The rate of use of Veterans Affairs chiropractic care: a 5-year analysis

Background

The US Department of Veterans Affairs (VA) has initiated various approaches to provide chiropractic care to Veterans. Prior work has shown substantial increase in use of VA chiropractic care between fiscal years (FY) 2005–2016. However, the extent of the availability of these services to the Veteran population remains unclear. The purpose of this study was to analyze the rate of Veteran use of VA chiropractic services, both from on-site care at VA facilities and VA purchased care from community care providers. This study analyzed facility characteristics associated with chiropractic use by both care delivery mechanisms (on-site and in the community).

Methods

Cross-sectional analyses of administrative data were conducted for FY 2014–2019. Data were obtained from VA’s Corporate Data Warehouse. The variables extracted included number of unique Veterans receiving VA chiropractic care on-site and in the community, total Veteran population of the VA facilities, size of the VA chiropractic workforce (measured as Full-Time Equivalent, FTE), and facility characteristics (geographic region and the facility complexity). Descriptive statistics, mixed model, and multivariant models were used to analyze data.

Results

Use of VA chiropractic care increased over the six-year period for both on-site and community care. National average for on-site use of the population was 1.27% in FY14 and 1.48% in FY19. Community care use was 0.29% and 1.76% for the same years. Use at individual facilities varied widely in each FY. Factors such as chiropractor FTE, geographic locations, and the complexity of the VA facility are associated with use of chiropractic services.

Conclusion

The VA has expanded the non-pharmacologic treatments available to Veterans by providing chiropractic services, yet chiropractic use remains low compared to other US populations. As Veterans have a high prevalence of pain and musculoskeletal conditions, continued work to assess and achieve the optimal levels of chiropractic use in this population is warranted.

The United States Department of Veterans Affairs (VA) provides healthcare services to over six million Veterans annually [1]. Most of this care, categorized as “on-station,” is delivered within VA’s national network of 170 medical centers and 1074 outpatient care facilities. Yet a growing amount is purchased from private sector facilities and/or providers through VA’s “community care” network [2]. Private sector care is purchased by the VA for many reasons, including when given services are not available in a timely manner at a VA facility or if a Veteran lives within a geographic area that does not provide on-station chiropractic care.

VA began to include Doctors of Chiropractic (DCs) among its community care network in 2000 and on-station at VA facilities in 2004, with increasing numbers of Veterans utilizing chiropractic care annually from both delivery mechanisms [2, 3]. DCs most commonly manage musculoskeletal (MSK) disorders such as low back or neck pain [4]. MSK conditions are highly prevalent within the Veteran population and are associated with increased opioid prescriptions [5]. The high prevalence of these pain conditions and the potential negative effects of prescription opioid use underscore the need to adhere to clinical practice guidelines—which recommend non-pharmacological therapies as frontline treatments—in the management of MSK conditions [6, 7]. Prior work has shown a negative association between chiropractic use and opioid prescriptions among Veterans of recent wars [8] and other United States populations [9].

In 2016, VA Health Services Research and Development State-of-the-Art Conference on Non-Pharmacological Treatments for Chronic Pain recommended the increased uptake of evidence-based non-pharmacological approaches by VA facilities [10]. Within these recommendations was chiropractic care, which includes many of the guideline recommended therapies, including but not limited to spinal manipulation, rehabilitative exercises, and pain education [11]. Also in 2016, the US Congress passed the Comprehensive Addiction and Recovery Act in light of the nation’s opioid epidemic [12]. This law led to a VA directive to address pain management for Veterans and to conduct research on the implementation and impact of complementary and integrative health (CIH) [13]. Furthermore, VA’s Office of Patient-Centered Care and Cultural Transformation formalized an approach to care called the Whole Health System of Care. This approach incorporates patient-centered care and CIH, including the use of chiropractic care at many VA facilities [14]. In March 2018, the United States’ Congress mandated further expansion of on-station chiropractic care within the VA, which was codified in May 2018 via VA Directive 1210 [15].

These initiatives have provided policy support for more Veterans to use VA chiropractic care. Prior work has shown a substantial increase in the number of Veterans using VA chiropractic care between fiscal years (FY) 2005–2016 [3]. However the proportion of the Veteran population using these services, and factors associated with their use, remains unclear. The purpose of this study was to measure the rate of use of VA chiropractic care in the Veteran population both via on-station care at VA facilities and community care mechanisms over a 5-year period, and to explore facility characteristics associated with chiropractic care use.

The project was a program analysis of VA chiropractic care use for the 5 fiscal years (October 1 of a given calendar year through September 30 of the next) of 2014 to 2019, encompassing October 1, 2013 to September 30, 2019. As a program assessment work, the VA Connecticut Research and Development Office determined that this did not arise from research requiring Institutional Board Review.

Chiropractic care use was defined as the percent of patients using VA chiropractic care, via on-station or community care mechanisms as indicated, out of the total population of VA patients in a FY. All data were obtained from VA’s Corporate Data Warehouse, a central repository of administrative and clinical data, using previously validated methodology [3]. The count of on-station chiropractic patients was determined by the number of patients at each facility with a distinct social security number (SSN) with a visit associated with the chiropractic care identifier code (Stop Code) 436 in the primary or secondary position by FY. The number of facilities with on-station chiropractic care was determined by the count of facilities with any number of chiropractic patients in a given FY.

The number of VA chiropractic patients receiving community care was obtained from the VA Office of Community Care claims database. Chiropractic patients were identified by distinct SSN and by facility location.

We extracted facility information including VA district, facility medical complexity grouping (MCG), DC full time equivalent (FTE) staffing, and the total Veteran patients of each VA facility. [16] The VA district of each facility is based on VA’s 5 geographic districts. Facilities’ MCG ratings, a product of the VA Office of Productivity, Efficiency, and Staffing (OPES), are ordered from 1a, 1b, 1c, 2, and 3, with MCG 1a facilities representing the most complex facilities. These are based on criteria such as patient volume, case complexity, staffing levels, and dedication to education or research [17]. These classifications were extracted to investigate any potential geographic trends within the VA districts or if trends exist within the complexity of similarly categorized facilities. Chiropractor staffing was obtained as the sum of VA chiropractor employee clinical FTE and fee-for-service chiropractors working at VA facilities whose effort is converted to the FTE scale. Clinical FTE represents both the employment schedule of the chiropractor (i.e. full-time vs part-time) and the percentage of their work hours administratively assigned to clinical tasks, with a 1 representing a full-time employee whose work hours are 100% assigned to clinical care and less than a 1 representing an employee who works less than full-time and/or is labor mapped to additional activities besides patient care (i.e. research, administrative duties). DC FTE per total patients is the quotient of DC clinical FTE at each facility divided by the total Veteran patient population at that facility.

Statistical method

Characteristics were summarized using frequencies (%) for categorical variables and means with standard deviations (SD) for continuous variables. The associations between facility characteristics and on-station and community care chiropractic use were analyzed via mixed effects models. A multivariable regression model assessed the use of chiropractic care adjusting for on-stations care use, community care use, FY, DC FTE per total patients, MCG level, and district. For the regression model of on-station chiropractic care use, only data from facilities with on-station chiropractic care were included. All statistical analyses were conducted using SAS software, Version 9.4 (SAS Institute Inc., Cary, NC, USA). Significance level was set at p < 0.05, two-sided.

We identified 140 facilities that provided on-station chiropractic care during the study period. The chiropractic care use via on-station and community care, as well as national characteristics of VA chiropractic clinics, are presented in Table 1. The number of Veterans utilizing any VA health services increased by an average of 1% annually over the 6-year study period. Veterans receiving chiropractic care via on-station and community care increased by an average 18% and 53% per year respectively. There was wide variability in the use of on-station chiropractic care for each facility, which is presented in Fig. 1.

Range of on-station chiropractic care use* at VA facilities. *chiropractic care use = chiropractic patients/total VA patients. Only facilities providing any on-station chiropractic care included in this figure.

Full size image

On-station chiropractic care use significantly increased over time at a rate of 4% per year (p = 0.002) after adjusting for community care use, DC FTE per total patients, MCG, and district (Table 2). Each 1% increase in community care use was associated with a 4% decrease of on-station chiropractic use (p = 0.02), and increasing DC FTE per total patients was associated with increasing on-station chiropractic use (p =  < 0.001).

Community care use also increased significantly over time at a rate of 18% per year (p < 0.001) after adjusting for on-station use, DC FTE per total patients, MCG, and district (Table 3). Increasing DC FTE per total patients was associated with increasing care use (p = 0.04), while increasing on-station use by 1% was associated with a 25% decrease in community care use (p = 0.008). District was also associated with community care use (p = 0.001).

This work presents the first description of VA chiropractic care as a percentage of the overall VA patient population. From FY 2014 to 2019, the percentage of Veterans using VA chiropractic care increased annually, reaching nearly 1.5% for on-station and 1.7% for community care in FY 2019. While previous work has shown the absolute number of VA patients receiving chiropractic care has increased annually [3], results of the current study show that the penetration of chiropractic care use in VA has also increased. Nationally, the mechanism (on-station or community care) where Veterans use chiropractic care is inversely associated. As VA continues to analyze the most effective and efficient mechanisms to deliver chiropractic care, further investigation into both care pathways is warranted.

Although the use of chiropractic care in VA has increased, it remains lower than that reported in other populations. Prior studies found that chiropractic care was used by approximately 13% of patients at Military Treatment Facilities [18] and approximately 15% of the general US population [19]. Since the Veteran population is known to have a high prevalence of MSK conditions [20], and treatments administered by DCs are aligned with primary approaches for the treatment of MSK conditions, the current use of VA chiropractic care may be suboptimal.

On-station chiropractic use

Variations in on-station chiropractic care use were associated with facility characteristics. Lower rates of use were associated with higher complexity facilities based on the MCG model. The reason for this may be that chiropractic care is more readily used at facilities that have fewer overall options for managing MSK cases. The analysis found an association between allotted work force, measured as DC FTE per total patients, and on-station use. This suggests that in order for VA to provide increased availability of chiropractic care, an increase in the VA chiropractic workforce is necessary. Future research is needed to assess the best level of DC FTE and chiropractic care use as VA continues to expand services for Veterans.

Community care chiropractic use

The VA district representing the western United States had the highest community care use, which is likely related to the highly rural areas in this region. Veterans in rural areas may have increase community care referrals based on their limitations in accessing a VA facility with an on-station chiropractic clinic. Nationwide, variations in community care may also be due to multiple third-party contractors coordinating VA’s community care services.

Limitations

This project had several limitations. All administrative databases are subject to data transmission, storage, and retrieval error. However prior work has indicated that VA administrative data regarding on-station care are highly accurate in multiple patient parameters [21, 22]. If minor errors occurred, it seems unlikely that the data errors would substantially change the results with respect to on-station chiropractic care use. Data from VA’s community care network may be subject to regional variation in claims being associated with a purpose of visit indicated as chiropractic. The purpose of visit data may be inaccurate or missing, thus, our results in this category may be underreported. Within the community care data, there is a known limitation in FY15-16 where many claims were administratively process and attributed to one VA facility, resulting in incorrect distribution of services among VA facilities nationally. These data sources do not include any Veteran who utilized chiropractic care outside of the VA system and elected to self-pay, which could lead to the underreporting of chiropractic care use.

Additional work is needed to assess the optimal use of chiropractic care for Veterans. Future studies should explore details of chiropractic care patterns (timing, dosage, and sequencing) and the impacts of such care on patient level and systems outcomes. Additionally, studies comparing VA chiropractic care from on-station and community care providers could inform the ongoing implementation of services in a manner that maximizes outcomes for Veterans and resource allocation within the VA.

The VA has expanded Veterans’ use of non-pharmacological treatments provided via chiropractic care within both on-station and community care settings, yet chiropractic use remains low compared to other US populations. As Veterans have high prevalence of pain and MSK conditions, continued work to assess and achieve the optimal levels of VA chiropractic care use in this population is warranted.

To maximize protection security of veterans’ data while making these data available to researchers, the US Department of Veterans Affairs (VA) developed the VA Informatics and Computing Infrastructure (VINCI). VA researchers must log onto VINCI via a secure gateway or virtual private network connection (VPN), and use a virtual workspace on VINCI to access and analyze VA data. By VA Office of Research and Development policy, VINCI does not allow the transfer of any individual-level data out of its secure environment without special permission. Researchers who are not VA employees must be vetted and receive “without compensation” (WOC) employee status to gain access to VINCI. For questions about data access, contact the study lead (Ryan.Burdick@va.gov) or the VA Office of Research and Development (VHACOORDRegulatory@va.gov).

VA:

United States Department of Veterans Affairs

DC:

Doctor of chiropractic

MSK:

Musculoskeletal

CIH:

Complementary and integrative health

FY:

Fiscal year

VSSC:

VA Support Service Center

FTE:

Full time equivalent

MCG:

Medical complexity grouping

OPES:

VA Office of Productivity, Efficiency, and Staffing

The views expressed are solely those of the authors and do not reflect the official policy or position of the US Department of Veterans Affairs or the US Government.

Ryan Burdick is supported by a postdoctoral fellowship grant from the NCMIC Foundation.

Authors and Affiliations

1. Center for Medical Informatics, Yale School of Medicine, Yale University, 300 George St, New Haven, CT, 06511, USA

   Ryan Burdick, Kelsey L. Corcoran & Anthony Lisi

2. Department of Physical Medicine and Rehabilitation, VA Connecticut Healthcare System, 950 Campbell Ave., West Haven, CT, 06516, USA

   Ryan Burdick, Kelsey L. Corcoran & Anthony Lisi

3. Pain Research, Informatics, Multimorbidities, and Education (PRIME) Center, VA Connecticut Healthcare System, 950 Campbell Ave., West Haven, CT, 06516, USA

   Kelsey L. Corcoran & Anthony Lisi

4. Center for Analytical Sciences, Yale School of Public Health, Yale University, 300 George St, New Haven, CT, 06511, USA

   Xiwen Zhao

Contributions

RB, KC, AL, contributed to the conception of project. KC, AL contributed to data acquisition. XZ contributed to the analysis and interpretation of project data. All authors drafted and revised the project content. All authors have read and approved final manuscript.

Corresponding author

Correspondence to Ryan Burdick.

Ethics approval and consent to participate

This was a program assessment project, and the VA Connecticut Research and Development Office determined that this did not arise from research requiring Institutional Board Review.

Consent for publication

Not applicable.

Competing interests

All authors declare that they have no competing interests.

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