ARLINGTON, Va. --- The designs of seats and head restraints in 21 current SUV, pickup and minivan models are rated good for protecting people in rear impacts. But those in 54 other models, however, are rated marginal or poor, according to the Insurance Institute for Highway Safety. Another 12 are rated acceptable.
The latest evaluations of occupant protection in rear-end collisions by the Insurance Institute for Highway Safety found that the seat/head restraints in more than half of light truck and minivan models fall short of state-of-the-art protection from neck injury or whiplash.
The ratings of "good," "acceptable," "marginal," or "poor" for 87 current models are based on geometric measurements of head restraints and simulated crashes that together assess how well people of different sizes would be protected in a typical rear crash.
Among the best performers are the seat/head restraint combinations in SUVs made by Subaru and Volvo and new designs from Acura, Ford, Honda and Hyundai. Seat/head restraints in three minivan models from Hyundai and Ford earn good ratings. The redesigned Toyota Tundra is the only pickup model evaluated with seat/head restraints rated good for rear crash protection.
"In stop-and-go commuter traffic, you're more likely to get in a rear-end collision than any other crash type," said David Zuby, senior vice president of the Institute's Vehicle Research Center. "It's not a major feat of engineering to design seats and head restraints that afford good protection in these common crashes."
Rear-end collisions are frequent, and neck injuries are the most common injuries reported in auto crashes. They account for 2 million insurance claims each year, costing at least $8.5 billion. Such injuries aren't life-threatening, but they can be painful and debilitating.
When a vehicle is struck in the rear and driven forward, its seats accelerate occupants' torsos forward. Unsupported, an occupant's head will lag behind this forward torso movement, and the differential motion causes the neck to bend and stretch. The higher the torso acceleration, the more sudden the motion, the higher the forces on the neck, and the more likely a neck injury is to occur.
The key to reducing whiplash injury risk is to keep the head and torso moving together. To accomplish this, the geometry of a head restraint has to be adequate --— high enough to be near the back of the head. Then the seat structure and stiffness characteristics must be designed to work in concert with the head restraint to support an occupant's neck and head, accelerating them with the torso as the vehicle is pushed forward.
In the latest evaluations, the seat/head restraint combinations in 17 of 59 SUV models are rated good, 5 are acceptable, 14 are marginal, and 23 are rated poor. In minivans, seat/head restraints in three models are rated good, two are acceptable, one is marginal, and five are rated poor. In pickups, one is good, five are acceptable, five are marginal, and six are rated poor.
While there hasn't been much overall improvement among pickups and minivans since the last time the institute evaluated protection in rear crashes, the performance of the seat/head restraints in SUVs is much better. In 2006 those in only six of 44 SUV models earned a good rating.
"The reason may be that automakers have updated or introduced many new SUVs since 2006, but minivans and pickups are being updated more slowly," Zuby pointed out.
In the latest tests seat/head restraints in the Mitsubishi Outlander improved to good from the previous design that was rated acceptable. Those in the Acura MDX, Honda CR-V, Honda Element, Hyundai Santa Fe, and Kia Sorento improved from their previous ratings of poor to good. Those in the Honda Pilot and Mercedes M class improved from marginal to good. The seat/head restraints in the Toyota Tundra pickup improved to good from acceptable.
In contrast, some manufacturers have introduced new models with subpar seat designs. The ones in the BMW X5, Dodge Nitro and Suzuki XL7 are rated poor. Those in the new Mazda CX-7 and CX-9 are rated marginal.
Among the poor-rated seats in the new evaluations, those in seven models didn't make it to the testing stage because the geometry of their head restraints is marginal or poor, the institute said. This means they can't be positioned to protect many taller people, so the institute doesn't test them. Among these lowest rated seats are those in the Cadillac SRX SUV, Nissan Quest minivan and Ford Ranger pickup, the institute said.
Some manufacturers are making changes to the seat/head restraint designs in their vehicles to earn the Institute's Top Safety Pick award. Other improvements are being spurred by changes to federal safety rules.
Front-seat head restraints will have to extend higher and fit closer to the backs of people's heads under a rule issued by the National Highway Traffic Safety Administration in 2004. Originally set to go into effect for front-seat head restraints in September 2008, the agency recently delayed the effective date in response to petitions for reconsideration.
Under the new phase-in schedule, manufacturers must start to fit better front-seat head restraints in 80 percent of their models beginning in September 2009. Front-seat head restraints in all new vehicles made after September 2010 must comply.
"There's lots of room for improvement in the designs of seats and head restraints," Zuby said. "We know many manufacturers are trying to fit better head restraints in their vehicles, and some have been working with us to boost their ratings as they introduce new models. Some manufacturers were waiting for resolution of regulatory issues before fitting better designs in their vehicles. And some didn't get changes made in time for the institute's tests. For example, BMW plans to redesign the seats in the X5 and X3 SUVs to earn better ratings for the 2008 model year."
The institute's procedure for evaluating the geometry of seat/head restraints is used worldwide by the Research Council for Automobile Repairs, an international consortium of insurance-sponsored research centers.
U.S. federal crash test ratings don't evaluate seat/head restraint designs, but the National Highway Traffic Safety Administration has expressed interest in possibly adding the institute's seat/head restraint ratings to its website that publishes New Car Assessment Program results.
In Europe, the European New Car Assessment Programme is considering adding a head restraint evaluation component to new vehicle assessments.
"The institute's evaluations of seat/head restraint designs suggest that the worldwide attention is yielding results," Zuby said. "We're seeing more seat/head restraints rated good and acceptable than we used to. It's clear that many foreign and domestic automakers are moving in the right direction."
Seat/head restraint ratings are based on a two-step evaluation. In the first step, restraint geometry is rated using measurements of height and distance from the back of the head of a mannequin that represents an average-size man. Seats with good or acceptable geometric ratings are subjected to a dynamic test conducted on a crash simulation sled. This sled test replicates the forces in a stationary vehicle that's rear-ended by another vehicle of the same weight going 20 miles per hour, which accelerates the struck vehicle to 10 miles per hour. The sled is a movable steel platform that runs on fixed rails and can be programmed to recreate the accelerations that occur inside vehicles during real-world crashes.
A dummy specially designed to assess rear-end crash protection, BioRID, is used to measure the forces on the neck during the simulated crashes. Researchers also measure how hard the seatback pushes on the dummy's back and how quickly the head restraint supports the head.
The institute's dynamic ratings of good, acceptable, marginal, or poor are derived from two seat design parameters (peak acceleration of the dummy's torso and time from impact initiation to head restraint contact with the dummy's head) plus neck tension and shear forces recorded on BioRID during the test.
The sooner a restraint contacts the dummy's head and the lower the acceleration of the torso and the forces on BioRID's neck, the better the dynamic rating. A seat/head restraint's dynamic evaluation is combined with its geometric evaluation to produce an overall rating.
Originally posted on Fleet Financials