CHAPTER 82 • FIGURE SKATING 487and outcome. Addressing the psychologic impact of
an injury is very important to the recovery process.- As a team sport, team dynamics and team building in
synchronized skating are integral to success and must
be included in training programs.
EQUIPMENT
BOOTS ANDBLADES
- The skating boot is made primarily from leather. A
skater’s ankles are plantar flexed in the skate due to
the height of the boot heel. Some manufacturers make
a boot with heat-molded parts in order to customize
the fit. - The design of the skating boot has changed over the
past two decades. The boots have become increas-
ingly stiff in response to requests from skaters and
coaches to enhance support, slow break down, and
accommodate skaters with suboptimal ankle strength
and proprioception to improve jump landing success
rates.
•Over-the-counter or stock boots and blades are less
expensive, less rigid, and can be variable in construc-
tion. They are sold as a single unit, with the blade
screwed or riveted to the boot. Most elite athletes
wear stiff custom-made boots bought separately from
the blades.
•New skates and blades can cost well over $1000 and
are usually replaced every year. Skaters typically
replace boots when the ankle support breaks down.
Stock boots are available for half the price of custom-
made boots but must be replaced more often. - Optimal boot fit is necessary to prevent boot-related
injuries. The boot should be lightweight (<5% of
skater’s body weight). It should have a broad forefoot,
a well-fitted heel, and a well-padded tongue. New
boots should be introduced at the end of the competi-
tive season and never be worn alternately with old
boots. There is little room in boots to accommodate
orthoses. Additionally, the plantar flexed position in
which the boot holds the foot must be accounted for in
its orthotic construction.
BIOMECHANICS
JUMPS
•To perform the increasingly difficult triple and
quadruple jumps, the athletes are rotating faster, not
jumping higher (King DL, Arnold AS, Smith, 1994).
Flight times for single, double, and triple jumps are
very similar due to nearly identical vertical velocity at
takeoffs (King DL, Arnold AS, Smith, 1994).
- An athlete’s upper body strength and consequent
ability to pull arms against centrifugal forces when
initiating jump rotation is correlated positively with
the athlete’s ability to perform the more difficult
jumps. - Impact forces are greater on landing higher revolution
jumps as a result of the decreased time available to
dissipate force between the forefoot and rear foot con-
tact with the ice (Lockwood and Gervais, 1997).
•Athletes fail to land multiple revolution jumps or
triple-triples because of their inability to attain tight
air position efficiently.
SPINS- Athletes report that spinning requires as much or
more energy than jumping. The athlete rotates three to
six revolutions per second, creating 200–300 lb of
centrifugal force (Nash, 1988). Upper body, lower
body, and core strength are all required to keep the
arms and legs close to the axis of rotation to counter-
act the centrifugal force.
TRAININGGENERAL- Figure skaters often begin rigorous training as early as
5 years of age, and some are performing jumps requir-
ing two or three revolutions by the age of 8. The more
elite athletes can spend up to 45 h a week dedicated to
their sport: roughly 15 to 30 h per week on the ice and
5 to 15 h performing off-ice conditioning. Additional
time is spent on choreography, music selection, and
costume design and fitting.
•Training schedules run virtually year-round with only
a small break during the early spring, significantly
increasing the risk of overuse injury.
ON-ICE
•A typical on-ice training regimen includes two to
three 45-min on-ice sessions throughout the day.
Training programs are usually most intense from late
spring through summer. During the competitive sea-
sons less time is spent conditioning, and more time is
spent perfecting choreography.OFF-ICE- Athletes who participate in off-ice programs are
stronger, have better-developed aerobic and anaerobic
energy systems, jump higher, have more consistent
jump landings, have tighter and faster spins, and feel
more confident on the ice. Additionally, these athletes
may have decreased injury rates for level of participa-
tion as well. The number of athletes participating in