Durability

Injury-proof your season.

The best ability is availability. Hockey's signature injuries, the groin, the hip, the knee, are largely trainable, predictable, and preventable. Here is the science of staying on the ice, and the off-ice work that keeps you there.

12 min read Science-based
The 30-second version
  • Hockey's signature injury is the groin. Adductor strains have accounted for about 43 percent of all muscle strains in elite players, the price of a sport built on a powerful sideways push.
  • Weak adductors are the warning sign. Players whose groin strength was under 80 percent of their hip-out strength were 17 times more likely to strain it.
  • It is preventable. A simple six-week preseason adductor program cut groin strains in a pro team from 3.2 to 0.71 per 1000 player-games, a drop of more than three quarters.
  • Strength is the best insurance there is. Across sports, strength training cuts injury risk by roughly two thirds. Stretching, on its own, does almost nothing.
  • Protect the knees and manage the load. The MCL is the knee most at risk, contact is the usual cause, and most injuries cluster in games, so spikes in load deserve respect.

Every hockey player knows the feeling, or knows someone who does. A hard stride, a quick change of direction, and something in the groin grabs. It is not dramatic. There is no cart, no brace, no highlight. Just a nagging pull that steals a few weeks, comes back the moment you push off hard, and quietly follows you for the rest of the season. Injuries like this are the hidden tax on a hockey career, and here is the part most players never hear: most of them are not bad luck. They are trainable.

The research on hockey injuries is unusually clear about what goes wrong, why, and what to do about it. This guide walks through the injuries the sport actually hands out, the warning sign that predicts the most common one, and the off-ice training that keeps you available, because the best ability any player has is being healthy enough to play.

The injuries hockey actually hands out

Hockey is fast, heavy, and played on a knife's edge, so it carries real injury risk. A seven-year study of professional players found that the lower limbs accounted for about 40 percent of all injuries, the most of any region, with the upper body and the head and spine making up roughly a quarter each. Concussions alone were about 15 percent of injuries, a serious category that deserves its own respect and its own article. But for the everyday, season-stealing problems a player can train against, the story lives in the lower body.

Where hockey injuries happen In professional hockey, the lower limbs account for about 40 percent of all injuries, the upper limbs about 26 percent, and the head and spine about 25 percent. SHARE OF ALL INJURIES, BY BODY REGION 40% are lower-body injuries Lower limbs (groin, hip, knee) 40% Upper limbs (shoulder, hand) 26% Head & spine 25% 7-year pro cohort (Ornon et al., 2020) Where hockey injuries happen Lower limbs account for about 40 percent of injuries, upper limbs about 26 percent, head and spine about 25 percent. 40% of injuries are in the lower body Lower limbs (groin, hip, knee) 40% Upper limbs (shoulder, hand) 26% Head & spine 25%
The lower body takes the largest share of hockey injuries. Within it, two culprits dominate: the groin and the knee. Both respond to off-ice training.

Within that lower body, two injuries show up again and again: the groin strain and the knee sprain. The knee we will come back to. But the groin is the one that defines hockey, and it is also the one the science says you can do the most about.

Why the groin is the canary in the coal mine

No sport loves the groin like hockey. The skating stride is, at its core, a powerful sideways push: the adductor muscles on the inside of the thigh fire hard on every stride to drive you out and pull you back, thousands of times a game. That makes them the engine of skating and, when they are underprepared, the first thing to break. In one classic survey of elite players, groin strains made up about 43 percent of all muscle strains. Nearly half of every pulled muscle in the sport is the groin.

That concentration is actually good news. When one injury is this common, and this tied to one muscle group, it becomes a target. You cannot train away every freak collision, but you can absolutely train the groin, and the research shows that when you do, the injuries fall off a cliff.

The number that predicts a groin strain

Here is one of the most useful findings in all of hockey sports science. Researchers measured the preseason hip strength of professional players and then tracked who got hurt. The players who went on to strain a groin were not weaker everywhere. They had a specific imbalance: their adductors (the muscles that pull the leg in) were weak relative to their abductors (the muscles that push it out). In the healthy players, adductor strength was about 95 percent of abductor strength. In the players who got hurt, it was only 78 percent. And the headline: a player was 17 times more likely to strain his groin if his adductors were weaker than 80 percent of his abductors.

The groin-strain warning sign Uninjured players had adductor strength about 95 percent of their abductor strength. Players who later strained a groin were at 78 percent, below the 80 percent danger line. Being under that line meant 17 times the risk. ADDUCTOR STRENGTH AS A SHARE OF ABDUCTOR STRENGTH 17× the groin-strain risk below the line 80% danger line Uninjured players 95% Players who later strained a groin 78% NHL cohort, preseason testing (Tyler et al., 2001) The groin-strain warning sign Uninjured players sat at 95 percent adductor-to-abductor strength; injured players at 78 percent, below the 80 percent danger line, meaning 17 times the risk. 17× the risk when adductors fall below 80% 80% line Uninjured players 95% Players who later got hurt 78%
A single number, the strength of the groin relative to the outer hip, separated the players who stayed healthy from the players who got hurt. The good news: it is a number you can change in the weight room.

Read that again, because it reframes the whole problem. The groin strain is not random. It has a measurable warning sign, and that warning sign is a strength imbalance you can fix off the ice. The same study found that groin flexibility did not separate the injured from the healthy. It was not about being tight. It was about being weak in the wrong place.

The groin strain is not bad luck. It is a weak adductor with a warning light you can see in the preseason.

The fix that actually works

So what happens when you train the warning sign away? The same group ran the experiment. They took the professional players whose preseason testing flagged them as weak and therefore at risk, and put them through a simple six-week adductor-strengthening program before the season. The result was dramatic. Compared with the seasons before the program, groin strains fell from 3.2 to 0.71 per 1000 player-game exposures, a reduction of more than three quarters, just from strengthening the muscle that was about to fail.

A simple program slashed groin strains After a six-week preseason adductor-strengthening program, groin strains fell from 3.2 per 1000 player-game exposures to 0.71, a drop of about 78 percent. GROIN STRAINS PER 1000 PLAYER-GAMES, BEFORE VS AFTER −78% fewer groin strains after the program 3.2 Before 0.71 After program A simple program slashed groin strains Groin strains fell from 3.2 to 0.71 per 1000 player-games after a six-week adductor program, about 78 percent fewer. −78% fewer groin strains after the program 3.2 Before 0.71 After
Six weeks of targeted strengthening, more than three quarters fewer groin strains. Few things in training give back this much for this little.

This is not a one-off. The same adductor-focused approach has prevented groin problems in other sports too: a large trial in footballers found that a simple program built around the Copenhagen adduction exercise cut the risk of groin problems by 41 percent. And the principle scales up to injuries in general. A landmark review of injury-prevention research found that strength training reduced sports injuries to less than a third of the rate seen without it, with a later analysis confirming the effect is dose-dependent: the stronger you get, the more protected you are. Strength is not just for performance. It is the most effective injury insurance ever studied.

For hockey, that means a handful of off-ice targets carry most of the protective load. The menu below is where to spend your durability work.

A durability menu for hockey (off-ice)
TargetWhy it mattersHow to train itExample
Adductors (groin)The number-one strain, with a known strength warning signDirect adductor strength through full rangeCopenhagen adduction, slideboard, banded squeezes
Hips & glutesControl the knee and power the stride from aboveHinge and single-leg strength, lateral workHip thrust, single-leg deadlift, lateral lunge
HamstringsEccentric strength protects the knee and the hamstring itselfSlow, loaded lengtheningNordic curl, slider leg curl, RDL
Knee resilienceMost knee injuries involve a sudden stop or contactLanding and deceleration control on one legSingle-leg landings, lateral bounds, cutting drills
Trunk (anti-rotation)A stiff core protects the back and transfers forceBracing that resists twist and bendPallof press, side plank, loaded carries
Load managementMost injuries cluster in games and in sudden spikesBuild work capacity gradually, respect big jumpsRamp volume slowly after time off

Want durability built in, not bolted on?

Our 8-week off-ice programs weave adductor, hip, hamstring, and trunk work through every phase, so you get stronger and harder to injure at the same time, without a separate prehab routine to remember.

See the Programs

Don't forget the knees

If the groin is the overuse story, the knee is the contact story. In international men's hockey, the knee was the most-injured part of the lower body, and the medial collateral ligament, the MCL on the inside of the knee, was by far the most common knee injury. A separate study of college players found the MCL was usually hurt by contact, either a hit or a collision with the boards or ice, in more than three quarters of cases.

You cannot train away a knee-on-knee hit. But you can build a knee that tolerates the awkward landings and sudden cuts that cause the non-contact ones, and a body that absorbs contact better. That is the job of the hip, hamstring, and landing work in the menu above: strong muscles around a joint are the shock absorbers that keep a bad moment from becoming a torn ligament. Add in load awareness, since hip and groin injuries in college players struck at about three times the rate in games as in practice, and you have covered most of what a player can actually control.

Why stretching is not injury insurance

If you grew up in hockey, you were probably told to stretch so you would not pull anything. It is one of the most durable myths in the sport, and the evidence does not support it. Stretching has its place for mobility and feeling ready, but as a standalone shield against injury, it does very little.

Myth: stretching keeps you from getting hurt

In the same landmark review where strength training cut injuries to under a third, stretching showed essentially no protective effect at all. A separate systematic review reached the same conclusion for routine static stretching. And recall that in the groin-strain study, it was not the tight players who got hurt, it was the weak ones. The takeaway is not that stretching is useless, it is that strength, not stretching, is what keeps you on the ice.

How this changes by age

Durability is a lifelong project, but the emphasis shifts as a player grows.

Youth · 9 to 12

The best injury prevention here is broad athleticism and not too much hockey. Play other sports, build coordination, and learn to land, cut, and decelerate. Resist early specialization and heavy single-sport volume, which is a real driver of youth overuse injury.

Teens · 13 to 18

The prevention window. Bodies can now build real strength, and this is when adductor, hamstring, and landing work pays off most. Growth spurts add temporary risk, so respect spikes in load and keep technique clean as strength climbs.

Adults · 19+

Now it is about protecting what you have. Tissues recover slower, so keep strength training year-round, warm up properly, and manage the jump back into a season after time off. The strong, well-prepared adult player stays available far longer.

The bottom line

Hockey will always carry risk, but the injuries that quietly end seasons are not the random ones. They are the groin that was weak, the knee that could not absorb the landing, the body that was rushed back too fast. Every one of those has a known answer, and the answer is almost always strength: a groin that is at least 80 percent as strong as the outer hip, hips and hamstrings that protect the knee, a braced trunk, and load you build instead of spike. Spend a little of your off-ice time on durability and you buy the most valuable thing a player owns, which is being healthy enough to take every shift the season offers.

References

Every claim above is drawn from peer-reviewed research. Injury rates are reported per 1000 player-game exposures or athlete-exposures as defined in each study. Prevention figures come from controlled studies in hockey players where available and from closely related team sports where noted.

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Coach David Ciboch
Coach David Ciboch
M.Ed. Sport Science · National Team Coach

David builds science-based off-ice training for hockey players at every level, from first-year youth skaters to adult and masters players. Elite Hockey Drills exists to put real sport science in the hands of players who want to train smarter, not just harder.

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