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Safety Tips
Protect Your Neck: Warding Off Whiplash With Head Restraints
By Warren Clarke, Automotive Content Editor
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You're whizzing along on the freeway, pondering everything and nothing in particular,
savoring the guilty pleasure of some over-rotated pop ditty on the radio. Suddenly,
the brake lights of the car in front of you gleam blood red, indicating an abrupt
slowdown in the flow of traffic. Goodbye, reverie; responding quickly, you slam
your foot to the brake pedal. There's enough distance between your car and the
vehicle that precedes it to avoid a collision. But the tailgater behind you isn't
as lucky, and his front bumper comes hurtling into the rear of your vehicle.
CRUNCH! In a flash, the impact causes the back of your seat to be pushed forward
into your torso, straightening your spine and forcing your head to rise vertically.
Then your head is tossed violently backward like a shaken rag doll's, continuing
to rotate as your neck muscles, cartilage and bones vainly attempt to resist the
jolt.
At the end of it all, you're stuck with more than just a damaged vehicle. Though
the accident was a relatively minor one, it's left you with whiplash, a condition
affecting the ligaments and muscles of the neck and shoulders. Typically caused
by rear-end collisions, whiplash can cause lasting distress and discomfort.
At the very least, it's a major pain in the neck. But it didn't have to be that
way. A properly configured head restraint system could have prevented your injury.
So what exactly are head restraints, anyway? Head restraints are extensions of
vehicle seats. They're those things that most people think of as headrests, but
that's not really their primary function; they were actually designed to restrict
head movement during a rear-impact collision. In doing so, they reduce the chance
of neck and shoulder injury. They're an important (though often overlooked) safety
feature, and, since 1969, cars have been federally mandated to have head restraints
in the front seating positions.
Most vehicles contain head restraints that are of the manually adjustable variety.
Under current federal law, head restraints must be adjustable to 27.5 inches above
a vehicle's seating reference point (defined by a test machine placed in the seat).
This regulation governs the stature of the head restraint when it's at its highest
— in the "up" position.
But what about restraints left in the "down" position? Research has shown that
most drivers with adjustable restraints don't take the time to configure them
properly, leaving them at their lowest. The result? The head restraints are rendered
ineffective, since restraints left "down" are typically 2 to 4 inches lower than
the current federal regulations dictate. In the event of an accident, unadjusted
restraints provide little or no protection against neck injuries.
There are some who would like to make the federal standard even higher. An upgrade
has been proposed that would bring the U.S. laws in line with height requirements
of the more stringent European standard. The updated U.S. rule would cover horizontal
placement, as well, requiring head restraints to be close to the head of the person
seated. This is in line with studies that have shown that restraints are most
effective when they are close to the head horizontally as well as being properly
positioned vertically.
The new law mandates restraints at 29.5 inches above the seating reference
point, even when left at their lowest position (effectively dealing with the issue
of unadjusted restraints). The distance between the back of an occupant's head
and the front of the restraint would be limited to 2 inches.
Future legislation is all well and good, but you're probably wondering what you
can do to best protect yourself now. If you've got a vehicle with a manually adjustable
head restraint, make sure that the restraint is always in the correct position.
According to the National Highway Traffic Safety Administration (NHTSA), to be
effective, the top of the restraint should lie somewhere between the top of your
ears and the top of your head. If the restraint articulates for horizontal adjustment,
it should be placed so that it's as close to your head as possible, without pushing
your head forward or causing the height of the restraint to drop.
Though manually adjusted head restraints are part of the package on most vehicles,
there are alternatives available. Some vehicles offer restraint systems that adjust
automatically with changes in seat position; others offer systems that adjust
dynamically in a crash. Of the three types of restraints available — manual,
automatic and dynamic — there is one that is viewed as being, well, head
and shoulders above the rest when it comes to effectiveness; according to the
NHTSA, dynamic restraint systems are your best bet when it comes to ensuring adequate
protection from neck injury in a crash.
It's easy to see why. Dynamic head restraint systems take an active approach to
injury prevention; they're designed to deploy automatically in the event of an
accident. They also reduce the whiplash-inducing abrupt motion of the head and
torso that can take place during a collision by utilizing more than just head
restraints. The seatback is also incorporated into this system, creating a mechanism
that cradles and supports the head and torso in the event of a sudden impact.
Volvo and Saab have been pioneers when it comes to integrating this type of system
into their vehicles; for the past couple of years, virtually all of their cars
have featured dynamic head restraint systems. To gain a better understanding of
how these neck-savers work, let's take a look at the systems offered by these
two manufacturers.
The key component in Volvo's Whiplash Injury Prevention System (WHIPS) is a hinge
at the base of the seatback. This hinge yields and partially rotates when an occupant's
torso makes the sort of impact associated with a rear collision, moving the seatback
rearward — thus reducing forward motion of the torso. WHIPS also features
a fixed head restraint with effective geometry, meaning one that sits high and
close to the head; this restraint catches the head in an accident, enabling it
to move forward with the torso. Reduced torso acceleration and the head restraint's
quick reduction of head movement mean that the neck changes shape less —
and the change occurs more slowly — than with a conventional seatback/head
restraint. The result? Whiplash is less likely to occur.
Saab's Active Head Restraint (SAHR) is based on the lever principle. A padded
head restraint is linked to a pressure plate inside the seatback. When a rear-end
collision causes the torso to make impact with the seatback, force is exerted
on the plate; this sends the head restraint moving up and forward, enabling it
to catch the occupant's head before the motion that induces whiplash has a chance
to begin. Additionally, the seatbacks themselves feature crossbars and padding
designed to absorb crash energy and cradle an occupant's torso, reducing differential
movement between the head and torso.
Which 2007 vehicles, besides Volvo and Saab, offer dynamic head restraint systems?
A list of such vehicles, obtained from the NHTSA, follows:
| Acura |
MDX |
|
RDX |
|
TL |
| Audi |
A3 |
|
A4 |
|
A8 |
|
Q7 |
|
RS4 |
|
S4 |
|
S8 |
| BMW |
7 Series |
|
ALPINA B7 |
| Honda |
Civic |
|
CR-V |
| Hyundai |
Azera |
|
Elantra |
|
Entourage |
|
Santa Fe |
|
Sonata |
|
Veracruz |
| Infiniti |
FX35 |
|
FX45 |
|
G35 |
|
M35 |
|
M45 |
|
QX56 |
| Jaguar |
S-Type |
|
XJ-Series |
|
XK-Series |
| Jeep |
Grand Cherokee |
| Kia |
Amanti |
|
Optima |
|
Rondo |
|
Sedona |
|
Sorento |
| Land Rover |
Range Rover |
| Mazda |
MAZDA3 |
|
MAZDA6 |
|
MAZDASPEED 3 |
|
MAZDASPEED 6 |
| Mercedes-Benz |
C-Class |
|
CLK-Class |
|
CLS-Class |
|
E-Class |
|
GL-Class |
|
M-Class |
|
R-Class |
|
S-Class |
| Mitsubishi |
Outlander |
| Nissan |
350Z |
|
Altima |
|
Altima Hybrid |
|
Armada |
|
Frontier |
|
Maxima |
|
Murano |
|
Pathfinder |
|
Quest |
|
Sentra |
|
Titan |
|
Versa |
|
Xterra |
| Rolls-Royce |
Phantom |
| Saab |
9-3 |
|
9-5 |
| Subaru |
B9 Tribeca |
|
Forester |
|
Impreza |
|
Legacy |
|
Outback |
| Toyota |
Highlander |
| Volkswagen |
GTI |
|
Jetta |
|
New Beetle |
|
Passat |
|
Rabbit |
| Volvo |
C70 |
|
S40 |
|
S60 |
|
S80 |
|
V50 |
|
V70 |
|
XC70 |
|
XC90 |
So far, we've looked at head restraints as they pertain to the driver, and those
riding in front. But what about passengers in the back seat? Head restraints can
serve to protect them from injury, as well. Most cars provide head restraints for their rear seat passengers (a notable entry without them is the Ford Focus), but the Volvo S80 is the only car to offer active head restraint technology for both front and rear passengers.
So the next time you get into your car, or consider buying a vehicle, give some
thought to the head restraints perched atop those seatbacks. They could very well
wind up saving your neck someday!
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