I’ve found any discussion regarding structural abnormalities of the hip to be really confusing. I’m going to try to simplify this and, hopefully, not lose any technical aspects in the process.
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Common structural hip issues
When talking about structural issues at the hip the first area causing confusion (at least for me) is the lack of discernment between acetabular abnormality and femoral abnormality.
The structural abnormalities I’m going to cover are the “versions.” AnteVERSION and retroVERSION.
Ante = forward.
Retro = backward.
Either the acetabulum or femur is in a “version;” either the acetabulum or femur is rotated forward or backwards.
Nice example:
Acetabular retroversion. Credit: musculoskeletalmri.blogspot.com
The acetabulum is rotated backwards (left) or forwards (right):
Now an example of the femur:
In a retroverted femur, the femoral head gets pushed backwards:
Retroverted femur on left, normal femur on right:
When the head is retroverted, you can see how the available internal range of motion is lessened (red line on left versus right):
While the lateral range of motion is increased (green line on left versus right):
What’s important to realize is regardless which bone is “verted,” the consequence appears to be the same.
In terms of rotation:
Anteversion: The hip joint has a greater than normal ability to internally rotate and lesser than normal ability to laterally rotate.
Retroversion: The hip joint has a greater than normal ability to laterally rotate and lesser than normal ability to internally rotate.
In terms of side to side movement:
Anteversion: The hip joint has a propensity to adduct.
Retroversion: The hip joint has a propensity to abduct.
Simplified:
Anteversion: The hip joint turns inward more easily than normal.
Retroversion: The hip joint turns outward more easily than normal.
Hopefully that makes sense.
Anteversion has been talked about quite a bit; I want to focus on retroversion.
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Assessing clinically (without x-ray / MRI / imaging)
A good portion of my clientele has a history of a chronic, yet not completely debilitating issue. They want to work on this issue and workout at the same time. Because of this, I don’t assess structural issues at the hip immediately with every single person I get. Often, I’ll make my way there. (It always depends though.)
Here’s roughly how I may go down that path. In essence, these are movement signs which could lead you to directly test someone for a structural hip issue:
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Standing
A quick way to get an indicator of hip retroversion is to look at the person in stance. If they naturally stand with their feet and knees both facing straight ahead, or their knees facing inward, they probably don’t have retroverted hips. (Not a guarantee.)
However, if they stand with their knee(s) and feet both pointing out, and maybe even spread apart (abducted), we may be on to something.
It’s important to mention again, knees AND feet. Discerning a “toed” out posture is not enough. The toes may be pointed out while the knees face straight ahead, meaning the feet are turned out relative to the femur. It’s the femur we’re more concerned with as it connects to the hip, while the foot / shin does not.
I want to reiterate, a person can have an internally rotated femur in stance and a retroverted hip. Standing posture is an indication, that’s all.
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Hip flexion with significant external rotation / abduction
Look at the differences between sides here:
Right leg (left in picture):
Versus left leg:
See the greater external rotation and abduction when the left hip flexes?
If a person has a propensity to externally rotate / abduct (turn their knee out) during hip flexion, we may have another sign. Because a retroverted hip is structurally positioned into external rotation, a person with this abnormality is going to have a copious amount of hip external rotation, a limited amount of hip internal rotation, and this contrast will be readily apparent during hip flexion.
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Prone hip rotation
This is really the money test.
Have the person lay on their stomach, bend one knee, then rotate the leg side to side (making sure the lower back does not move).
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We’re looking for a big difference between lateral rotation and medial rotation. Specifically, limited ability to rotate the leg out (medial / internal rotation), but excessive ability to rotate the leg in (external / lateral rotation).
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Tangent, what’s normal hip motion?
For the purposes of this post we’re going to use these norms:
Hip internal rotation ROM: ~45 degrees
Hip external rotation ROM: ~45 degrees
In the context of this post, a significant contrast between directions, say 15 degrees or more, is what we’re looking at here. E.g. a hip which can laterally rotate 60 degrees but only medially rotate 10 degrees should cause one’s ears to perk up.
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Back to the prone hip rotations
Let’s look closely at the left leg in particular. Medial rotation:
Lateral rotation:
That is a big, big difference.
Teal is the midline, red is the rotation:
The reason prone hip rotation is the best (clinical) indicator of retroversion is when in prone, the hips are not really limited into medial rotation by muscular forces. No muscle is fully being stretched when the hip internally rotates. As mentioned, a retroverted hip is structurally limited into medial rotation. So, the prone hip internal rotation assesses the ability of the hip to medially rotate, structurally. Therefore, it’s a good test for retroversion.
In contrast, when the hip externally rotates something like the TFL can really limit motion.
TFL muscle, which flexes, abducts, and internally rotates the hip.
In prone, if the hip is limited into external rotation you can’t deduce it’s because of a structural issue at the hip; it’s probably muscular, like a stiff TFL.
Which brings us to this: If, in prone, the hip is limited into medial rotation (e.g. less than 25 degrees) and lateral rotation, you have to also put the person in a seated position, and test again. Because now you don’t have the asymmetry in rotation, rather, you have limited rotation both directions. And we don’t know what’s limiting the lateral rotation. Is it muscular, or structural? By putting the person in a seated position we take out the TFL factor, as it’s no longer fully on stretch when the hip is significantly flexed.
Teal is our midline again:
If the person suddenly has a bunch of lateral rotation, they probably have a retroverted hip and a stiff TFL. If they’re still limited into lateral rotation then you have an overall hypomobile hip.
(In the video and pictures above you can see Chris is pretty much the same in prone and in seated.)
Now, this isn’t perfect. The opinions on this vary. Some think while in prone the lateral rotators are taut enough to play a role, some think capsular issues are at play, all in conjunction with possible bone changes (e,g. retroversion). Without an X-Ray, it seems like you can’t be quite positive. However, if you see somebody with a drastic asymmetry in rotation, and it doesn’t improve pretty quickly, I have no qualms saying the hip is structurally atypical, and research supports this.
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Quick note on Craig’s test
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I pretty much never bother with Craig’s test. Mainly because the average person I have is overweight. Try palpating a greater trochanter when there is a bunch of fat around it.
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Implications
The most important takeaway from this condition is it’s structural. The issue is bone. Bone doesn’t manipulate like muscle or soft tissue. We can’t fight a structural issue, we have to give into it.
The main thing we give into is the fact the leg has a proclivity for external rotation and abduction. It wants to turn out.
Let’s say a person has a right retroverted hip. Some examples:
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Daily life
Sitting
Instead of this,
We can give in to this,
Laying down
Instead of this,
We accept this,
Avoid medial rotation / adduction positions
Such as sleeping:
Or sitting:
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Training / exercise considerations
In a squat, or sit to stand motion, you’d allow the person to open their foot and knee, opposed to keeping it straight:
Right foot turned out a bit,
In something like a lunge, you’d do the same thing. Remember, the person does not, structurally, have the ability to fully flex their hip with their knee straight in front of the hip. The leg needs to be laterally rotated and abducted. (How much depends on the degree of retroversion.)
Friendlier,
We want to avoid instances where the hips medially rotate, and, again, we do not want to forcefully try to improve medial rotation. Avoid a stretch such as:
I will allow people to perform medial rotation in the prone position as it’s low intensity, and the person can get a good gauge for when they go too far (avoid any pinching). After a certain point though, you and the client need to accept the person has all the internal range of motion they’re going to have.
A common example where this medial rotation would pose a problem for retroverted hips is a golf swing. Watch a slow swing in action. Still shots to follow.
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Notice the internal rotation of the femurs at various points during the swing:
For someone like Chris who lacks internal rotation of the femurs (Chris is the same guy in the examples above), his golf swing is not friendly to his hip structure. He even has a tendency to internally rotate the right femur just in his set-up:
One way to try and get around this is to have the person open their feet and knees more. This will give the person extra room to internally rotate the femur.
We saw Chris’ lack of internal rotation earlier. In his set-up is already approaching what is probably his maximum amount (distance between teal and red):
However, if the leg is opened up a bit, we give some more room for internal rotation.
Say the green is our new starting point for the knee and foot. Instead of internally rotated, the femur starts off externally rotated:
Now Chris has some more room to internally rotate his hip before he reaches his maximum amount:
This isn’t great though. You’re still putting a hip which hates medial rotation into an activity requiring a violent degree of it.
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Other comments
What population is this most common in?
Hip retroversion is more common in men than women, and active people (or those with a history of being active). Specifically, it appears quite common in athletes where a good deal of cutting / planting is required. Think soccer or football.
If memory serves me right, this is fairly common in the plant leg of baseball pitchers as well.
This makes sense considering all these activities require a great deal of external rotation and abduction of the femur. Think about the defensive position a basketball player is constantly in:
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Resources for continued learning
This is a good discussion: Retroversion of the acetabulum.
Update 8/19/15: Two more posts on structural aspects of the hip-
–On structural adaptation limitations (of the hip)
–Hip mobility issues in basketball players- why the lack of internal rotation?
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Rahul Padman
June 27, 2013
Excellent effort. You explained the concepts of anteversion and retroversion simpler like never before. Thanks for your effort.
reddyb
June 27, 2013
Thanks Rahul. I appreciate it.
Trey
July 19, 2013
I just had surgery to shave the bones in my retroverted hip and femoral head, and I have been wondering about what I can and cannot do and this helped me immensly. Thank you
reddyb
July 19, 2013
Thanks Trey. Always nice to hear somebody found something useful.
You may find something worthwhile in this too: http://b-reddy.org/2013/06/13/relieving-hip-pain-while-walking/
Best of luck with your hip.
Helen
August 28, 2013
Great explanation of my retroverted hips!
reddyb
August 28, 2013
Thanks! Glad to hear you got something out of it.
Louise Grant
August 28, 2013
Thank you for doing this, it is great!
reddyb
August 28, 2013
You’re very welcome!
suzanneflanagan
August 29, 2013
wow, what amazing information! Thankyou so much for sharing this highly informative post. Too often doctors etc dont go into sufficient detail to enable us HIPPIESto understand what is really going on with our body. I cannot thank you enough…
reddyb
August 29, 2013
Thank you for the feedback. Always nice to hear things of this nature.
dreric
September 9, 2013
Great job! I was looking up info on this for myself expecting to hit several sites, but this was one stop shopping! I have this and have recently hurt my hip because of not taking it into account while split squatting. Ouch. First injury to my hip (51 yo) and has been nagging, and slow to resolve. now , I am VERY careful to externally rotate! Thanks.
Wendy
November 26, 2013
Trying to understand Dr notes for my daughter (16 yrs old). Dr says possible anteversion on right and retroversion on left hip. Going back in Dec for MRI on both but in the mean time can you make sense of the following? External rotation on right is 30/70 and internal rotation at 90 is 35/30…Left internal rotation at 90 is 40/15 and external rotation is 45/60
reddyb
December 1, 2013
Hey Wendy,
In order to test for these things the person needs to be prone (on their stomach) and supine (on her back). My assumption is these values are from when your daughter was supine with her knee and hip flexed to 90 degrees. This only gives you half the picture.
If not, could you delineate what each value is for then?
laurah
December 12, 2013
Thanks for breaking it down, makes much more sense to me now
reddyb
December 12, 2013
You’re very welcome.
Sean White
January 25, 2014
Thank you for a great effort to help us understand. I have femural acetabular impingement and a retroverted acetabbulum. I am not an athlete and wondering if a slow speed, hip impact, through a motorcycle tumble 7 years ago, could contribute to this condition. I am wondering how does the acetabulum revert from a normal position and why did the cam growth appear in my 50’s. Thanks Sean
reddyb
January 26, 2014
Hey Sean,
As for the genesis of retroversion, or really any hip abnormality of this sort, nobody has the answer.
I think a great deal of it has to do with how we develop. You see male athletes tend to get retroverted hips, which makes sense as they place their leg in a great deal of lateral rotation during sports. They do it through a great ROM, at great speeds, and great frequency.
You tend to see women with more anteverted hips, especially those who grew up sitting in a “W” position. (Here: http://www.boosttherapy.com.au/wp-content/uploads/2013/11/W-sitting1.jpg) Again, makes sense. You get what you train.
CAM growth is the same thing: Nobody knows why. Again, I think this is more of an acquired trait. If you’re someone whose hip starts to jam into the acetabulum for whatever reason, like a lack of capsular mobility after a motorcycle accident, it makes sense the body may lay down extra bone, as you’re loading the bones through the friction they’re experiencing.
One of the big issues with treating the hip joint is there’s no consensus of what normal is. As we’re changing our developing years with more sitting, less activity and whatnot, we’re changing how people look on the inside of their bodies. What’s “normal” now may very well have been considered abnormal 100, or 500 years ago (our “natural” selves), but we don’t know that because we didn’t have the technology back in the day to discover what normal is.
In one study it was found 98/100 cadavers had a labrum tear in the hip, does that mean labrum tears are considered normal? Nobody knows. Maybe, maybe not. The majority of Americans are overweight now, does that mean being overweight is normal? In terms of the demographic, yes. In terms of being a regular, typical, healthy human trait, obviously no.
Coinciding with your hips: I don’t know your history, but if your hips were examined 10, 20, 30 years ago, a CAM issue may not have been found because nobody was looking for it. You may have had this your entire life (some think this is genetic) and it was never an issue. It only became an issue because somebody started looking for it. Meaning the cause of your pain is not the CAM issue, it’s probably something else. Perhaps you acquired some bad habits after your accident.
What we do know is: Having a structural issue doesn’t mean you need to be in pain. That’s where strategies like the ones I go over in this post come in. You don’t necessarily have to know all the whys of something in order to deal with it effectively.
Brian
March 23, 2014
Excellent explanation!
Comment: In prone, not only are the muscles on slack but so is the joint capsule, right?
Question: what about a people who have limitation of IR to 0-5 degrees bilaterally in 90 degrees of hip flexion but normal ROM in prone? Let’s say that their external rotation is normal or excessive.
What is the interpretation as far as cause of this type of ROM pattern?
Also, are the normative values for IR different in sitting versus prone?
Functionally, it would seem that, for many people, adequate internal rotation ROM is most important with the hip in less flexion, such as 0-25 deg. Would you agree?
Finally, in people who have significant range of motion loss of internal rotation in sitting position but not prone, do we work on IR ROM or not?
reddyb
March 24, 2014
Hey Brian,
Re: Joint being slack-
No, I don’t believe you could say that. At least not in a way which would affect the assessment. (If there was any slackening, I’d see it being in the anterior / posterior direction; not the external / internal. And that would have to be a very slack joint capsule. This happens, but not often.) This is the limitation of the clinical assessment. You can’t be quite positive what’s limiting things. It’s even hard to really have all the muscles on slack in each position. That said, the clinical assessment still gives you a great idea of how the person can / should move, which is what’s most important.
Re: Limitation of IR while seated, but normal IR while prone-
In the seated position, the gluteal muscles, primarily the middle and posterior segments, are taut. So, if you have trouble internally rotating the leg when the glutes are taut, that could indicate some stiffness in them. If this ROM suddenly improves when the person is prone -when the glutes are slackened- that would add to this being a muscular restriction.
Basically, if you are restricted in both seated and prone, that’s a good indication of a structural (likely bony) phenomenon. If the person is restricted in only one of the positions, that’s a good indication it’s a muscular restriction.
In terms of “normal” IR, you’d want to see the same values in both positions. Same for ER. If you don’t, you could potentially work on the one area where the person is restricted.
I don’t go out of my way to improve internal rotation in hip flexion. This isn’t something anyone I see lacking. If anything, hip IR with hip flexion is too common. Think knees caving in when a person squats. This is also the positioning -hip flexion and IR- which tends to pinch people’s hips. Off the top of my head, I can’t think of anyone I’ve ever worked on this with.
I’m not sure where people really need IR with the hip in 0-25 degrees in everyday life?
The only time I ever really see someone having issues with IR is in prone. Typically, this involves the person moving their lower back at the same time their hip internally rotates, which you don’t want. So, sometimes, I’ll have someone rotate their leg through IR and ER while prone, while making sure their lower back doesn’t move. This is usually more of a movement problem than any particular restriction. I see this most in males.
Example of above movement here:
Lisa
May 17, 2014
Could this internal rotation of femur and a forward right hip cause foot pain underneath the first metatarsal head of the foot due to pressure during walking? I had foot surgery a few years ago and ever since have had horrible pain under my first metatarsal head. I realized recently that my right hip is rotated forward and my knee is very valgus when I am walking. I am wondering if this could be causing this pain. I can feel my hip lock when I take a stride and am thinking this must be the cause…the limited external rotation is forcing my foot into the ground as I walk and the pressure is right under the 1st metatarsal head? Thanks..
reddyb
May 20, 2014
Hi Lisa,
Yes.
A femur which internally rotates excessively can be implicated with hallux valgus (where the big toe is slanted inwards). The first metatarsal could get beat up in something of this nature.
In other words, when the knee goes in, the foot tends to follow. (Or vice versa.)
Andy
September 2, 2014
This is a great explanation – thank you!
I have suspected that I had a retroverted hip for quite some time. I graduated this last year from college, where I was a track and field athlete. I ran the 800 and the mile, and as I increased my weekly mileage later in my career, I started having multiple issues with the first metatarsal head of my right foot. In fact, when I run, it generally feels like there is a lot of extra weight on my right leg. I have also had tracking issues with my left knee which left me unable to run for a period of time, and various IT band issues on my left leg only. However, the majority of my pain and discomfort is always on that first metatarsal head on my right side — like I said, when I run it feels as if my right leg is bearing more weight than my left. I also have trouble getting my left glute and left calf to fire – does this also sound indicative of hip retroversion?
The healthcare providers I’ve seen have diagnosed it as tightness in my Psoas or uneven hips (which maybe was confused with hip retroversion?). I have done numerous prescribed stretches and exercises, but nothing has made much of a difference. However, after doing some of the self tests that are shown above, I’m fairly certain I have hip retroversion.
I guess my main question is, is it possible to strengthen certain muscles groups to compensate for the retroversion? I figure that, considering it’s a structural issue, it’s impossible to “force” your stride to become more uniplanar, so the best bet would be to strengthen in whatever way your natural biomechanics allow. Just thought I would shoot this out there in case you had any suggestions.
Thanks again for a great post!
reddyb
September 3, 2014
Hey Andy,
Things like having more weight on your right leg, inhibited left glute, weak left calf, I doubt that would be due to a retroverted hip. Doesn’t mean you don’t have a retroverted hip, or hips, but those are more likely issues in their own right. (Would be there whether you had the hip condition or not.)
Unless you have severe retroversion it’s unlikely to affect your stride much, if at all. Because the degree of hip flexion in running, particularly in anything less than a sprint, is small, the retroversion is unlikely to come into play.
I’d have to think about this, but when it comes to structural issues, I have a hard time coming up with a scenario where you would want to in anyway try to compensate for the issue. The first line of action is to embrace the structure. That is, talking about strengthening things in the opposite direction implies (to me) one is trying to prevent the joint from going the direction it best handles going.
(Regardless, from the sounds of it, I don’t think worrying about your hip structure is where you should be placing your effort. You sound like you have other issues I’d be working on. If you have a left leg that’s not working well, it makes sense your right leg does more work when running. I’d likely be focusing on getting that left leg to work and move better as a first priority.)