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Nation-Wide Variation in Presence of Legislation or Protocols for EMS Care of Operational Canines

Published online by Cambridge University Press:  15 February 2024

David W. Schoenfeld ,
Caroline E. Thomas ,
Lee Palmer ,
William Justice ,
Esther Hwang Open the ORCID record for Esther Hwang [Opens in a new window] ,
Kate D. Zimmerman ,
Jeffrey M. Goodloe ,
Jonathan D. Shecter Open the ORCID record for Jonathan D. Shecter [Opens in a new window]  and
Stephen H. Thomas
David W. Schoenfeld*
Affiliation:
Department of Emergency Medicine, Beth Israel Deaconess Medical Center & Harvard Medical School, Boston, Massachusetts USA
Caroline E. Thomas
Affiliation:
BS Candidate, Department of Chemistry, Georgetown University, Washington, DC USA
Lee Palmer
Affiliation:
Auburn University College of Veterinary Medicine, Auburn, Alabama USA
William Justice
Affiliation:
Department of Emergency Medicine, University of Oklahoma School of Community Medicine, Tulsa, Oklahoma USA
Esther Hwang
Affiliation:
Department of Emergency Medicine, Emory University School of Medicine, Atlanta, Georgia USA
Kate D. Zimmerman
Affiliation:
Department of Emergency Medicine, Maine Medical Center and Tufts University School of Medicine, Portland, Maine USA
Jeffrey M. Goodloe
Affiliation:
Department of Emergency Medicine, University of Oklahoma School of Community Medicine, Tulsa, Oklahoma USA
Jonathan D. Shecter
Affiliation:
Department of Emergency Medicine, Beth Israel Deaconess Medical Center & Harvard Medical School, Boston, Massachusetts USA
Stephen H. Thomas
Affiliation:
Department of Emergency Medicine, Beth Israel Deaconess Medical Center & Harvard Medical School, Boston, Massachusetts USA Barts & The London School of Medicine, London, United Kingdom
*
Correspondence: David W. Schoenfeld, MD, MPH Department of Emergency Medicine Beth Israel Deaconess Medical Center, 1 Deaconess Rd. Boston, Massachusetts 02215 USA E-mail: [email protected]
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Abstract

Background & Aims:

Deployment of law enforcement operational canines (OpK9s) risks injuries to the animals. This study’s aim was to assess the current status of states’ OpK9 (veterinary Emergency Medical Services [VEMS]) laws and care protocols within the United States.

Methods:

Cross-sectional standardized review of state laws/regulations and OpK9 VEMS treatment protocols was undertaken. For each state and for the District of Columbia (DC), the presence of OpK9 legislation and/or care protocols was ascertained. Information was obtained through governmental records and from stakeholders (eg, state EMS medical directors and state veterinary boards).

The main endpoints were proportions of states with OpK9 laws and/or treatment protocols. Proportions are reported with 95% confidence intervals (CIs). Fisher’s exact test (P <.05) assessed whether presence of an OpK9 law in a given jurisdiction was associated with presence of an OpK9 care protocol, and whether there was geographic variation (based on United States Census Bureau regions) in presence of OpK9 laws or protocols.

Results:

Of 51 jurisdictions, 20 (39.2%) had OpK9 legislation and 23 (45.1%) had state-wide protocols for EMS treatment of OpK9s. There was no association (P = .991) between presence of legislation and presence of protocols. There was no association (P = .144) between presence of legislation and region: Northeast 66.7% (95% CI, 29.9-92.5%), Midwest 50.0% (95% CI, 21.1-78.9%), South 29.4% (95% CI, 10.3-56.0%), and West 23.1% (95% CI, 5.0-53.8%). There was significant (P = .001) regional variation in presence of state-wide OpK9 treatment protocols: Northeast 100.0% (95% CI, 66.4-100.0%), Midwest 16.7% (95% CI, 2.1-48.4%), South 47.1% (95% CI, 23.0-72.2%), and West 30.8% (95% CI, 9.1-61.4%).

Conclusion:

There is substantial disparity with regard to presence of OpK9 legal and/or clinical guidance. National collaborative guidelines development is advisable to optimize and standardize care of OpK9s. Additional attention should be paid to educational and training programs to best utilize the limited available training budgets.

Keywords

canineEMS protocolsoperational K9police canine EMSveterinary EMS
Type
Original Research
Information
Prehospital and Disaster Medicine , Volume 39 , Issue 1 , February 2024 , pp. 59 - 64
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Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of World Association for Disaster and Emergency Medicine

Introduction and Study Aims

In February 2022, significant publicity accompanied the signing of “Nero’s Law” in Massachusetts (USA). The legislation was drafted in response to a situation in which Yarmouth Police Sergeant Sean Gannon was killed in the line of duty (LOD) and his law enforcement operational canine (OpK9) Nero suffered near-fatal gunshot injuries. Although several ambulances were on scene, state regulations in place at the time prevented Emergency Medical Services (EMS) from rendering OpK9 aid or transport. As a result, Nero remained on-scene without any medical care until he was able to be transported by police vehicle. In light of this situation, Nero’s Law was passed in order to enable EMS to provide basic OpK9 care and transport.

Massachusetts was not the first state within the United States to pass a law addressing the issue of EMS care for injured OpK9s. Colorado passed its Preveterinary Care Act in March 2014. Since that time, and prior to the 2022 passing of Nero’s Law, veterinary EMS (VEMS) legislation had passed in a handful of other states (eg, Arkansas’ 2021 enactment of Gabo’s Law).

Deaths of OpK9s in the civilian law enforcement LOD have been long recognized as a clinical problem. One of the first reviews of OpK9 LOD deaths, covering the decade from 2002-2012, was published in 2014. Reference Stojsih, Baker, Les and Bir1 The next year, the OpK9 Tactical Emergency Casualty Care Initiative was described. Reference Palmer, Maricle and Brenner2 By 2017, best-practice recommendations were appearing in the literature. Reference Hanel, Palmer and Baker3Reference Palmer and Yee5 More recently, review articles and case series have continued to highlight the importance of considering OpK9 LOD injuries. Reference Hogan and Nesbit6Reference Vegas Comitre, Palmer, Bacek, Kuo and Keys11

Heightened clinical awareness of OpK9 injuries has only partially translated to state-level EMS regulatory and legislative guidance. Variation in state jurisdictions’ approach to OpK9 issues gave rise to the current project. Inconsistency in state-based approaches is suboptimal, given the complexity of OpK9 care (eg, training requirements, crew safety issues, and legal protection).

Thus, it could be useful to understand the national status quo with regard to presence (or absence) of guiding legislation and care protocols for prehospital providers who may be asked to stabilize and/or transport OpK9s with LOD injuries. The primary aim was ascertainment, in each of the 50 states and the District of Columbia (DC), of jurisdictional presence of enacted VEMS OpK9 legislation and/or state-wide care protocols (including guidelines). Secondary aims were to assess whether presence of legislation was associated with presence of clinical protocols for the care of OpK9s, and to determine whether presence of legislation or care protocols varied across the United States’ four main geographic regions.

Methods

Design

The study was a cross-sectional assessment of publicly available information regarding existence of state-level EMS legislation and OpK9 care protocols. Institutional ethics review was not required.

Setting

The study covered the 51 state jurisdictions (including DC) within the United States. The United States Census Bureau (Washington, DC USA) definitions (Figure 1) were used to categorize states into four regions: Northeast, Midwest, South, and West.

Figure 1. United States Census Bureau Geographic Regions.

Note: Adapted from https://www2.census.gov/geo/pdfs/maps-data/maps/reference/us_regdiv.pdf.

Data and Analysis

Information on presence or absence of VEMS OpK9 legislation and care protocols was obtained via multiple pathways. Major data sources were publicly accessible national association websites. Four websites providing most of this study’s data were those of the National Association of VEMS (NAVEMS; 12 Cumberland, Pennsylvania USA), the American Veterinary Medicine Association (AVMA; 13 Schaumburg, Illinois USA), the National Association of State EMS Officials (NASEMSO; 14 Falls Church, Virginia USA), and the web-based collection of EMS protocols. 15

Data on bills in state legislative consideration were obtained through use of bill-tracking websites (eg, Iowa Legislature; 16 Supplementary Material – available online only). Information on legislative status was updated at the end of June 2023.

Data on each state’s legislation presence or absence, and (if no legislation enacted) whether a state was actively considering legislation, were entered into a spreadsheet (Excel, Office 365 v.16.0; Microsoft Corp.; Redmond, Washington USA). Similar dichotomous coding was entered to indicate whether the state had protocols in place (including either care protocols or clinical guidelines) for VEMS OpK9 care. After data were entered, the information was imported into statistical software (Stata version 18MP; Stata Corp.; College Station, Texas USA) which was used for all analysis and mapping.

Categorical assessments for association between legislation and OpK9 treatment protocol presence, and for regional associations with either legislation or protocol presence, were executed using Fisher’s exact testing. Significance was defined at the P < .05 level. Precision of key proportions’ calculations was indicated by calculation of binomial exact 95% confidence intervals (CIs). When a proportion’s percentage was either 0% or 100%, Stata reports a one-sided 97.5% CI.

Results

The study obtained information on all 51 jurisdictions. Results are summarized in Table 1.

Table 1. Presence or Absence of Veterinary EMS (VEMS) Legislation or State-Wide Operational K9 (OpK9) Care Protocols

a Bills under active (committee-level) consideration as of June 2023.

b State guideline (treated in this analysis as equal to a protocol).

Twenty states had VEMS OpK9 laws in place (39.2% of 51). Of the jurisdictions without enacted laws, two (6.5% of 31) had bills in active legislative consideration.

One state, Maine, constituted a special case. Maine enacted a VEMS law in 2018, but the state’s OpK9 protocol was temporarily suspended (as of June 2023) pending amendment to optimize EMS protection. For purposes of this analysis (and mapping), Maine was counted as having a VEMS OpK9 law. Figure 2 shows the geographic distribution of states with enacted OpK9 legislation.

Figure 2. Veterinary EMS (VEMS) Operational K9 (OpK9) Care Legislation in Each State within the United States (n = 20).

Abbreviations: VEMS, veterinary Emergency Medical Services; OpK9, operational canine.

There was no association (P = .144) between geographic region and existence of enacted legislation. Regional summary of states’ VEMS legislation is shown in Table 2.

Table 2. Veterinary EMS (VEMS) Operational K9 (OpK9) Legislation and Care Protocols by Region

Table 2 also shows regional presence of VEMS OpK9 care protocols. The geographic distribution of states with care protocols is shown in Figure 3. There was significant (P = .001) regional variation in presence of state-wide OpK9 care EMS protocols; assessment of the 95% CIs in Table 2 suggested that the only statistically significant regional difference was between Northeast (100.0% with protocols) and the West (30.8% with protocols). There was no association (P = .991) between the presence of VEMS legislation in a state and that state’s having an OpK9 care protocol.

Figure 3. States (n = 23) with Veterinary EMS (VEMS) Operational K9 (OpK9) Care Protocols or Guidelines.

The final mapping (Figure 4) framed the four possible situations characterized by presence or absence of VEMS OpK9 law and presence or absence of VEMS OpK9 protocol. Of 51 jurisdictions, a total of nine (17.6% of 51) had both legislation and protocols, 11 (21.6% of 51) had legislation without protocols, 14 (27.5%) had protocols without legislation, and 17 (33.3%) had neither legislation nor protocols.

Figure 4. States with Combinations of Veterinary EMS (VEMS) Operational K9 (OpK9) Laws and Care Protocols.

Discussion

For this study’s primary endpoint, the presence of enacted state-level VEMS legislation, the main finding is that such legislation is in place in 20 states. These laws are relatively new, with the first such legislation passed (in Colorado) in 2014. The fact that numerous VEMS laws have been passed in such a relatively short time is illustrative of the national-level importance of the issue.

This analysis’ mapping (of presence or absence of VEMS OpK9 legislation and clinical protocols) identified substantial disparity in approaches across the 51 state-level jurisdictions. Despite limitations of low precision (due to low state n in some regions), a statistically significant geographic variation in the geographic regions’ promulgation of clinical protocols was found.

There was no statistically significant finding of geographic variation in VEMS OpK9 legislation. This non-significant statistical result was likely due to low precision (power). More important than the region-based analysis was the overall finding that one-third of jurisdictions had neither VEMS OpK9 legislation nor related clinical guidelines.

The third important finding in this analysis was that presence or absence of VEMS OpK9 legislation was not associated with presence or absence of related clinical care protocols. Given VEMS OpK9’s myriad facets (eg, training, EMS safety, and legal protection), it is highly likely that this finding represents an important highlight for prehospital regulators and providers.

In framing the results of the current analysis in context of the current evidence, a previously published map of approaches of all 51 jurisdictions with regard to VEMS OpK9 legislation and protocols was unable to be found. There is, however, a growing evidence base defining OpK9, Reference Palmer, Maricle and Brenner2,Reference Operational Canine10 describing deployment and injuries, Reference Stojsih, Baker, Les and Bir1,Reference Hogan and Nesbit6,Reference Edwards, Scott, Gonyeau, Howard, Parker and Hall9,Reference Vegas Comitre, Palmer, Bacek, Kuo and Keys11 and outlining best-practices protocols. Reference Hanel, Palmer and Baker3,Reference Corse, Firth and Burke4,Reference Mitek, McMichael, Weir, Smith and Schneider7,Reference Weir, Mitek, Smith, Schneider and McMichael8 While a number of OpK9 animals is not known with precision, it is estimated that there are approximately 50,000 deployed in various law enforcement and related activities. Regardless of the exact number of OpK9s, they are present in sufficient numbers (and there are sufficient recommendations on clinical care) to warrant efforts at national-level collaboration on OpK9 clinical matters.

The results of this study indicate a need for collaborative discussion and detailed expert assessment by all stakeholders (eg, EMS providers, OpK9 law enforcement officers, veterinarians, prehospital training experts, and regulatory authorities). The authors are aware (and some are participants in) on-going efforts to move towards consistent guidance on VEMS care, including generation of guidelines supported by veterinary medicine experts. The results of this study provide evidence that there is regulatory heterogeneity that may benefit from nation-wide discussion on this important subject. National discussions can include (but should not necessarily be limited to) conversation regarding practice scope, best-practice guidelines generation, and EMS clinician-centric OpK9 training courses with mutual veterinarian and physician buy-in for VEMS training.

Limitations

The current analysis has a number of methodological limitations that restrict definitive conclusions. One such limitation, low analytical power due to some regions’ having low n of states, has been mentioned. The result of this shortcoming is that it is not easy to conclude whether or not there is a “statistically significant” difference between regions’ findings.

While statistical significance for some region-based calculations was lacking, practical significance is also important. Maps can tell an important story even in the absence of P < .05. Nearly two-thirds of states lack legislative guidance for VEMS care or transport in the United States. The occasional logistics of interstate law enforcement operations, or the more common occurrences of operations in states’ border regions, can easily translate into situations in which the closest emergency veterinary care center is across state lines. The finding of differing regulatory situations in bordering states poses potential for confusion as well as unappreciated (or under-appreciated) liabilities for EMS professionals involved in acute, unscheduled OpK9 care.

Another limitation of this study is the accuracy of the information. It is possible that, despite using publicly available and presumably updated state-governmental information sources, misclassification errors were made. Some states categorized as lacking legislation (or protocols) may in fact have had such guidance. Even in the case where laws were noted to be present, complications can arise. The situation with Maine is illustrative.

Maine’s VEMS OpK9 law provides civil protection, but the protocol was suspended pending consideration of an amendment to the state veterinary practice act to bolster criminal immunity. The Maine situation serves to illustrate the complexities of VEMS immunity: there are both civil and criminal considerations. The larger picture, and greater challenge for this study, is that 51 jurisdictions represent 51 different and potentially evolving arenas for VEMS OpK9 care and transport. The results from this cross-sectional analysis should be taken with a caveat that situations are changing on an annual, if not monthly, basis.

A final limitation of this analysis was its restricted focus on presence (or absence) of VEMS OpK9 legislation or protocols. For the laws that were identified, and the protocols that were found to be in place, this study did not attempt to provide detailed information. These details can be important and are worth discussion.

Perhaps the most important detail left for later studies is that the term “VEMS legislation” can have disparate meanings in different jurisdictions. Laws may cover care and transport, or they may cover just one phase of the VEMS interaction. Transport, which may even occur by helicopter, Reference Hogan and Nesbit6 is an integral part of OpK9 trauma care. Reference Weir, Mitek, Smith, Schneider and McMichael8 Other potentially important areas of difference (eg, training and tort protection) emphasize the limitation that not all VEMS laws are equal. Some states with enacted legislation have a curriculum, whereas other states’ curricula are either in development or absent. In at least one jurisdiction, there appears to be a state law with regional (but not state-wide) protocols for both care and transport. Reference Mitek, McMichael, Weir, Smith and Schneider7,Reference Weir, Mitek, Smith, Schneider and McMichael8 Details of legislation, training, and protocols are important, but they lie outside this study’s scope. The results presented here should be considered coarse measures of presence or absence of some VEMS legislation and protocol guidance.

An additional facet of VEMS OpK9 care not covered here is the practice atmosphere for those jurisdictions that lack VEMS OpK9 legislation. While not always spelled out in the details of publicly available information, there were indications of important differences in various states’ OpK9 care environments. The fact that a state does not have VEMS legislation simply reflects that the state has not enacted a law. It is quite possible that states that lack formal laws are just as supportive of EMS providers (and OpK9 units) as are those states with laws. Informal agreements may exist (and not be easily identified or referenced) in many jurisdictions that provide some “coverage” or a mutual care agreement so that EMS can care and/or transport injured OpK9s.

While some on-going efforts toward improving a given state’s VEMS care were identified as part of this review, it is assumed that other states’ efforts may have been unidentified. Specifically, some jurisdictions’ characteristics suggested that well-intentioned (and non-billed) VEMS care would incur low risk of administrative penalty. Examples of favorable characteristics are found in states in which there were high-profile media reports lauding VEMS care incidents, and states with organized VEMS education programs or active work on protocol development. For some states, there remains potential risk that veterinary boards could investigate any VEMS care as unauthorized practice of veterinary medicine.

Conclusion

In this cross-sectional standardized review of state laws and OpK9 treatment protocols for all 50 states and DC, a substantial disparity was found with regard to presence of OpK9 legal and/or treatment protocols. Additionally, there was no association between presence of legislation mandating or allowing EMS treatment of OpK9s and presence of state-wide treatment protocols to guide providers.

Conflicts of interest

The authors declare no relevant financial or non-financial competing interests.

Supplementary Materials

To view supplementary material for this article, please visit https://doi.org/10.1017/S1049023X24000074

References

Stojsih, SE, Baker, JL, Les, CM, Bir, CA. Review of canine deaths while in service in US civilian law enforcement (2002-2012). J Spec Oper Med. 2014;14(4):8691.CrossRefGoogle Scholar
Palmer, LE, Maricle, R, Brenner, JA. The operational canine and K9 tactical emergency casualty care initiative. J Spec Oper Med. 2015;15(3):3238.CrossRefGoogle ScholarPubMed
Hanel, RM, Palmer, L, Baker, J, et al. Best practice recommendations for prehospital veterinary care of dogs and cats. J Vet Emerg Crit Care (San Antonio). 2016;26(2):166233.CrossRefGoogle ScholarPubMed
Corse, T, Firth, C, Burke, J, et al. Operation canine lifeline: recommendations for enhancing prehospital care for government working dogs. Disaster Med Public Health Prep. 2017;11(1):1520.CrossRefGoogle ScholarPubMed
Palmer, LE, Yee, A. TacMed updates: K9 tactical emergency casualty care direct threat care guidelines. J Spec Oper Med. 2017;17(2):174187.CrossRefGoogle ScholarPubMed
Hogan, CS, Nesbit, CE. Air medical transportation of injured operational canines. Air Med J. 2019;38(1):3638.CrossRefGoogle ScholarPubMed
Mitek, AE, McMichael, MA, Weir, WB, Smith, MJ, Schneider, DC. The Carle-Illinois (Urbana, Illinois USA) treatment protocol for law enforcement K9s: guidelines for Emergency Medical Services. Prehosp Disaster Med. 2019;34(4):428437.CrossRefGoogle ScholarPubMed
Weir, WB, Mitek, AE, Smith, M, Schneider, D, McMichael, MA. The Carle-Illinois (Urbana, Illinois USA) transport protocol for LEK9s: guidelines for Emergency Medical Service providers. Prehosp Disaster Med. 2019;34(4):422427.CrossRefGoogle ScholarPubMed
Edwards, TH, Scott, LLF, Gonyeau, KE, Howard, EH, Parker, JS, Hall, K. Comparison of trauma sustained by civilian dogs and deployed military working dogs. J Vet Emerg Crit Care (San Antonio). 2021;31(4):498507.CrossRefGoogle ScholarPubMed
Operational Canine, Palmer LE.. Vet Clin North Am Small Anim Pract. 2021;51(4):945960.Google Scholar
Vegas Comitre, MD, Palmer, L, Bacek, LM, Kuo, KW, Keys, D. Assessment of prehospital care in canine trauma patients presented to veterinary trauma centers: a VetCOT registry study. J Vet Emerg Crit Care (San Antonio). 2021;31(6):788794.CrossRefGoogle ScholarPubMed
National Association of Veterinary Emergency Medical Services (NAVEMS). navems.org. Accessed June 20, 2023.Google Scholar
American Veterinary Medicine Association (AVMA). avma.org. Accessed June 20, 2023.Google Scholar
National Association of State Emergency Medical Services Officials (NASEMSO). nasemso.org. Accessed June 20, 2023.Google Scholar
EMS Protocols. emsprotocols.org. Accessed June 20, 2023.Google Scholar
Iowa Legislature. Senate File 539 By Committee On Judiciary. https://www.legis.iowa.gov/legislation/BillBook?ga=90&ba=SF539. Accessed June 20, 2023.Google Scholar
Figure 0

Figure 1. United States Census Bureau Geographic Regions.Note: Adapted from https://www2.census.gov/geo/pdfs/maps-data/maps/reference/us_regdiv.pdf.

Figure 1

Table 1. Presence or Absence of Veterinary EMS (VEMS) Legislation or State-Wide Operational K9 (OpK9) Care Protocols

Figure 2

Figure 2. Veterinary EMS (VEMS) Operational K9 (OpK9) Care Legislation in Each State within the United States (n = 20).Abbreviations: VEMS, veterinary Emergency Medical Services; OpK9, operational canine.

Figure 3

Table 2. Veterinary EMS (VEMS) Operational K9 (OpK9) Legislation and Care Protocols by Region

Figure 4

Figure 3. States (n = 23) with Veterinary EMS (VEMS) Operational K9 (OpK9) Care Protocols or Guidelines.

Figure 5

Figure 4. States with Combinations of Veterinary EMS (VEMS) Operational K9 (OpK9) Laws and Care Protocols.

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