Injuries among children and adults in alpine skiing and snowboarding

To ski or not to ski? A meta-analysis of more than 750,000 upper extremity injuries comparing skiing and snowboarding

Background

Alpine skiing has seen advancements in equipment since the year 2000, with the appearance of ski carving. Its impact on upper extremity injuries has yet to be proven. We conducted a meta-analysis to determine the epidemiology of upper extremity injuries in alpine skiing and snowboarding, its chronological evolution in the last two decades, and the impact of carving.

Method

A systematic search in PubMed was conducted including studies from 1939 to 2024. The search strategy used text words and relevant indexing to identify articles discussing upper extremity injuries associated with those activities while providing statistical and epidemiological data.

Results

77 studies including a total of 764,423 patients were analysed. The most commonly injured upper extremity segments are the shoulder (37%) for skiing and the wrist (36%) for snowboarding. The main upper extremity dislocation is glenohumeral (36%) for skiing and the elbow (46%) for snowboarding. Hand injuries are significantly more prevalent while skiing, but the rest of the upper extremity injuries are significantly more prevalent with snowboarding.

Discussion

The time trends from the year 2000 and on have shown a significant increase in upper extremity injuries with ski carving. Snowboarding injury epidemiology has not significantly changed in this period.

The most cited publications on snowboarding-related head injuries, concussions, and injury distribution

OBJECTIVES

The purpose of this study was to identify the 50 most-cited publications relating to snowboarding and conduct a bibliometric analysis of the identified studies.

METHODS

Clarivate Analytics Web of Science database was queried to identify all publication titles, abstracts, and keywords related to snowboarding. The resulting articles were sorted by total number of citations. Titles and abstracts were included based on their relevance to snowboarding. Once the 50 most cited articles were identified, each article was further analyzed to obtain author name, publication year, country of origin, journal name, article type, research topic, competition level, total number of citations, and the level of evidence. Citation density (total number of citations/years since publication) was calculated and recorded for each of the most-cited studies.

RESULTS

The 50 most-cited articles were cited 4,123 times with an average of 82.5 citations per article. The most cited article was cited 212 times. The majority of articles came from 2 different countries, with the United States and Canada contributing 18 and 10 articles, respectively. The American Journal of Sports Medicine published the most articles (n = 11). The most studied topic was injury distribution (n = 25) followed by head injuries (n = 8). Recreational snowboarding was the most studied level of competition (n = 43).

CONCLUSIONS

The 50 most-cited articles related to snowboarding are predominantly cohort and review studies from the United States and Canada, focusing on recreational athletes. These articles primarily detail the total anatomic distribution of snowboard-related injuries, particularly head injuries and concussions.

Epidemiology of paediatric winter sports-related injuries in France: The WINTRAUMA-1 retrospective cohort study

AIM

To describe the epidemiology of injuries related to winter sports in patients younger than 15 years in France.

METHODS

We conducted a retrospective observational multicentre cohort study of patients younger than 15 years who were seen by mountain-community general practitioners for winter-sports injuries in 1999-2022.

RESULTS

Of the 108 619 patients (mean age, 11.4 ± 2.8 years), 76 724 (70.6%), 26 186 (24.1%) and 2132 (2.0%) were injured while skiing, snowboarding and sledding, respectively. Helmet use was noted in 50 164 (46.2%) patients and increased over time but remained low among sledders. A collision was the mechanism in 12.3% of patients overall and 32.1% of sledders. The most common injuries overall were wrist fractures (48.5%), head and trunk injuries (42.3%), and anterior cruciate ligament (ACL) tears (23.7%), with wrist fractures being more common in beginners (24.7%) and head/trunk injuries and ACL tears in advanced participants (18.3% and 2.6%, respectively). Only 3699 (3.4%) patients were admitted after the general-practitioner visit, notably for leg or ankle fractures (9.5%).

CONCLUSION

Winter sports-related injuries vary according to age, sex, skill level and sport. Admission rates are low but might be further decreased by better prevention. Protective measures should be tailored to each sport and individual.

In-vivo stress measurements in kitesurfing and wakeboarding: implications on load control and preventive approaches - an in-vivo field study

The trend sports kitesurfing and wakeboarding are increasingly gaining popularity. Tricks and high jumps - both in the air and over obstacles - are performed with increasing difficulty. Repeated high loads on the body, particularly when landing after a jump, can lead to overuse and acute injuries directly related to peak forces, particularly in the lower extremities.There is a lack of detailed analyses of these forces resulting from wakeboarding or kitesurfing, although such data would be relevant for the analysis of injury mechanisms and the subsequent development of prevention strategies. This study is the first of its kind in which the loads on the lower extremity during wakeboarding and kitesurfing were subjected to in-vivo measurements during various maneuvers.Six wakeboarders and 12 kitesurfers (6 with loop bindings and 6 with fixed bindings) were investigated (mean age 33.1 ± 9.9 years). Jump height, hang time, acceleration, and the maximum vertical ground reaction force of both feet during takeoff and landing were recorded by means of sensor insoles (Moticon, Germany) on the feet of the athletes and simultaneously by a height and acceleration sensor (PIQ Sport Intelligence) on the board. A statistical analysis was performed.The data showed that wakeboarders were exposed to higher loads than kitesurfers, with significant differences occurring only between wakeboarders and kitesurfers with loop bindings and between kitesurfers with loop bindings and fixed bindings. High mean forces occurred during the landing of wakeboarders (rear foot 24.24 N/kg ± 8.82; front foot 20.33 N/kg ± 5.05) compared to kitesurfers with loop bindings (rear foot 12.09 N/kg ± 5.6; front foot 12.23 N/kg ± 4.92) as well as partially in kitesurfers with fixed shoe bindings (front foot 13.61 N/kg ± 5.92). Forces during lift-off were comparable in the rear foot (wakeboarders, kitesurfers with fixed bindings, kitesurfers with loop bindings 14.17 ± 6.37 vs. 16.39 ± 4.99 vs. 14.72 ± 5.13 N/kg). Similarly, despite the higher average acceleration force of the wakeboarders (4.16 g ± 1.02), there was no statistically significant difference (p = 0.166) compared to the kitesurfers.The in-vivo forces acting on the lower extremities during wakeboarding and kitesurfing are high (highest absolute values of 3012 N and relative values of 31.71 N/Kg). In addition, fixed boot bindings allow for the generation of higher forces than strap bindings. The results of our study have important implications on load control and preventive approaches in these two sports.

High Incidence of Injuries Among Adolescent Elite Skiers-A 5-Year Cohort Study

Competitive skiing has gained increasing popularity among adolescent, yet it comes with injury risks. The aim was to determine injury incidence, type and time of injury, localization, and diagnosis, among adolescent competitive skiers (alpine, cross-country, ski-cross, mogul), and to compare between skiing discipline, sex, and high school year. All students (n = 190) enrolled in a ski high school from August 2013 to June 2018 were included. All injuries during the study period were prospectively registered by the physiotherapist at the high school. Demographic and injury data were registered. Absolute injury incidence (injuries/100 skiers) was calculated. In total, 166 (87%) skiers reported 502 injuries, which corresponds to an absolute injury incidence of 264.2 injuries/100 skiers during the 5-year follow-up. A higher injury incidence was shown in school year 1 compared with year 2-4 (131.3 vs. 79.5-98.4; p < 0.05). No differences in injury incidence were found between sex or skiing discipline. Females were more prone of having a gradual-onset injury compared with males (179.3 vs. 96.3; p < 0.001). Mogul skiers had higher incidence of acute injuries compared with the other disciplines (220.0 vs. 71.4-160.0; p < 0.001). The knee was the most common localization across all skiing disciplines, except for cross-country (lower leg). Low back pain was the predominant diagnosis, except in ski-cross (concussion). Skiers attending specialized ski high schools exhibited a significantly high injury incidence, with first-year students being the most susceptible to injuries, across all skiing disciplines and both sexes. While the knee was the most common injury location, concussion was remarkably frequent, particularly among ski-cross skiers.

Fracture distribution in alpine skiing - a national population based study of 7,110 fractures in adults and children from the Swedish fracture register

BACKGROUND

Alpine skiing is practiced with speed and forces which entails a risk of injury and fractures. Most studies focus on all injuries in the musculoskeletal system and fractures are only described briefly or lack comparison between children and adults. This study focuses on the national trends of skiing-related fractures in children and adults, detailing fracture localization characteristics and initial treatments.

METHODS

This is a population-based national cohort study using data from the Swedish Fracture Register. The study population includes children and adults with a fracture sustained by alpine skiing between January 2015 and April 2022. Variables of interest were age, sex, localization of the fracture and segment, the number of fractures per patient, injury date, open or closed fracture, energy level, and primary treatment.

RESULTS

In total 7,110 fractures were registered in 6,806 patients. 48.6 % of the fractures were in children The women had a statistically significant higher median age at fracture to men. In children, it was contrary with a statistically lower median age in girls compared to boys. Children most commonly fractured the tibia (48.4 %), the radius (22.2 %), and the hand (7.8 %). The most fractured segment in children was the tibial shaft (38.5 %). Adults most often fractured the tibia (27.6 %), the radius (13.9 %), and the humerus (13.6 %) and had the proximal tibia as the most fractured segment (18.8 %). 82 % (2724) of fractures in children were treated non-surgically. In adults, 54 % (1850) were treated non-surgically.

CONCLUSION

Tibia fractures were predominant, with children frequently experiencing shaft fractures and adults proximal tibia fractures. Younger, lighter children skiing at a slower speed would benefit from improved ski bindings for fracture prevention. Tailoring ski equipment to an individual's age and sex is crucial for enhancing preventive strategies.

Skiing Injuries in the US Pediatric Population: An Analysis of National Injury Trends and Mechanisms Between 2012 and 2022

Background

While prevention protocols have been implemented, skiing-related musculoskeletal injuries and concussions continue to present to emergency departments in the United States. Previous literature has suggested the pediatric population may constitute up to 40% of skiing-related injuries.

Purpose

To assess injury trends and the underlying mechanisms of skiing injuries in pediatric patients seen at emergency departments in the United States.

Study Design

Descriptive epidemiology study.

Methods

The National Electronic Injury Surveillance System (NEISS) was queried for pediatric (age ≤18 years) skiing injuries between January 1, 2012, and December 31, 2022. Injury mechanism, location, disposition, and diagnosis were recorded, and the statistical sample weight assigned by NEISS by hospital was used to calculate national estimates (NEs). Injury trends were evaluated with linear regression analysis.

Results

Overall, 2951 pediatric skiing injuries were included (NE = 123,386). The mean age of the patients was 12.4 ± 3.5 years, with 61.3% of the injuries occurring in male patients. Impact with the ground was the most common injury mechanism (NE = 87,407; 70.8%). Fractures were the most common diagnosis (NE = 38,527, 31.2%), followed by strains/sprains (NE = 22,562, 18.3%), contusions/abrasions (NE = 16,257, 13.2%), and concussions (NE = 12,449, 10.1%). The lower leg was the most common fracture site (NE = 9509, 24.7%), followed by the shoulder (NE = 7131, 18.5%) and lower arm (NE = 5876, 15.3%). Analysis of annual injuries revealed no significant trend between 2012 and 2022 (P = .17), with fluctuations apparent throughout the study period. Significant decreases were seen in strains/sprains (P < .01) and contusions/abrasions (P < .01), but not in concussions (P = .57) or fractures (P = .70).

Conclusion

Impacts with the snow/ground made up 70.8% of all injuries. Fractures were the most common injury diagnosis, followed by strains/sprains, with the lower leg being most frequently fractured. While strains/sprains and contusions/abrasions showed a significant decline, there were no significant trends in fractures and concussions between 2012 and 2022.

An Epidemiologic Comparison of Injuries to Skiers and Snowboarders Treated at United States Emergency Departments, 2000-2019

Skiing and snowboarding are popular competitive and recreational sports that can be associated with significant injury. Previous studies of skiing and snowboarding injuries have been conducted, but studies evaluating injury types and patterns over long periods of time are needed to drive effective injury prevention efforts. We hypothesized that injury patterns would differ among snowboarders and skiers and that the number of injuries remained constant over time. This is a retrospective study of patients presenting with skiing or snowboarding injuries to the United States emergency departments from 2000 to 2019. A total of 34,720 injured skiers (48.0%) and snowboarders (52.0%) presented to US emergency departments over a 20-year period, representing an estimated 1,620,576 injuries nationwide. There is a decreasing trend of the number of injuries over the study period (p=0.012). Males represented the majority (65.7%) of injuries. Skiers were older than snowboarders (mean 30.1 vs. 20.0 years; p<0.001) and patients aged<18 represented more snowboarding (57.0%) than skiing (43.0%) injuries (p<0.001). Common diagnoses included fractures (33.0%) and sprains/strains (26.9%). Snowboarders primarily presented with upper extremity injuries, meanwhile, skiers primarily presented with lower extremity injuries. Most patients (93.2%), were treated and discharged from the emergency departments. Understanding the epidemiology of injuries presenting to emergency departments can help guide prehospital care and medical coverage allocation for resorts and event organizers, as well as identifying areas for targeted injury prevention efforts.

Terrain park injuries and risk factors in western Canadian resorts, 2008-2009 to 2017-2018: insights for risk management

Terrain parks (TP) are popular attractors to snowsport resorts for both skiers and snowboarders, however there is some concern about the risk of severe injury. TP risk management needs to balance the business case against the human cost of injury. To inform effective TP risk management strategies, it essential to understand risk factors, and injury frequency and severity. To this end, a retrospective inductive analysis of Canada West Ski Areas Association's Accident Analyzer database (2008-2009 to 2017-2018). Inclusion criteria., (i) at least 8 seasons of matching injury and participation data, (ii) minimum of 10 TP injuries p.a., (iii) activity either skiing or snowboarding, and (iv) injury location was coded as terrain park/rail. Data was excluded for ticket type N/A. Anonymised and deidentified secondary data was entered into SPSS for analysis. Between group differences were explored via χ2 analysis with Yates' Continuity Correction for 2 × 2 tables and an inductive data driven approach to explore other factors. From this data, 12,602 injuries were in TPs across 28 resorts. 11,940 (94.7%) met the inclusion criteria (14.2% female; 86.5% <25 years; 73.0% snowboarders. 50.8% were male snowboarders <25 years). Higher levels of helmet use were not correlated with a decline in reported head injuries. Day-ticket holders were more likely to be injured on their first two uses of a run than season pass holders. More snowboarders injured in TPs (59.7%) went to hospital than skiers (51.0%). Thus, participants injured in TP are typically younger, male, and snowboarders with either a Season Pass or day ticket, thus potentially a distinct target group for injury mitigation and prevention strategies and communications. The application of other frameworks such as the hierarchy of control and socioecological framework reflects the complex multifactorial systems in which snowsports occur and from which more targeted risk management strategies may emerge to mitigate injury risk while maintaining TP appeal.

Incidence of alpine skiing and snowboarding injuries

BACKGROUND

The incidence of injuries on alpine ski slopes have been assessed using various methods. A decline in injury rate has been observed throughout the literature; however, the actual incidence remains unclear. The purpose of this study was therefore to evaluate the incidence of skiing and snowboarding injuries using large-sample data from an entire geographic state.

METHODS

Data on alpine injuries over the course of five winter seasons between 2017 and 2022 were prospectively collected from the emergency service dispatch center of Tyrol (Austria). The incidence of injuries was assessed in relation to the number of skier days, which was obtained from the chamber of commerce.

RESULTS

A total of 43,283 cases were identified, and a total of 98.1 Mio skier days were registered during the inclusion period of our study, resulting in an overall incidence of 0.44 injuries per 1,000 skier days. This is significantly less than reported from previous studies. From 2017/18 to 2021/22 there was a slight increase in injuries per 1000 skier days with an exception only for the COVID-19 related season 2020/21.

CONCLUSION

Our study showed a significant reduction in the incidence of alpine skiing and snowboarding injuries in comparison with previous studies and should be considered a benchmark for future studies. Long-term studies on the efficacy of safety gear, as well as the influence of ski patrol and air-borne rescues on patient outcome are warranted.

Muscular Fatigue and Quadriceps-to-Hamstring Ratio in Alpine Skiing in Women over 40 Years

(1) Background: In alpine skiing, senior athletes and especially women have a high risk of knee injury. This may also be related to muscular fatigue (MF) of the knee-stabilizing thigh muscles. This study investigates both the evolution of muscle activity (MA) and of MF of the thighs throughout an entire skiing day. (2) Methods: n = 38 female recreational skiers over 40 years of age performed four specific skiing tasks (plough turns, V-steps uphill, turns with short, and middle radii) at specific times, while freely skiing the rest of the day. Surface EMG of the thigh muscle groups (quadriceps and hamstrings) was measured using special wearables (EMG pants). Apart from standard muscle activity parameters, the EMG data were also processed in the frequency domain to calculate the mean frequency and its shift over the day as a metric of muscle fatigue. (3) Results: The EMG pants showed reliable signal quality over the entire day, with BMI not impacting this. MF increased during skiing before and for both muscle groups significantly (p < 0.006) during lunch. MF, however, was not reflected in the quadriceps-hamstrings ratio. The plough manoeuvre seems to require significantly (p < 0.003) more muscle dynamics than the three other tasks. (4) Conclusion: MF may be quantified over an entire skiing day and thus fatigue information could be given to the skier. This is of major importance for skiers at the beginner level dominantly performing plough turns. Crucial for all skiers: There is no regenerative effect of a 45-min lunch break.

Influence of Alpine Skiing on Health-Related Quality of Life and Physical Self-Concept in Physically Active Adults over 55 Years of Age

Background: Older adults have the highest rates of a sedentary lifestyle. Alpine skiing could be considered a suitable activity to encourage continued sports practice and improve the health of this population in winter. The aim of this study was to analyse the relationship between the practice of alpine skiing and health-related quality of life (HRQoL), physical self-concept (PSC), and sport motivation. Methods: The study design was cross-sectional and descriptive, involving 280 Spanish adults aged over 55 years and physically active (75.35% skiers). To assess physical activity, PSC, HRQoL, and sport motivation, we used the Rapid Assessment of Physical Activity Questionnaire (RAPA-Q), the Physical Self-Perception Profile (PSPP 30), the Health-Related Quality of Life (SF-36), and the Sport Motivation Scale (SMS) questionnaires, respectively. Results: In the skier’s group, higher values were found for PSC (p < 0.001; d = 0.64), the physical component of HRQoL (p < 0.001, d = 0.48), physical function (p < 0.001, d = 61), and intrinsic motivation (p < 0.001; d = 0.85). The practice of alpine skiing was associated with higher levels of the physical health component (ORadj = 2.13, 95% CI 1.18−3.95, p = 0.013), PSC (ORadj = 2.92, 95% CI 1.58−5.52, p < 0.001), and intrinsic motivation (ORadj = 2.24, 95% CI 1.22−4.23, p = 0.010). Conclusions: The practice of alpine skiing is positively associated with higher values of HRQoL, PSC, and intrinsic motivation, and based on the above, it seems that alpine skiing can contribute to healthy ageing and improve the quality of life of older adults.

Emergency Service Assistance for Injuries on Alpine Ski Slopes: A Cross-Sectional Study

OBJECTIVES

Injuries on alpine ski slopes have been described in cohorts of a reasonable sample size, but constant improvements in safety gear, increased use of airborne rescue, and safety measures during the coronavirus disease 2019 (COVID-19) pandemic mandate re-evaluation. Therefore, the purpose of this study was to evaluate skiing and snowboarding injuries, effectiveness of airborne rescue, and impact of the COVID-19 pandemic on a large sample size.

METHODS

Data on alpine injuries were prospectively collected from the state emergency services dispatch center in the state of Tyrol (Austria). A total of 10,143 patients were identified, with an average age of 33.5 years (SD = 20.36). The ski patrol was involved in 8,606 cases (84.9%) and some patients (n = 1,536; 15.1%) required helicopter rescue.

RESULTS

A total of 10,143 patients were identified from the dataset of the emergency dispatch center. The most frequently injured region was the knee (30.2%), and it was followed by the shoulder (12.9%), the lower leg (9.5%), and the head/skull (9.5%).

CONCLUSION

The present findings indicate that the most frequent site of injuries on alpine slopes is the knee, and life-threatening injuries are rare. Airborne rescue is very time-effective, however clinical studies with patient follow-up should be emphasized to determine the impact of airborne rescue on patient outcome. The present findings indicate that the duration of all rescue operations has been prolonged as a result of the introduction of safety measures during the COVID-19 pandemic.

A Comparison of ACL Injury Risk, Ski Geometry and Standing Height Parameters between Skiers with Rented and with Owned Skis

to evaluate if ACL injuries are associated with recreational skiers using rented skis and whether individual factors, ski geometry parameters and standing heights differ between skiers who rented or owned skis. A retrospective questionnaire-based, case-control study of ACL-injured and uninjured recreational skiers was conducted during six winter seasons. Age, sex, body height, body weight, nationality, ownership of skis, skill level, risk-taking behavior, ski length, side-cut radius, widths of the tip, waist, and tail, and the standing heights at the front and rear components of the ski binding were assessed. Additionally, ratios between ski widths and a standing height ratio were calculated. Altogether, 1780 skiers (48.9% females) with a mean age of 39.2 ± 13.0 years participated, of whom 22.0% sustained an ACL injury and 32.3% rented skis. ACL injury risk was significantly associated with rented skis (OR 3.2, 95% CI 2.5-4.0). Compared to skiers using own skis, participants who rented skis were more likely female, smaller and lighter, tourists, less skilled and more cautious. In comparison to owned skis, rented skis showed significantly lower mean values in ski length, side-cut radius, ski widths, and for the three ski widths ratios. Additionally, standing heights were significantly lower while standing height ratio was higher for rented skis. Beside individual factors, equipment-related factors should be considered when renting skis in order to reduce ACL injury risk.

Relationship between Lower Extremity Fitness Levels and Injury Risk among Recreational Alpine Skiers: A Prospective Cohort Study

Background: Although the importance of physical fitness for injury prevention is recognized in sports medicine and rehabilitation, few studies have investigated this factor among recreational alpine skiers. Objective: To determine the effect of lower extremity fitness on the risk and severity of injury among recreational alpine skiers. Method: This prospective cohort study involved 117 recreational skiers at two alpine resorts during the 2021−2022 winter season. Anthropometric characteristics, skiing skills, and lower extremity agility (hexagon test), balance (Y-Balance Test), and endurance (60-s squat test) were assessed before the winter season. All of the participants were divided into an injured group and an uninjured group, based on whether an injury was recorded throughout the season. Results: In binary logistic regression, the hexagon test duration and composite Y-Balance Test score were significant injury risk factors (p < 0.05). Ordinal polytomous logistic regression revealed no significant factors for injury severity (p > 0.05). Conclusions: Recreational alpine skiers with inferior lower extremity agility or balance may have a higher injury risk and this must be considered when assessing individual risk. In the context of injury prevention, regular neuromuscular training and testing, including agility and balance aspects should be recommended to skiers.

Pelvic ring injuries after alpine ski and snowboard accidents

PURPOSE

The purpose of this study was to analyze the patient/injury characteristics and associated hospital course of patients sustaining traumatic pelvic ring injuries after alpine ski and snowboard accidents at a level one trauma center in the Rocky Mountain region.

METHODS

Patient/injury characteristics were obtained from patients presenting with pelvic ring injuries after alpine ski (n = 55) and snowboard (n = 9) accidents. Characteristics and outcomes analyzed included mechanism of injury, pelvic ring classification (Young-Burgess and Tile), hospital admission, physical therapy (PT) clearance, ambulation, length of stay, inpatient morphine milligram equivalents (MME), and discharges to rehabilitation facility.

RESULTS

Snowboarders were more often younger, male, tobacco/substance users, and more likely to be injured by a fall from height than skiers. There were no differences in injury classification or hospital course outcomes between alpine sports. Most common injuries included lateral compression type 1 (LC1) injuries (37.5%), isolated pubic ramus fractures (31.3%), and isolated iliac wing fractures (15.6%). LC1 injuries were unstable in 50% of cases and associated with increased admissions (proportional difference: 47.5%, CI: 23.8-64.5%, p = 0.0002), longer time to PT clearance (median difference(MD): 1.0 day, CI: 0-2.0, p = 0.03), longer LOS (MD: 2.0, CI: 0-2.0, p = 0.02), and increased inpatient MMEs (MD: 197.9 MME, CI: 30.0-420.0, p = 0.02), as compared to other pelvic ring injuries.

CONCLUSION

The majority of pelvic ring injuries from alpine ski and snowboard accidents were LC1 injuries, half of which were unstable, resulting in longer hospital stays, time to PT clearance/ambulation, and opioid use.

Protections in the Recreational Practice of Ski and Snowboard-An Age and Gender Discussion? A Case Study in Spain

The objective of this research was to evaluate the protections taken by ski and snowboard recreational athletes of the winter stations Sierra Nevada and Alto Campoo (Spain), regarding gender, age, and practiced sport. A total of 520 users participated, Sierra Nevada (n = 306 (58.8%)); Alto Campoo (n = 214 (42.2%)), 257 of them were men (49.4%) and 263 (50.6%) were women, from 6 to 64 years old, classified by 4 stages of development (Childhood (n = 106 (20.4%)); Teenagers (n = 110 (21.2%)); Youth (n = 101 (19.4%)); Adults (n = 203 (39.0%))). For the data collection, an Ad Hoc questionnaire was used (Socio-demographic data, use/no use of protection). The data revealed that 23.5% of the participants did not use any protection. Regarding the development stage, 1% of the children did not use any protection, neither did 3.1% of the teenagers, 6.7% of the youth, or 12.7% of the adults (p < 0.001). Regarding gender, a total of 17.1% of men did not use protection, and regarding women, 6.3% of them did not use it (p < 0.001). In relation to the practiced sport, 15.8% of the skiers did not use it against 7.7% of the snowboarders (p = 0.006). The use of protection for the practice in winter sports is not enough to reduce the injury risk in these sports and, in the worst cases, fatal accidents.

Injury trends in alpine skiing and a snowboarding over the decade 2008-09 to 2017-18

OBJECTIVES

This research explores snowsport injury trends in western Canadian resorts over the decade 2008-2018.

DESIGN

Ecological study.

METHODS

Injury and participation data on alpine skiing and snowboarding was provided by the Canada West Ski Areas Association for 2008-2018. Inclusion criteria were met by 29 of 52 resorts, resulting in the analysis of 107,540 injury reports via SPSS 24, using descriptive statistics and chi-squared analysis.

RESULTS

Over the decade: there was a gradual decline in the injury rate, averaging 2.24 injuries per 1000 skier days. Male snowboarders accounted for 1/3 of all injured participants, females were 42% of all. Day-ticket holders were the most injured of all customer-types, with most injuries occurring as the result of falls on marked, green/easiest terrain. For skiers, injuries to lower limbs, and especially knees, were most common. For snowboarders, upper limb injuries, especially wrists, were most common. 12.8% of the injured population required emergency transport. Advanced slopes/terrain had the highest proportion requiring emergency transport. Fewer skiers experienced head injuries than snowboarders. Snowboarders experienced a higher proportion of serious injuries.

CONCLUSIONS

Snowsport injuries are relatively rare when compared to other sports. Skiers were most prone to knee injuries and snowboarders to wrist injuries. Emergency transport was proportionally needed more from advanced slopes/terrain. Further research is needed into why and how participants make decisions around risk. Future injury prevention strategies should be evaluated in light of potential risk factors such as, social determinants of injury, fall mechanisms, changing participation patterns, age, snowsport discipline, and legal cannabis use.

Stretchable piezoresistive vs. capacitive silicon sensors integrated into ski base layer pants for measuring the knee flexion angle

The knee is the most often injured body part in alpine skiing. The loads on different structures of the knee, and thus the risk of injury, is influenced by the flexion angle of the knee joint. A mechatronic ski binding continuously supplied with information about the knee joint’s flexion angle could adjust its release settings to react to the situation appropriately. In this study, a silicon-based piezoresistive sensor fibre and capacitive silicon sensor were compared with respect to their ability to measure the knee flexion angle. Each sensor type was incorporated in base layer compression pants. These sensor-underwear-systems were validated using a flexion test rig and in a human subject test (n = 20). The pants with capacitive sensors performed better, as they were more accurate (e.g. mean error 3.4° ± 5.1° of the capacitive sensor vs. 10.6° ± 7.5° of the resistive sensor in the human subject test) and had fewer hysteresis effects. Flexible sensors integrated into compression underwear can provide valuable data of the knee angles for performance measurements in sports or safety systems, and thus may help to reduce knee injuries.

Knee injury prevention in alpine skiing. A technological paradigm shift towards a mechatronic ski binding

BACKGROUND

Skiing can be beneficial for the sense of delight and wellbeing. Nonetheless, the risk of injury should not be ignored. The traditional ski binding, working solely on a mechanical principle, performs well with regards to a prevention of mid-shaft tibia fracture. However, with respect to knee injuries, it is not able to provide protection. Future concepts, such as mechatronic binding designs have the potential to decrease knee injuries that traditional bindings cannot prevent. In addition to mechanical loads, this kind of binding design uses additional parameters, e.g. knee kinematics and the skier's muscle state, to control the binding release.

METHODS

This paper provides a review about our knowledge of injury mechanisms in recreational alpine skiing and previous work regarding mechatronic ski binding concepts. Also, our own biomechanical approach towards a mechatronic ski binding is described. Four input variables for an algorithm are discussed with respect to existing sensor solutions and designs of our own. A concept for an algorithm, based on our current knowledge in injury mechanisms is presented.

CONCLUSIONS

Though first designs were described in the 80s, for decades the idea of a mechatronic ski binding was not further pursued by research. Technological improvements in the field of micro-electronics and wearable sensors, as well as decreasing costs of these devices, make a mechatronic concept feasible. Main challenge is still the missing knowledge about injury mechanisms in alpine skiing and hence the quantification of the influence of possible input variables for the mechatronic system on those injuries.

Gender Differences in Postural Stability among 13-Year-Old Alpine Skiers

This experiment examined changes in body sway after Wingate test (WAnT) in 19 adolescents practicing alpine skiing, subjected to the same type of training load for 4–5 years (10 girls and nine boys). The postural examinations were performed with eyes open (EO), eyes closed (EC), and sway reverenced vision (SRV) in the medial-lateral (ML) and anterior-posterior (AP) planes. The displacement of center of foot pressure (CoP), range of sway (RS), mean sway velocity (MV), way length, and surface area were measured in bipedal upright stance before and after the WAnT to assess the influence of fatigue on postural balance. There were no significant differences in WAnT parameters between girls and boys. Relative peak power (RPP), relative total work (RWtot) were (girls vs. boys) 8.89 ± 0.70 vs. 9.57 ± 1.22 W/kg, p < 0.05 and 227.91 ± 14.98 vs. 243.22 ± 30.24 W/kg, p < 0.05 respectively. The fatigue index (FI) was also on similar level in both genders; however, blood lactate concentration (BLa) was significantly higher in boys (10.35 ± 1.16 mM) than in girls (8.67 ± 1.35 mM) p = 0.007. In the EO examination, statistically significant differences between resting and fatigue conditions in the whole group and after the division into girls and boys were found. In fatigue conditions, significant gender differences were noted for measurements in the ML plane (sway path and RS) and RS in the AP plane. Comparison of the three conditions shows differences between EO vs. EC and SRV in AP plane measured parameters, and for RS in ML plane in rest condition in girls. The strong correlations between FI and CoP parameters mainly in ML plane in the whole group for all examination conditions were noted. By genders, mainly RS in ML plane strongly correlates with FI (r > 0.7). No correlation was found between BLa and CoP parameters (p > 0.06). The presented results indicate that subjecting adolescents of both genders to the same training may reduce gender differences in the postural balance ability at rest but not in fatigue conditions and that girls are significantly superior in postural balance in the ML plane than boys. It was also shown that too little or too much information may be destructive to postural balance in young adolescents.

Head injury and helmet usage trends for alpine skiers and snowboarders in western Canada during the decade 2008-9 to 2017-18

OBJECTIVES

This research explores snowsport head injury trends in western Canadian resorts over the decade 2008-2018.

DESIGN

Ecological study.

METHODS

Head-injury and participation data on alpine skiing and snowboarding (snowsports) was provided by the Canada West Ski Areas Association (CWSAA) for 2008-2018. Injury reports from the ski patrol of 52 western Canadian resorts were analysed. 29 resorts were included where there was both injury and participation data for at least 8 out of 10 seasons, resulting in analysis of 10,371 reports. Data was imported into SPSS 24 for analysis using descriptive statistics, chi-squared analysis, odds ratios and linear regression.

RESULTS

Over the decade: the head injury rate was 0.205 injuries per thousand skier days. Head injuries were 9-10% of all injuries, significantly lower for skiers (8.3%) than snowboarders (10.9%). There were no significant differences in helmet-usage rates of injured and non-injured populations. 80.6% of injured participants wore a helmet, those wearing a helmet were 8% more likely to report a head injury than those not wearing a helmet. There was little variation in the proportion of head injuries reported as concussion, but a 50% reduction in ambulance or helicopter transport, a head-injury severity proxy. There was a significant relationship between the proportion of snowsport participants who were snowboarders and the head-injury rate.

CONCLUSIONS

Head injuries remain a rare event. There has been a decline in the severity of reported head injuries which may be a function of a decline in the proportion of snowboarders in snowsports.

Leg Dominance as a Risk Factor for Lower-Limb Injuries in Downhill Skiers-A Pilot Study into Possible Mechanisms

Leg dominance has been reported as one potential risk factor for lower-limb injuries in recreational downhill skiers. The current study proposed and tested two possible mechanisms for a leg dominance effect on skiing injuries-imbalance of the knee muscle strength and bilateral asymmetry in sensorimotor control. We hypothesized that the knee muscle strength (Hypothesis 1; H1) or postural control (Hypothesis 2; H2) would be affected by leg dominance. Fifteen well-experienced recreational downhill skiers (aged 24.3 ± 3.2 years) participated in this study. Isometric knee flexor/extensor muscle strength was tested using a dynamometer. Postural control was explored by using a kinematic principal component analysis (PCA) to determine the coordination structure and control of three-dimensional unipedal balancing movements while wearing ski equipment on firm and soft standing surfaces. Only H2 was supported when balancing on the firm surface, revealing that when shifting body weight over the nondominant leg, skiers significantly changed the coordination structure (p < 0.006) and the control (p < 0.004) of the lifted-leg movements. Based on the current findings, bilateral asymmetry in sensorimotor control rather than asymmetry in strength seems a more likely mechanism for the previously reported effect of leg dominance on lower-limb injury risk in recreational downhill skiers.

Are Risk-Taking and Ski Helmet Use Associated with an ACL Injury in Recreational Alpine Skiing?

According to the risk compensation hypothesis, the use of a ski helmet might provide a false sense of security, resulting in a riskier behavior by skiing faster or more aggressively, which might lead to an increased injury risk. Injury of the anterior cruciate ligament (ACL) is a common diagnosis in downhill skiers. Thus, the aim of the study was to evaluate the potential impact of risk-taking and ski helmet use on ACL injury risk in recreational skiing. Eighty-two ACL injured and 446 uninjured skiers with a mean age of 37.3 ± 11.9 years (52% females) were surveyed during the winter season 2018/19 about age, sex, self-reported risk-taking behavior, self-reported skill level, perceived speed, and ski helmet use. Multiple regression analysis revealed that older age (OR: 1.3, 95% CI: 1.2–1.4), riskier behavior (OR: 5.4, 95% CI: 2.8–10.5), and lower skill level (OR: 6.7, 95% CI: 3.4–13.3) were found to be factors associated with ACL injury, while ski helmet use was not. In conclusion, no support for the risk compensation hypothesis was found with regard to ACL injuries. Therefore, we doubt that ski helmet use increases the risk for ACL injury and recommend wearing a ski helmet due to reported protective effects.