Viano David C, Parenteau Chantal S, Edwards Mark L
ProBiomechanics LLC, Bloomfield Hills, Michigan 48304-2952, USA.
Traffic Inj Prev. 2008 Mar;9(1):59-64. doi: 10.1080/15389580701737645.
The automotive safety community is questioning the impact of obesity on the performance and assessment of occupant protection systems. This study investigates fatality and serious injury risks for front-seat occupants by body mass index (BMI) using a matched-pair analysis. It also develops a simple model for the change in injury risk with obesity.
A simple model was developed for the change in injury risk with obesity. It included the normal mass (m) and stiffness (k) of the body resisting compression during a blunt impact. Stiffness is assumed constant as weight is gained (Delta m). For a given impact severity, the risk of injury was assumed proportional to compression. Energy balance was used to determine injury risks with increasing mass. NASS-CDS field data were analyzed for calendar years 1993-2004. Occupant injury was divided into normal (18.5 kg/m2 < or = BMI < 25.0 kg/m2) and obese (BMI > o= 30 kg/m2) categories. A matched-pair analysis was carried out. Driver and front-right passenger fatalities or serious injuries (MAIS 3+) were analyzed in the same crash to determine the effect of obesity. This also allowed the determination of the relative risk of younger (age < or = 55 years), older (age >55 years), male, and female drivers that were obese compared to normal BMI. The family of Hybrid III crash test dummies was evaluated for BMI and the amount of ballast was determined so they could represent an obese or morbidly obese occupant.
Based on the simple model, the relative injury risk (r) for an increase in body mass is given by: r = (1 + Delta m / m)(0.5). For a given stature, an obese occupant (BMI = 30-35 kg/m2) has 54-61% higher risk of injury than a normal BMI occupant (22 kg/m2). Matched pairs showed that obese drivers have a 97% higher risk of fatality and 17% higher risk of serious injury (MAIS 3+) than normal BMI drivers. Obese passengers have a 32% higher fatality risk and a 40% higher MAIS 3+ risk than normal passengers. Obese female drivers have a 119% higher MAIS 3+ risk than normal BMI female drivers and young obese drivers have a 20% higher serious injury risk than young normal drivers. This range of increased risk is consistent but broader than predicted by the simple injury model. The smallest crash test dummies need proportionately more ballast to represent an obese or morbidly obese occupant in the evaluation of safety systems. The 5% female Hybrid III has a BMI = 20.4 kg/m2 and needs 22 kg of ballast to represent an obese and 44.8 kg to represent a morbidly obese female, while the 95% male needs only 1.7 and 36.5 kg, respectively.
Obesity influences the risk of serious and fatal injury in motor vehicle crashes. The effect is greatest on obese female drivers and young drivers. Since some of the risk difference is related to lower seatbelt wearing rates, the comfort and use of seatbelt extenders should be examined to improve wearing rates. Also, crash testing with ballasted dummies to represent obese and morbidly obese occupants may lead to refined safety systems for this growing segment of the population.
汽车安全领域对肥胖对乘员保护系统性能及评估的影响提出了质疑。本研究采用配对分析,按体重指数(BMI)调查前排乘客的死亡及重伤风险。同时还建立了一个肥胖导致受伤风险变化的简单模型。
建立了一个肥胖导致受伤风险变化的简单模型。该模型包括钝性撞击过程中抵抗压缩的身体正常质量(m)和刚度(k)。假设随着体重增加(Δm)刚度保持不变。对于给定的撞击严重程度,假设受伤风险与压缩成正比。利用能量平衡来确定体重增加时的受伤风险。对1993 - 2004历年的国家汽车抽样系统 - 碰撞数据系统(NASS - CDS)现场数据进行了分析。将乘员损伤分为正常(18.5kg/m²≤BMI<25.0kg/m²)和肥胖(BMI≥30kg/m²)两类。进行了配对分析。对同一碰撞事故中的驾驶员和前排右侧乘客的死亡或重伤(简明损伤定级标准(MAIS)3级及以上)进行分析,以确定肥胖的影响。这也使得能够确定肥胖的年轻(年龄≤55岁)、年长(年龄>55岁)、男性和女性驾驶员相较于正常BMI驾驶员的相对风险。对混合III型碰撞试验假人家族进行了BMI评估,并确定了配重数量,以便它们能够代表肥胖或病态肥胖的乘员。
基于该简单模型,体重增加时的相对受伤风险(r)为:r = (1 + Δm / m)^(0.5)。对于给定身高,肥胖乘员(BMI = 30 - 35kg/m²)比正常BMI乘员(22kg/m²)的受伤风险高54 - 61%。配对分析表明,肥胖驾驶员的死亡风险比正常BMI驾驶员高97%,重伤(MAIS 3级及以上)风险高17%。肥胖乘客的死亡风险比正常乘客高32%,MAIS 3级及以上风险高40%。肥胖女性驾驶员的MAIS 3级及以上风险比正常BMI女性驾驶员高119%,年轻肥胖驾驶员的重伤风险比年轻正常驾驶员高20%。这种风险增加范围是一致的,但比简单损伤模型预测的范围更广。在安全系统评估中,最小的碰撞试验假人需要按比例增加更多配重才能代表肥胖或病态肥胖的乘员。5%女性混合III型假人的BMI = 20.4kg/m²,代表肥胖女性需要22kg配重,代表病态肥胖女性需要44.8kg配重,而95%男性分别仅需要1.7kg和36.5kg配重。
肥胖会影响机动车碰撞中严重及致命伤害的风险。对肥胖女性驾驶员和年轻驾驶员的影响最大。由于部分风险差异与较低的安全带佩戴率有关,应研究安全带延长器的舒适性及使用情况,以提高佩戴率。此外,使用配重假人进行碰撞测试以代表肥胖和病态肥胖的乘员,可能会为这一不断增长的人群改进安全系统。
