HS and LE data generated different epidemiological profiles of road traffic injuries across the same population. For example, Gill et al found that the reduction in road traffic fatalities that had been identified through LE data in England was likely due to missing data and not a true decline. Hospital admission records for the same time period demonstrated a higher rate of injury that more closely matched previous years.⁹ In fact, all but one study¹⁰ found that when compared with HS records, LE records underestimated the incidence of road traffic injuries.

Differences in how, when and to whom a road traffic injury occurred changed the likelihood that it was captured in HS and/or LE records. Injuries associated with clinical presentations subject to legal statutes (eg, high blood alcohol levels) were most likely to appear in both HS and LE records.¹¹ Temporal factors like hospital length of stay, the month of the year or the day of week also changed the likelihood of record overlap. In a New Zealand study, for example, the month in which a crash took place predicted the likelihood that HS records would correspond to LE reports for the same injury.¹² Record capture was also shown to vary by the demographic characteristics (age, race and ethnicity) of the injured. In a study of paediatric RTC injuries in Long Beach California, injuries in younger children, Asian children and Hispanic children were more likely to be captured solely in HS records when compared with older children or White and African American children.¹³ Finally, by comparing HS and LE data, researchers identified that LE records tended to overestimate road traffic injury severity when compared with formal clinical evaluations in the hospital.¹¹¹⁴

The studies that compared HS data and LE data for violent injuries similarly identified important differences between the data captured by each source. Through a firearm injury database that combined ED, LE, Medical Examiner (ME) and emergency call system data in Atlanta, Georgia, researchers identified that all fatal gunshot injuries were known to LE. LE records, however, underestimated the rate of non-fatal gunshot injuries when compared with HS records.¹⁵ The demographic characteristics of those injured by violence also changed the likelihood of capture in HS or LE records. In one study, assaults in men were more likely to be exclusively recorded in HS records whereas assaults in women were more likely to be exclusively recorded in LE records.¹⁶

Researchers compensated for the relative ‘blind spots’ in HS and LE injury data by developing linked databases. In general, these linked databases offered more robust estimates of injury rates when compared with either HS or LE data alone. However, inconsistencies in the quality or availability of either HS or LE records were shown to limit the accuracy and reliability of linked data.^917–19

In the earliest published linkage evaluation, Rosman and Knuiman reported that 64% of Australian road traffic injury records could be linked using HS-LE data.¹⁴ The ability to link data was significantly lower for injuries of lesser severity and for motorcycle crash injuries (compared with four-wheel MVC injuries).²⁰ The type of HS has also been associated with the ability to link injury data. In one study, private hospitals had the lowest percentage of HS-LE record overlap (31%), followed by county hospitals (57%) and public metropolitan hospitals (62%). The highest percentage of linked records was found when comparing LE and teaching hospitals, where the most severe injuries were treated (72%).²⁰ Another study found that HS records were less likely to be linked to LE reports when only one vehicle was involved, hospital length of stay was shorter or when passengers were younger than 20 years of age.¹⁸

Methodological approaches for improving the yield of linked HS-LE data were also identified in studies in this review. Specifically, capture-recapture methods are described as a way to improve HS-LE injury surveillance. Capture-recapture is a method in which two independent samples (HS and LE) of injured individuals are used to estimate the true burden of injury across a specific geography. All studies that used this method noted its limitations when the completeness and independence of HS and LE records were unknown.^11132122 Other methodological evaluations addressed the relative sensitivity and specificity¹⁴ and influence of sample selection bias on the predictive value of HS and LE data for estimating of injury rates.²³

Two publications included in this review described how well HS and LE data identified select risk factors for injuries. Orsay et al found that despite being able to link over 70% of hospital admission records to LE records at a major trauma centre in Chicago, Illinois, LE had identified only 31.2% of injured motorists with blood alcohol concentrations above the legal limit and 15% of injured motorists with a positive drug screen.²⁴ In New South Wales, Australia, using linked HS and LE records, Brown and Bilson identified the increased risk of severe injuries to rear seat passengers when compared with front seat drivers and passengers.²⁵

The vast majority of articles (n=23) in this category focused on the Cardiff Violence Prevention Program (Cardiff Model). This programme has been adopted by the National Health System across the UK and replicated in other countries.²⁶ The Cardiff Model uses injury data collected in hospital EDs to enhance records of assaults to LE. Data from each source are shared and compared to generate hotspot maps that can be used by violence prevention working groups to build local policies and programmes to reduce violence and injuries.^27–30 Evaluation of this model has demonstrated that it reduces the rate of violence-related injury and is cost-effective.³¹³²

Other articles on HS-LE partnerships for violence control and prevention examined a single, unreplicated programme. The initiative ‘Operation Blade’ in Scotland was established to reduce knife-related assaults. This programme consisted of a media campaign, knife amnesty collections, stop and search campaigns, increased safety at public venues and educational outreach to knife retailers and secondary school students. Programme evaluation revealed that stabbings decreased for 10 months following Operation Blade, but returned to preintervention rates 1 year later.³³

All remaining publications on HS-LE partnerships for violence and violent injury control were descriptive and did not evaluate the injury prevention impact of partnerships efforts. The Harstad Injury Prevention Study conducted in Harstad and Trondheim, Norway outlined the development of an injury prevention working group with representation from a hospital and public and private organisations.³⁴ An article highlighting the Consortium of Law Enforcement and Private Security (CLEPS) in El Paso, Texas described how a hospital security team and LE formed a partnership through the development of enhanced reporting procedures, crime briefings and consortium bylaws.³⁵ Karchmer et al described a programme through which police chiefs reached out to public health organisations to address issues involving deaths and mass casualties so that LE-public health organisations (eg, hospitals, health departments) could work together to develop prevention plans.³⁶

Two articles describe the role of ED nurses in partnered HS-LE injury control initiatives. In the ‘Cops-Docs Handcuff-in-Glove’ programme, ED nurses facilitated comprehensive screening and data collection to assist forensic investigations for victims of violent assault.³⁷ Another coalition in New Hampshire in the US improved communication and safety of hospital staff through collaborative nurse-LE development of occupational safety policy to reduce hospital staff assaults.³⁸

Physician training programmes are also described as an opportunity to build HS-LE partnerships for injury control and prevention. Within the department of Emergency Medicine at the University of New Mexico, a medical resident used analysis of unintentional gunshot fatalities and their associated risk factors to inform the work of the New Mexico Zero Tolerance Team. This community action team which included HS, LE, medical and other stakeholders used a map of childhood firearm deaths to focus community resources on addressing youth firearm fatality prevention.³⁹ Doezema similarly described how a medical resident’s participation in a death review team for domestic violence-related homicide victims resulted in more complete case reports.⁴⁰

Finally, a handful of articles review the key components that authors discovered in the development of HS-LE partnerships. Petch outlines best practices identified during implementation of UK’s Safety Matters programme which brought together multiple agencies including the HS and LE to address violent injuries.⁴¹ In their experience, developing a multiagency programme required attention to: communication and information sharing, organisational cultures and the development of explicit roles and responsibilities. Additionally, Hunt and van der Arend conducted a small exploratory qualitative study in the UK and Netherlands that identified ethical considerations in HS-LE partnerships including information sharing and medical confidentiality/client consent, public safety and organisational accountability.⁴²

The published literature also included descriptions of HS-LE partnerships for road traffic injury control and prevention.^3943–46 In Pakistan, LE and physicians collaborated to create and implement a LE-led Emergency Medical Systems (EMS) programme called Rescue 15.⁴⁶ A different Pakistani programme, in the city of Karachi, established a partnership between hospitals, LE agencies, industry and media and developed a road traffic injury surveillance system and safety-focused road design.³⁹ In addition, HS-LE partnerships are described that expanded to include other stakeholder groups (eg, businesses, insurance providers)³⁹⁴³ in efforts to develop road traffic injury surveillance partnerships,⁴⁵ as well as to address injury risk factors like teen driving⁴⁴ and alcohol consumption.⁴⁵

Three studies described how coalitions centred around HS-LE partnerships can help prepare communities for coordinated emergency response.^47–49 Two studies explored the inclusion of a surgeon in emergency response teams: Metzger described the effectiveness of integrating a physician in an LE special operations team to provide immediate medical support⁵⁰ and Kaplan examined the cost-effectiveness of a tactical police surgeon (TPS) on a Special Weapons and Tactics (SWAT) team, concluding that TPS was a cost-effective for both LE and the hospital.⁵¹ A similar report examined feasibility and efficiency of tactical emergency medicine support (TEMS) integration within LE teams.⁵²

Research identified in this review also explored how new kinds of injury surveillance data can be integrated in HS-LE injury prevention efforts. In Hong Kong, geographic information system (GIS) data were used in conjunction with HS-LE data to identify ‘hot zones’ where there were hazardous road conditions that would benefit from low-cost remedial, and injury prevention, measures.⁵³ Schuch et al analysed school transport pathways and child injury data through GIS to better understand the environmental context in which risk for injury was highest.⁵⁴ In two Australian cities, a project targeted alcohol-related injuries reviewed HS-LE data, observation of alcohol-serving establishments and interview data from key community members to inform alcohol-related injury harm reduction interventions.⁵⁵ Finally, in another Australian study, evaluation of a pilot model to use ED data to enhance alcohol-related injury surveillance and cross-sector prevention programme integrated closed-circuit television data within the suite of data used to inform programme activities.⁵⁶