The Nike Zoom Vaporfly 4%听shoe being tested听at CU 麻豆影院.听(Credit: Casey A. Cass/CU 麻豆影院)
The secret ingredient in the world鈥檚 fastest marathon shoe lies primarily in its squishy midsole, not in its controversial carbon fiber plate, new CU听麻豆影院 research suggests.
鈥淭his paper demonstrates that the bulk of the energy saved through this shoe comes through its softer, better foam,鈥 said senior author and integrative physiology professor Rodger Kram. 鈥淭he carbon fiber plate is just a cherry on top.鈥
The , published today in the journal听Sports Medicine, marks the latest scientific chapter for the Nike Vaporfly 4%, the fabled racing flat worn by five of the six top finishers at this month鈥檚 New York City Marathon and the two men who toppled the marathon and half marathon world records earlier this fall.听
笔谤别惫颈辞耻蝉听听found that the shoe鈥攚hich features a thick foam midsole with a spoon-shaped plate inside鈥攅nables athletes to exert, on average, 4 percent less energy while running. That finding inspired the shoe鈥檚 name. For a four-hour marathoner, 4 percent听savings translates to almost 10 minutes faster. For a world-class 2:03 marathoner, it could make the first sub-two-hour marathon possible.
The looming question among runners, shoe manufacturers and critics who have suggested it be banned: Exactly what makes this shoe so fast?
A combination of factors
- Bulk of energy saved by Nike Vaporfly 4% comes from softer foam midsole, not carbon fiber plate.
- Athletes wearing听the shoe exert less energy through their calf and foot muscles.
- The shoe was听worn by five of the six top finishers at this month's New York City Marathon.
To find out, Shalaya Kipp, then a graduate student in Kram鈥檚 lab, enlisted 10 competitive male runners who wear a size-10 shoe and could comfortably run a 10K in under 35 minutes. Kipp and lead author Wouter Hoogkamer, a postdoctoral researcher, placed reflective markers on the runners鈥 legs and shoes, then had them run for five minutes on a treadmill at a six-minute-per-mile pace while a 3D motion-capture system measured their joint mechanics. They also took measurements of the force with which the runners hit the ground and the energy returned with each step.
Each runner completed three treadmill trials, wearing a different high-end running flat鈥攖he Nike Vaporfly prototype, the Nike Zoom Streak 6, or the adidas adizero Adios Boost 2.听
Then the researchers compared how running biomechanics differed between shoes.听
鈥淲e found that it is not one magic thing that explains the metabolic savings in this shoe, but rather a combination of a whole bunch of biomechanical factors related to the foam and the plate,鈥 said Hoogkamer.听
Contrary to what they expected, they found no difference in the runners鈥 knee or hip joint mechanics between shoes. But they did find that those wearing the 4% shoes didn鈥檛 have to exert as much muscular torque at their ankles, and thus the calf muscles did not have to do as much work.听Further, the plate made the shoe less flexible and thus the foot muscles that stabilize the toe joints didn鈥檛 have to work so hard.听
The earlier study found that the foam cushion returns a whopping 87 percent of the energy it takes in with each step.听
鈥淭his shoe doesn鈥檛 give you energy but it prevents you from losing as much energy every time your foot strikes the ground,鈥 says Kram. 鈥淭hat can make a big difference.鈥
Wouter Hoogkamer places motion sensors on a runner in order to test the biomechanics of the Nike Zoom Vaporfly 4% shoe.听(Credit: Casey A. Cass/CU 麻豆影院)
A shoe arms race
The shoe is the latest innovation in what some are calling an escalating 鈥渟hoe arms race鈥 as companies one-up each other in hopes of breaking the two-hour marathon barrier.
In September, Kenyan marathoner Eliud Kipchoge officially broke the world marathon record in the 4% shoe, with a time of 2:01:39 at the Berlin Marathon. A month later, Abraham Kiptum broke the men's half-marathon world record in the shoes, clocking 58:18.
Some critics have called for the International Association of Athletics Federations ban the shoe, suggesting the spoon-shaped carbon-fiber plate embedded in the foam sole acts like a spring and gives athletes an unfair advantage. The study suggests it merely stiffens the shoe.
鈥淲hen we measured the energy stored and returned in the plate, we found it to be minuscule,鈥 said Hoogkamer, noting about 50 times more energy savings come听from the foam. 鈥淟ots of shoes have foam midsoles and every foam has some spring action to it.鈥
Nike provided the shoes but this latest study was not otherwise funded by Nike.听
The research team hopes their research can lend scientific evidence to the ongoing debate over what constitutes unfair advantage in shoe design. More importantly, they hope it can help companies design better shoes for runners of all abilities.
鈥淭he point of foot races is to see who can run the fastest and these new technologies help people to run faster,鈥 said Kram.听
His advice for marathoners gunning for a personal-record: Consider a resilient shoe with a thick cushion.
