Eleven days after Boulder-born Shalane Flanagan won the New York City Marathon in new state-of-the-art racing flats known as 鈥4%s,鈥 University of Colorado Boulder researchers have published that inspired the shoes'听name, confirming in the journal Sports Medicine that they reduce the amount of energy used to run by 4 percent.
With such technology鈥攊ncluding next-generation foam cushioning, carbon fiber plates and a thick but soft midsole鈥攔unners at a variety of speeds should be able to significantly improve their times; and for elites, the elusive two-hour marathon is now within reach, the authors conclude.
鈥淥ur extrapolations suggest that with these shoes the technology is in place to break the two-hour marathon barrier,鈥 said lead author Wouter Hoogkamer, a postdoctoral researcher in the Locomotion Lab at 兔子先生传媒文化作品. 鈥淣ow, it is up to the athletes to make it happen.鈥
The study was conducted at the CU lab before the shoe鈥檚 July release and prompted Nike to name it the Zoom Vaporfly 4%. Today鈥檚 long-awaited publication reveals in detail what the researchers found and how it was done.
For the study, Hoogkamer and his team recruited 18 male runners in their 20s who had run a 10 km race in less than 31 minutes (a pace of about 5 minutes per mile) and also wore a size 10 shoe.
Postdoctoral researcher Wouter Hoogkamer with a prototype of the 4%.
鈥淲e were looking for fast, male Cinderellas,鈥 said senior author Rodger Kram, a professor in the Department of Integrative Physiology. 鈥淭here are very few places in the world outside of Boulder that we could have found so many fast runners.鈥
Each runner came to the lab on three separate testing days. Each day, they ran six 5-minute treadmill trials wearing each of three pairs of shoes twice: the prototype of the Nike Zoom Vaporfly 4%, the Nike Zoom Streak听and the Adidas Adios Boost 2, which Kenyan Dennis Kimetto wore when he set the official marathon world record (2:02:57) in 2014.
The 10 fastest marathons have been run in versions of the latter two shoes.
鈥淲e wanted to test this new prototype shoe against the best out there,鈥 said co-author Shalaya Kipp, an Olympic middle-distance runner and graduate student in the lab.
On one day, participants ran at a pace of 5:22 minutes per mile; on another they ran at a 6:02 pace; on another they ran at a 6:54 pace.
Meanwhile, they breathed into a device that measures oxygen consumption to ascertain calories burned per second during running. When wearing the prototype shoe, their energy savings was between 2 percent and 6 percent, with an average of 4 percent.
鈥淓very single day at every single speed, every runner used less energy with the prototype shoe,鈥 Kram said.
The researchers then calculated what that energy savings could mean for the current marathon record. A 4 percent reduction in energetic cost would translate to a 3.4 percent improvement in running speed at world record marathon pace (4.41 minutes per mile), reducing the finishing time to 1:58:54, they found.
鈥淚t took 29 years for the men鈥檚 marathon record to be reduced by 3.4 percent to the current 2:02:57,鈥 they noted.
For performance, it seems very clear from this study that soft yet resilient shoes with thick cushioning are the way to go.鈥
鈥揜odger Kram
Since Nike unveiled the $250 shoe in July, skeptics have questioned its 4 percent听claim, asking how that number was reached and whether it would apply to slower runners.
Anticipating this skepticism, the team painstakingly designed and executed its study.
To assure that runner fatigue over time didn鈥檛 put the last shoe at a disadvantage, they used a 鈥渕irror鈥 design, asking runners to start with shoe No. 1, progress to No. 2 and No. 3, then reverse the order (No. 3, No. 2, No. 1). They also added lead pellets to the prototype shoe so it weighed the same as the others.
While the slowest pace was a seven-minute mile, 鈥淭here is no reason to believe the results would be different for slower speeds, since our findings were the same at all the speeds we tested,鈥 Hoogkamer said.
Nike Inc. funded the study, and Kram serves on the company鈥檚 scientific advisory board. But the authors maintain that this in no way influenced the results. Nike Inc. also paid to make the study open access, meaning anyone can and try to replicate it. 鈥淲e are extremely confident that other scientists will find similar results,鈥 Kram said.
Shalane Flanagan at the Boston Marathon. Flanagan won the New York City Marathon in November wearing the 4%s.
The shoe was also worn by 2017 New York Marathon men鈥檚 race winner Geoffrey Kamworor and used in the Breaking 2 Project, Nike鈥檚 recent attempt to orchestrate a sub-2 marathon in a controlled environment.
Its midsole is made with high-tech foam that cushions the blow of footfalls and, according to mechanical testing, stores and returns about twice as much energy per footfall as the other shoes tested. Some critics have suggested that its stiffening carbon fiber plate acts like a spring, giving runners an unfair advantage. But Hoogkamer explains that the plate actually acts as a rigid lever, not a spring.
In an ongoing study, the researchers are exploring just how the plate works with the other technologies to save energy.
The takeaway for runners and shoe designers now: 鈥淔or performance, it seems very clear from this study that soft yet resilient shoes with thick cushioning are the way to go,鈥 Kram said.