Traumatic Head Injuries in Moldova: a Cross-Sectional Analysis of Medical Registry Data

Citation


INTRODUCTION
Traumatic brain injuries (TBI) are a major cause of death and disability, with an overwhelming impact on the health of patients and their families worldwide.The World Health Organization estimates that almost 90% of the global deaths caused by injuries occur in low-and middle-income countries, and that around 10 million people are affected annually by traumatic brain injuries. [1,2]imultaneously, because TBI require long-term care, the WHO encourages the development and support of surveillance systems and research to measure the impact of TBI and develop effective preventive methods. [1,3]In Europe, traumatic brain injuries account for the majority of trauma. [1,4,5]Each year around 2.5 million people suffer a TBI, and 1 million are admitted to a hospital for medical care [6] , the most common causes being road traffic crashes and falls [4,7] .Injury prevention for the Republic of Moldova is one of the priority areas for public health surveillance.However, there are few data regarding TBI currently reported in the country. [8]

AIM
This study aimed to assess the demographics and crash profiles of road traffic-related traumatic brain injury (TBI) patients treated at two emergency departments (ED) in Moldova, and to identify areas for prevention.To date, no national injury-related data registry is available in the country, and this study is the first to hone in on specific injury topics for prevention using data from a pilot TBI registry.

Study setting
The study was carried out in the Republic of Moldova, which is divided administratively and geographically into 32 districts, 13 municipalities, and two recognized autonomous territorial units, each of which contains 60 cities and 1614 communes and villages.On January 1, 2019, the Republic of Moldova's stable population was 3.521 million people.As one of the countries with the lowest Gross Domestic Product (GDP) in Europe, Moldova has a relatively low investment in roadway infrastructure and safety.

Data and study design
A prospective study was performed using data from a pilot TBI registry which collected data from the two largest trauma hospitals in Moldova.The registry included the medical data of patients treated in the emergency departments from March 1 to August 31, 2019.Patients were identified using ICD10 codes within individual medical records.This pilot registry was the first in the country and was established as

Settings and population
The registry includes patients of all ages who were treated throughout the study period and whose ICD10 code indicated any kind of head injury.Road traffic injuries were identified through text in the medical record (as ICD external causes are not routinely recorded).According to the national clinical protocol, a traumatic brain injury represents all primary, secondary and late lesions of the scalp, skull and brain caused by a mechanically injured agent's direct or indirect action.The researchers did not interact with the patients directly; data were extracted from the pilot TBI registry.

Study variables
Distributions of transportation-related TBI cases were examined using the demographic, patient, and crash characteristics.Specific demographic and patient characteristics examined included segregated age groups (<18, 19-29, 30-49, 50-59, 60+), sex (male, female), employment status (unemployed, employed, student), alcohol screen (self-reported and driver's alcohol screen), seat belt use (yes, no, unknown).Crash characteristics examined included crash month, crash location (urban, rural), work-related (yes, no), place of injury occurrence (home and residential institution; school, sport, or recreation area; medical service area; transport area; industrial, farm, or construction area; commercial area).

Statistical analysis
The REDCap electronic data collection tool was used to upload the data and SPSS Statistics Base 20.0.0 was used for data analyses.Ethics committee approval was obtained from Nicolae Testemitanu State University of Medicine and Pharmacy, Republic of Moldova before the beginning of the study.
The majority of injuries occurred in urban areas (90.5%), and the majority of these reached the hospital by ambulance (97.3%).
The most common location of TBI occurrence as result of road traffic was in a transport area, such as a public highway, street, or road or other related areas (78.8%).Only 2.7% were reported as work-related injuries.Alcohol self-reported screening for medical or police requirements was reported in 61.9%, although alcohol screening was reported for 86.4% (this does not reflect the BAC level, as this data are not available in the patient medical re-cord).Assessing the type of transport and category of the road traffic participants (Fig. 1), TBIs were often acquired in motor vehicle and public transport categories (38.1%), followed by cyclists (11.5%) and motorcyclists (7.1%).Pedestrians comprised the highest proportion of transportation-related TBI with 42.5%, followed by occupants of passenger car with 33.6% and drivers, riders, and operators with 23.9% (Fig. 2).Pedestrian injuries were most common among children and the elderly and were two-thirds male.Almost half of TBIs among pedal cyclists were children, and 61% of TBIs among passenger car occupants were children.Males were more common among all types of transport that led to TBI (among drivers, riders, and operators (χ 2 =20.6; p=0.008), nearly four times as many were male (77.8%) compared to females).

Outcome of road traffic events with traumatic brain injury
Road traffic victims got different types of injuries (Table 2), the majority (98.2%) with soft tissue injury of the scalp, face, or neck (43.2% of them among pedestrians, following passengers with 32.4% and drivers with 24.3%).From the total, 79.6% of patients suffer fractures of the skull.Characterized with concussion were 92.04% (43.2% of them among pedestrians, followed by passengers with 25.0% and drivers with 32.7%).There were 79.6% cases with fractures of the skull, 61.1% cases with traumatic cerebral edema, and 45.1% cases with fractures of the facial bones.Of the total TBI road traffic-related cases, 96.5% had abnormal CT scan, 33.6% lost their consciousness (44.4% among drivers, 35.4% among pedestrians, and 23.7% among passengers), although 21.2% were suspected of losing consciousness.Consciousness alteration (alteration of consciousness is considering any measure of arousal other than normal: confusion, disorientation, delirium, poor balance, difficulty walking, lightheadedness, etc.) was confirmed for 17.7 % and 44.2% were suspected.Post-traumatic amnesia was diagnosed for 26.5% of patients, while 30.1% were suspected for post-traumatic amnesia.One percent of 4.4% were scheduled for surgery, although 34.5% were suspected for a surgery.After receiving proper medical care, 65.5% of the patients were sent home, 19.5% followed rehabilitation, and 14.2% lost their life (93.3% of whom were males).The main causes of deaths (15, 13.3%) were head injury/ secondary intracranial damage (46.7%), head injury/initial injury (40%) and systemic trauma (13.3%).

DISCUSSION
Our study highlights the complexity of road-related injuries and the burden of traumatic brains as an outcome, in the Republic of Moldova, due to the development of the pilot TBI register.Road traffic was responsible for nearly a third of all TBI patients in the registry.The results showed males, children and adults aged 30-49 years old had the most cases of TBI and pedestrians and vehicle occupants made up the largest proportions of cases by travel mode.The existing country crash database, the Automated Information System "State Road Accidents Register" of the Ministry of Internal Affairs has been used since 2014.Still, it has not been further enhanced and thus does not offer comparable data with the region countries.TBI-related data are complex to assess or even not available in middle-income countries, such as the Republic of Moldova. [9]In the Eastern Partner Countries and European Union -27 regions, Moldova has the 3rd highest road crash fatality rate (9.24 per 100,000 inhabitants), higher than that of the Eastern Partner Countries and European Union -27 average fatality rates by 10.4% and 54.5%, respectively. [10]aw enforcement and regulations are available in Moldova (speed limit, motorcycle helmet, child restraint, drink-driving, seat-belt, and mobile phones while driving).However, speed limits and drink-driving laws are only moderately enforced, and 12% of all road traffic deaths are recorded to involve alcohol. [10,11]However, the data from our study lead to non-compliance with these policies, for which traffic-related injuries reach high levels.
The current study shows that road traffic-related TBIs account for almost one-third of all TBI cases seeking medical care at trauma units.Despite the fact that our results showed a high rate of injuries in the second part of the day (2 pm-6 pm, 29.2%), a good amount of them required medical treatment between peak hours 2 pm-4 pm (16.8%), thus burdening the medical system.TBI's serious medical outcome was associated with road traffic-related injuries throughout the medical examinations, requiring further extended care rehabilitation.Access to specialized medical services in a shorter time results in less severe cases of TBI [12] , so it is important to understand health system burdens, predictors of delayed care over time, and how the health outcome and degree severity are linked to the patient's time of arrival at the ED.
Previous literature indicates that around 50 million people suffer from TBIs worldwide every year, of which over 80% are in developing countries. [7]Even while falls and car accidents are the most frequent causes of injury [12] , traumatic brain injuries are disproportionately more common in low-and middle-income nations, where TBI rates are three times greater than in high-income ones [5,13,14] .The results of our study confirm this, so that the first two major causes in TBI remains due to falls (53.5%), and road traffic-related (30.7%).
Considering the extent of the data obtained in comparison with the global statistical data, these specific injuries are preventable, the responsibility of the population, as well as the involvement of the state could directly contribute to lower accident rates, deaths, long recoveries and extra expenses.
A strong point of our study is that we were able to use data from a pilot TBI Registry to identify key TBI insights, such as the overall burden and distributions by socio-demographic crash characteristics.However, this study has some limitations.Included data was only from a limited time window and had limited data available within the registry, so it would be helpful for future studies to expand upon this work with additional years of data and more details on cases and their outcomes.In addition, we find low data availability in the patient medical records, variables that could bring more clarity to the TBI pattern among the study population, but this would be another strong argument for implementing a national injury registry.

CONCLUSIONS
This is the first study of road traffic-related TBIs conducted in the Republic of Moldova.Specific patient, demographic, and crash characteristics frequently associated with TBI as a result of road traffic crashes were identified.These findings can be used to target efforts to decrease the number of road traffic-related TBIs and to make progress towards reducing the incidence of road traffic-related TBIs among the population.The results allow us to draw some conclusions on the urgency of prevention strategies, by strengthening the multidisciplinary efforts in this area.This study provides a first look at the road traffic-related TBIs in the country and demonstrates the usefulness of understanding the magnitude and scope of a specific injury topic area.Creating a high-performance national TBI registry would allow the generation of more complex and detailed analyses to inform future road safety strategies and action plans.pretation.M.A.C. and C.P.A. contributed to the data interpretation and had finally revised and critically reviewed the article.All authors have critically revised the manuscript for important intellectual content and have given final approval of the version to be published.

Ключевые слова
водитель, пассажир автомобиля, черепно-мозговая травма, пешеход, пассажир part of the international project INITIatE (International Collaboration to increase Traumatic Brain Injury Surveillance in Europe), coordinated nationally by the Nicolae Testemitanu State University of Medicine and Pharmacy from the Republic of Moldova, and internationally by the College of Public Health, the University of Iowa and the Department of Public Health, Babeș-Bolyai University, Cluj-Napoca.

Figure 1 .
Figure 1.Frequency distribution of the head injuries by type of transport.

Figure 2 .
Figure 2. Frequency distribution of the head injuries by road traffic participants.

Table 1 .
Demographic characteristic of TBI patient's road traffic-related