and Welfare, and the Ministry of the Interior, Taiwan. Thus, it covers almost all hip fractures in Taiwan. In addition, our statistical analyses were rigorous. However, we also have limitations in the present study. First, it was unable to exclude completely the cases of re-operation due to short-term complications, since the operation code is similar. Hence, the number of second hip fractures in the present study may be slightly higher than that of the actual condition. Nevertheless, owing to the large sample size, the effect might be insignificant. Second, regarding declining rates, it is possible that the database in the latter period of the study is capturing a larger proportion of the aging population due to improved information technology, more complete data capture, and more insured patients included. If that is the case, then, the effects of policy interventions no longer exist. Finally, owing to a lack of the population at-risk data required for calculating incidence rate of first hip fracture, we could not conduct such an analysis in the present study.