terra rosa issue 18

8/17/2019 Terra Rosa Issue 18

1/65

E-magazinewww.terrarosa.com.au

Open information for Bodyworkers

No. 18, May 2016

PhotobyPattyKou

saleos

otibial band syndrome, Isometrics for tendinopathy, Trochanteric Bursitis, Overpronation,

eak performance with CORE Myofascial Therapy, Interview with Dr. Jean-Claude Guimberteau


2/65

Clinical internship program for advanced certification training in CORE Sports & Performance Bodywork at

XPE Sports in Boca Raton, FL. See page 54. Photos by Patty Kousaleos

54


3/65

Terra Rosa E-mag 1

2 Iliotibial Band Sydnrome

5 Be flexible in our theories—Whitney Lowe

6 Our methods still get results; it’s our explanations

that need updating — Til Luchau

8 Extrapolating results from research to hands-onmanual therapy should be done with caution—Joe

Muscolino

10 Empirical evidence is the reality—Robert Baker

12 Don’t let one study deter you from work on this

area—Art Riggs

19 More on ITB research

22 Isometrics for Tendon Pain – Practical implementationand considerations — Ebonie Rio, Craig Purdam, Sean

Docking & Jill Cook

26 An interview with Dr. Jean-Claude Guimberteau

30 How I treat Trochanteric Bursitis — Tom Ockler, PT

33 Overpronation— Joe Muscolino

47 Overselling Overpronation— Jeff Tan

50 The Hand-L Massage Tool: From Dream to Reality — Bob McAtee, LMT

54 A working experience with CORE Myofascial Therapy —

Taso Lambridis, MSc

59 Research Highlights

62 6 Questions to David Steven

63 6 Questions to Bob McAtee

Contents

Terra Rosa E-magazine, Issue No. 18, May 2016.

www.terrarosa.com.au

PhotobyPattyKousaleos

2

33

50

To subscribe to this e-magazine and body-

work news, visit www.terrarosa.com.au and

send a message from the “Contact Us” page.


4/65

2 Terra Rosa E-mag

Iliotibial Band

Syndrome There is a view that ITB cannot be stretched and current treatment strategies

are outdated, we asked experts on their opinions and treatment options.

Contributions from:

Whitney Lowe, Joe Muscolino, Til Luchau, Robert Baker & Art Riggs


5/65

Terra Rosa E-mag 3

Iliotibial Band Syndrome (ITBS) is a common

overuse injury common with runners and cyclists,

especially when their training levels have recently

intensified. It was reported as the second most com-

mon running injury and most common reason for

lateral knee pain in runners. ITBS can also be asso-

ciated with court sports, strength training

(especially from weight-bearing squats), and evenpregnancy. Other contributing factors can be leg

length differences. ITBS produces burning pain on

the lateral aspect of the knee, and exacerbated by

running, especially downhill.

It is conventionally believed that the pain is caused

by the repetitive movement of the “cabled” iliotibial

band (ITB) sliding back and forth across the outer

surface of the lateral epicondyle. This mainly occurs

in 25° to 30° of knee flexion, irritating the ITB or itsassociated bursa during repetitive activities such as

running. Conventional treatment often locates the

sore spots around the condyle and performs cross-

fibre friction with the aim to break down the adhe-

sions, which will enhance fibroblast generation and

encourage tissue remodelling.

Fairclough et al . questioned this notion that the ITB

moves with respect to the lateral epicondyle during

knee flexion-extension. In a study published inthe Journal of Science and Medicine in Sport in

2007, they stressed that there are several basic

anatomy of the ITB that had been overlooked:

(1) The ITB is not a discrete structure but a thick-

ened part of the fascia lata which envelopes the en-

tire thigh;

(2) It is connected to the linea aspera by an inter-

muscular septum and to the supracondylar regionof the femur (including the epicondyle) by coarse,

fibrous bands which are not pathological adhesions;

and a bursa is rarely present but can be mistaken

for the lateral recess of the knee.

As ITB is a whole structure, the authors believed

that ITB cannot create frictional forces by sliding

back and forth over the epicondyle during flexion

and extension of the knee. This “illusion of motion”

was created by the reciprocal tightening of the ante-rior and posterior portions of the ITB during knee

flexion-extension. They proposed that ITBS is

caused by increased compression of the highly vas-

cularized and innervated layer of fat and loose con-

nective tissue that separates the ITB from the epi-

condyle. The pain can be related to a chronic in-

creased tension of the ITB caused by increased ten-

sion of the TFL or gluteus maximus muscles.

PhotobyPattyKousaleos


6/65

4 Terra Rosa E-mag

The authors concluded that “ITB

syndrome is related to impaired

function of the hip musculature

and that its resolution can only be

properly achieved when the bio-

mechanics of hip muscle function

are properly addressed .”

Another study by Falvey et al .

(2012) conducted an anatomical

examination of the ITB on cadav-

ers. They tested stretching rou-

tines for ITB, and measuring the

actual lengthening of the ITB by

implanting strain gauges in thecadavers’ ITB. They concluded

that ITB is very resistant to

stretch since it lengthened less

than 0.2 percent with a maximum

voluntary contraction. Thus, they

challenged the idea of stretching

the ITB as a treatment for ITBS.

They suggested treatment of ITBSshould treat the muscular compo-

nents of ITB and TFL complex.

Many sceptics and internet gurus

hailed this study as the definite,

claimed that “IT Band Stretching

Does Not Work ”, “Stop abusing

your IT band ”, “You can’t stretch

the ITB”, “It can not lengthen and

it is NOT tight ”, “there is no scien-tific or anatomical reason to be-

lieve that any kind of IT band

stretch is even possible, let alone

an effective treatment ”

We asked experienced teachers

and manual therapists on the im-

plications of these studies, and

treatment strategies for ITBS.

References

Falvey, E. C., R. A. Clark, A. Franklyn‐

Miller, A. L. Bryant, C. Briggs, and P.

R. McCrory. "Iliotibial band syn-

drome: an examination of the evi-

dence behind a number of treatment

options." Scandinavian Journal of

Medicine & Science in Sports 20, 4

(2010): 580-587.

Fairclough, John, Koji Hayashi,

Hechmi Toumi, Kathleen Lyons,

Graeme Bydder, Nicola Phillips, Tho-

mas M. Best, and Mike Benjamin. "Is

iliotibial band syndrome really a fric-

tion syndrome?." Journal of Science

and Medicine in Sport 10, 2 (2007):

74-76. A diagram of compartment-like space around the ITB. Based on Muhle et al.

(Radiology, July 1999).

The conventional view of the iliotibial band friction syndrome. (Illustration based

on: Nicholas & Hershman. The Spine and Extremity in Sports Medicine. Mosby,

1995.)


7/65

Terra Rosa E-mag 5

One of the key hallmarks of practice in muscu-

loskeletal healthcare is the necessity of being flexi-ble in our theories. We must admit that our under-

standing of biomechanics and pathology may

change as research emerges. This concept has been

illustrated very well with emerging research about

the structure and function of the iliotibial band.

It has become quite popular to treat the iliotibial

band with all sorts of the pressure applications,

tools, or the latest craze which appears to be foam

rolling of the iliotibial band. These concepts have allbeen built upon the premise of tightness in the

iliotibial band contributing to knee or hip pain. Un-

fortunately, research has demonstrated that these

treatments are based on a flawed model of iliotibial

band function and pathology.

The most common error that seems to be continu-

ally perpetuated by many in the massage and man-

ual therapy communities is the idea of tightness in

the iliotibial band which is relieved by extensivepressure applications. These soft-tissue treatments

run the gamut from small focused stripping tech-

niques with a thumb, elbow, or pressure tool, to the

broad pressure applications applied during foam

rolling. Yet in all of these approaches the idea is that

deep pressure applied to the iliotibial band will help

relax tightness in the iliotibial band, reduce pain,

and improve function.

Yet this philosophy ignores key components of anat-omy and biomechanics. The iliotibial band functions

predominantly as a tendon. Also, the connective tis-

sue that composes this dense band, has very little

elasticity. Consequently, the iliotibial band is not

designed to stretch and elongate like many people

propose. Because the iliotibial band acts as the ten-

don for two primary muscles, the gluteus maximus

and tensor fasciae latae, its primary function is to

transmit the tensile forces generated by those mus-cles. Attempting to get the iliotibial band to feel

loose like muscle tissue is like trying to get the pa-

tellar tendon to feel loose like the muscle tissuecomprising the quadriceps or hamstring muscles.

Recent biomechanical studies such as the one by

Fairclough have also shed new light on pathological

conditions which have formerly been blamed on the

iliotibial band. For many years the orthopaedic lit-

erature has suggested that iliotibial band friction

syndrome is a pathology caused by repeated rub-

bing of the iliotibial band across the lateral femoral

condyle during flexion and extension of the knee.

These recent biomechanical studies have shown

that the iliotibial band is not as mobile across the

epicondyle as once described. The result suggests

that the lateral knee pain associated with iliotibial

band tightness may have more to do with other mo-

tions such as internal tibial rotation than the once

described friction from rubbing back and forth

across the condyles during flexion and extension.

Our fields of massage and manual therapy are con-

stantly subjected to new fad treatments for address-

ing a plethora of musculoskeletal pain complaints.

In many of these cases there is some initial excite-

ment and success reported with these treatments,

which may often be attributed to the treatment as a

novel experience and early placebo effects. When

time has passed and demonstrated that anatomical

or biomechanical models may be flawed, it’s time to

re-evaluate and possibly abandon them in favour ofmore accurate explanations for what we are at-

tempting to do.

Whitney Lowe has been a massage educator for over

20 years. He researches and authors articles on pain

and injury assessment techniques in numerous publi-

cations.. See his website for more information

www.omeri.com

ITB: Be flexible in our theories— Whitney Lowe


8/65

6 Terra Rosa E-mag

Thanks for the opportunity to comment on the ITBstudies and controversy. I’ve been watching this

debate from a distance since the shrill social media

posts about it began to appear a few years ago, and

now that you’ve called me out, I enter the fray with

a bit of caution, since I am a practitioner and trainer

of practitioners, and not a researcher or academic

per se. But here’s what stands out to me in reading

over the studies, posts, and comments:

1. It’s interesting (though not exactly revolutionary)that the Falvey study described the ITB as a thicken-

ing of the leg’s surrounding fascia latae, "rather than

a discrete entity.” (Of course fascial anatomists have

been saying this about all fascial structures for quite

some time now, but great to see it in a non-manual

therapy study).

2. Similarly, it’s interesting that the ITB was found

to attach to the femur along its entire length. This is

different from the impression gained from conven-tional 2-dimensional anatomy illustrations, but is

consistent with what can be seen in 3D imagery,

such as the Visible Human Project’s data set (Figure

2, used in our trainings as well as in Tom Myers’ and

others), and with cross-sectional images going back

to Grey’s 1918 anatomy atlas (Figure 1). In cross-

section, the ITB is barely visible, and is seen as the

surfacing of a deep inter muscular septum, rather

than a discreet band on the side of the leg.

3. It’s fascinating that no ITB bursas were found in

any of the cadaveric specimen. If this holds true for

living bodies (and in those younger than the study’s

average age of 76 years old), then it suggests that

explaining lateral knee pain as bursal irritation

needs re-thinking.

4. Like Joe Muscolino says in his comments, I’m not

uncertain if results from tissue-stretching and strain

experiments on elderly cadavers can be directly ap-

plied to living bodies of all ages. But it is not surpris-

ing that the ITB was found to be impossible to

lengthen much by stretching. The ITB is a tendon,

its thus its function is probably to transmit or to

store tension, rather than modulate tension by

lengthening as a muscle belly would. (Interestingly,

here is a small study that suggests foam rolling de-

creases jump performance, at least in the short

term: http://digitalcommons.sacredheart.edu/

masterstheses/2/, though it does conclude that ITB

rolling can be beneficial in injury recovery.)

5. It makes sense to me that rolling would not

“stretch” the ITB (even if it was stretchable), or dif‐

ferentiate it from its surrounding tissues (which is

one of the things we think we’re doing in our Ad‐

vanced Myofascial Techniques approach). Greg Leh-

man (who’s iconoclastic perspectives I do enjoy,

even though he probably throws a lot of babies out

with his bathwater) says about this issue "I can’t

fillet a chicken breast with a rolling pin.” In other

words, mashing the ITB may or may not have some

Figure 1. Cross section of the human leg (from Gray’s Anat-

omy).

Our methods still get results; it’s our explanations that need

updating —Til Luchau

http://digitalcommons.sacredheart.edu/masterstheses/2/http://digitalcommons.sacredheart.edu/masterstheses/2/http://digitalcommons.sacredheart.edu/masterstheses/2/http://digitalcommons.sacredheart.edu/masterstheses/2/http://digitalcommons.sacredheart.edu/masterstheses/2/


9/65

Terra Rosa E-mag 7

benefits, but stretching or separating it from its sur-

roundings probably aren’t the explanations for why

ITB rolling helps (or hurts).

6. This issue aside, in my reading over the abstract

and the debates, I don’t find any logic that supports

NOT rolling the ITB, unless you’re 1) overdoing it,

or 2) doing it right before a performance event in-

volving jumping. In fact, many authors sceptical of

the stretching theory allow that there may be addi-

tion benefits not explained by stretching. So instead

of one of the studies author’s blog post title, "Ilio-

tibial Band: Please do not use a foam roller! , a more

logical conclusion might be “Rolling (probably) does

NOT stretch the ITB, but don’t over-do it!”

7. In my hands-on practice, I don’t feel much if any

stretch when I work with the ITB, though I often

think I feel a change in ITB tissue resilience, density,

and differentiation. And of course, clients report a

change in movement, lateral leg proprioception, and

pain as a result of hands- on work, and often, from

rolling their ITB’s themselves. There are several

possible explanations for what I feel, and for the

improvements my clients report, with influences onthe nervous system being the primary suspects, and

any actual change in the tissues’ physical properties

being secondary.

8. After reading the different views on ITB work, I

went and wrote more about my own views as an

article for the May-June 2016 issue of the Massage &

Bodywork magazine here. (See also the video here

https://youtu.be/wYQTcRRugBE)

So in conclusion, here’s more evidence to suggest

that our tissue-based models of manual therapy’s

effects might be less accurate than we thought. But,

that doesn’t mean that the old ways don’t get re‐

sults; it just means we need to stay open-minded

about our explanations about how they do their

good. And once we get clearer about the new mod-

els, they’ll doubtless inspire new ways of working

that we might not have imagined under the old

models.

Til Luchau, Advanced-Trainings.com, is a Certified

Advanced Rolfer and the originator of the Advanced

Myofascial Techniques series.

Figure 2. Cross-section of the human leg, mid thigh, arrows indicate the location of the ITB which extends deep within the leg

via an intermuscular septum that attaches it to the femur along its entire length. Image from the Visible Human Project.

https://www.linkedin.com/pulse/ilio-tibial-band-please-do-use-foam-roller-andrew-franklyn-millerhttps://www.linkedin.com/pulse/ilio-tibial-band-please-do-use-foam-roller-andrew-franklyn-millerhttps://www.linkedin.com/pulse/ilio-tibial-band-please-do-use-foam-roller-andrew-franklyn-millerhttp://goo.gl/KprGAMhttp://goo.gl/KprGAMhttps://youtu.be/wYQTcRRugBEhttps://youtu.be/wYQTcRRugBEhttps://youtu.be/wYQTcRRugBEhttp://goo.gl/KprGAMhttps://www.linkedin.com/pulse/ilio-tibial-band-please-do-use-foam-roller-andrew-franklyn-millerhttps://www.linkedin.com/pulse/ilio-tibial-band-please-do-use-foam-roller-andrew-franklyn-miller


10/65

8 Terra Rosa E-mag

I always enjoy research and the conclusions that arereached from the studies, but extrapolating to hands

-on manual therapy should be done with cau-

tion. As I read the Falvey et al .’s study, it purports

to show that:

1. The ITB has little or no ability to stretch, and

2. there is no bursa located between the lateral

femoral condyle and the ITB.

Therefore, it is unlikely that an ITB friction syn-

drome exists; and that trying to stretch the ITB, spe-

cifically by foam rolling, is not only not a valuable

clinical manual/movement therapy technique, but a

deleterious one.

My specialty is more macro-kinesiology than micro-

kinesiology as discussed here. But here are my gen-

eral thoughts and concerns regarding the study's

findings and conclusions:

1. The tissue used had an age of 76 +/- 10 years.

This means that all subjects were elderly, the tissue

was not representative of younger or even middle-

aged individuals. Soft tissues in elderly people tend

to be less plastic and elastic.

2. Perhaps the presence or lack thereof of a bursa

may be influenced by the age of the cadaver sub-

jects.

3. Beyond all this, I never like to make conclusions

based on research alone. I love research, but it

should not allow us to ignore well-known principles

of anatomy/physiology/kinesiology/histology. To

wit, all soft tissue is to some degree elastic and plas-

tic. Fascia is more so plastic than elastic, meaning it

can be deformed, meaning it can adapt to forces

placed upon it. Indeed, the principle of “creep”

states that soft tissue is deformable when a sus-

tained force is placed upon it. To state thatthe ITB cannot be stretched at all is to throw this

well-accepted principle away. Certainly, much of thepurpose of dense fibrous fascial tissue such as ten-

dons and ligaments (and the ITB is effectively a ten-

don for the TFL and gluteus maximus) is to have

great tensile strength, meaning that it does resist

stretch. Otherwise, tendons would stretch every

time that a muscle contracted, meaning that the

muscle’s contraction force would never be exerted

on its attachments. But, having said this, even dense

fascial tissue must be somewhat plastic and there-

fore deformable/stretchable.

4. Given that all soft tissue is somewhat amendable

to manual therapy, foam rolling, or massage for that

matter, should be somewhat effective. However,

given the dense nature of the ITB, I would believe

that the manual therapy would have to be per-

formed in a very disciplined manner over a long pe-

riod of time (months or years) to be effective.

5. In some ways, the conclusion of this study re-minds me of the controversy over stretching in gen-

eral. There are still many people out there who

claim in some manner that stretching does not

work. Yet, every study I have read shows that IF

stretching is done in a disciplined manner over a

long period of time, it is effective at increasing flexi-

bility. If the act of placing a tensile (stretching) force

can have absolutely no effect upon mechanically

deforming fascial soft tissue, then it would seem

that we are doomed to becoming ever increasingly

tighter and rigid as we age. In a larger picture, this

makes no sense to me. I cannot see how movement,

whether it is formal stretching or non-formal

stretching that occurs as a result of the normal

movement of an active lifestyle can have no effect

on fascial tissue. Fascial tissue is a mechanical struc-

ture that should be able to respond to mechanical

forces. To ignore this is to ignore the entire realm of

biomechanics.

ITB: Extrapolating results from research to hands-on manual

therapy should be done with caution—Joe Muscolino


11/65

Terra Rosa E-mag 9

6. I am actually the last person who should be coun-

tering this article's principle tenet because I believe

that ITB syndrome does not occur anywhere near as

often as it is purported to exist. When ITB friction

syndrome does exist, it should be located directly at

the lateral femoral condyle (or perhaps at the

greater trochanter), but not anywhere along themiddle of the ITB, as it is so often claimed to be pre-

sent. In my opinion, the vast majority of pain any-

where along the ITB (other than the lateral femoral

condyle or the greater trochanter) that is blamed on

the ITB is actually due to tightness in the underlying

vastus lateralis or vastus intermedius. And if this is

true, then I would find that foam rolling (or mas-

sage) would compress the vastus musculature,

which would be a good thing. After all, massage/

manual therapy does work the vast majority of the

time by compressing soft tissue. So to claim that

foam rolling is deleterious is to effectively negate

the entire field of manual therapy. (One can think of

the wonderful Gil Hedley “Fuzz Speech” in which he

describes the benefit of movement and manual ther-

apy toward decreasing the build-up of fascial tis-

sue.) I realize that the author of the study might not

intend to make this claim, but it seems the inescap-

able conclusion of claiming that pressure from foam

rolling should be avoided (unless he is simply ignor-

ing the possible role of the underlying vastus later-

alis and vastus intermedius tissue).

All in all, I find that using the results of this study as

a basis for the conclusions that

1) ITB friction syndrome does not exist, and

2) manual compression therapy (read: foam rolling)

is absolutely ineffective, or worse, deleterious,

would be an unsubstantiated reach.

Joseph E. Muscolino, DC, is a chiropractor in private

practice in Stamford, CT who employs extensive softtissue manipulation in his practice. He has been a

massage educator for more than 25 years . He is the

author of multiple textbooks including The Muscle

and Bone Palpation Manual, and the author of multi-

ple DVDs on Manual Therapy. His website is

www.learnmuscles.com


12/65

10 Terra Rosa E-mag

First, I want to say – great questions and comments.

It really is confusing when you have such well-done

studies like Falvey et al . that present good informa-

tion that the ITB stretches minimally in cadavers.

My response is that the clinician gets to choose

what works and what does not work. The empirical

evidence is the reality. If you use a foam roller and

use soft tissue techniques, both the patient and you

will know what works. Perhaps the first challenge is

helping clients discriminate change in the short and

medium term, with a long term strategy. Both the

foam roller and hands on techniques will likely

move Substance P and other neuro-modulators so a

short term pain reduction may be present. Now if

pain is a factor in increased tone in soft tissue, then

perhaps the overall tone of the entire region mayreduce. It may also be true that kinematics improve,

and muscle activation changes as pain is reduced.

So, the treatment session includes questions about

pain reduction, and perhaps observations of gait,

step down at 6 inches (15 cm) and maybe other

functional tasks. So this clinical assessment of pain

and function and duration of change are key areas

to understand empirical outcome.

From the research perspective, there is evidencethat ITB length does occur with stretching1.

I have never seen a research project that tested

foam roller. However the physiological concept is

moving neuro-modulators, and traditional tack and

stretch soft tissue methods that we use with our

hands and instruments. In the literature, I think ex-

pert opinion favours hands-on techniques2. Concep-

tually, one soft tissue deficit is the bow string effectof the vastus lateral and biceps femoris that I refer-

enced in my review paper. In this case you are try-

ing to normalize the interface between the adjacent

soft tissues to reduce that stress among those struc-

tures. Another conceptual approach is to look at the

overall tone of the soft tissue including the gluteus

maximus and TFL to ITB connects. This is based in

part on the recent work of Carolyn Eng and col-

leagues3 looking at the ITB as an energy absorbing

structure in swing phase and delivers energy back

in stance phase. So in effect, you are normalizing the

tone of the ITB as a musculoskeletal structure inter-

acting with the biceps femoris, vastus lateralis, and

perhaps other muscles that affect running stride.

The point that I am suggesting is that the ITB func-

tions as more than a physical constraint to the lat-

eral knee and femur. It likely has a proprioceptive

role, and may even contribute energy to help run-

ning economy. The role of soft tissue mobilization

may be to promote better tone among the related

ITB: Empirical evidence is the reality—Robert Baker


13/65

Terra Rosa E-mag 11

muscles, and reduce pain caused by neuromodula-

tors, trigger points and perhaps adhesions to

nearby muscles. If you are looking at improved

kinematics by better muscle performance, then the

issue of a length change in the ITB is more an aca-

demic debate than a primary focus. The soft tissue

work readies the muscles to work within their ca-pacity in a pain reduced and overall healthier envi-

ronment.

Muscle contractions and joint kinematics are the

factors to treat. So your body work is trying to assist

in muscle performance: well timed, appropriate du-

ration and well balanced. The soft tissue work aims

at normalizing muscle tone to improve muscle per-

formance: eccentric and isometric muscle activation

from lumbar core through the hip. Reducing pain,trigger points, tension, all normalize muscle tone

and muscle readiness. Promoting the lumbar core

length tension relationships may be a factor as well,

but this is not fully researched.

Your empirical assessment should consider more

than simply pain or ITB length, as an improvement

is better lowering of the body with fewer trunk, pel-

vic and knee deviations. Unfortunately, the root fac-

tor may be non-visible – strain rate issues. So wehave to use kinematic and muscle activation to

gauge strain rate. Hamill et al . 4 found significant

strain rate issues but not significant strain issues. So

you can have a kinetic factor (strain rate) without

necessarily a change in length factor. So the ques-

tion of whether or not the ITB lengthens is not the

only consideration, and may be a secondary consid-

eration.

I will close by suggesting that a person cannot be attheir best if stressed and irritated, and pulled and

pushed while trying to perform. The same is likely

true for the ITB. My suggestion is that the ITB works

with muscles that cannot perform well in a painful,

irritated, push and pull environments. Our tech-

niques should aim to create relaxed muscle tone

and hospitable environments where muscle per-

formance is easier for the entire run and entire day.

The foam roller can be gentle or aggressive, so the

actual method for the foam roller is based on your

goal. If you simply want to move neuromodulators

and ease tone, tweak that method so the ITB is nur-

tured at its own pace. If you want to separate adhe-

sions between neighbouring muscles, perhaps you

modify the technique to stretch and isolate thosestructures as appropriate to any other stretching

technique. Creative use of therapeutic balls may be

even better. Your clinical empirical evidence seems

appropriate to use when assessing these ap-

proaches.

References

1. Fredericson M, White JJ, Macmahon JM, et al .

Quantitative analysis of the relative effectiveness of3 iliotibial band stretches. Arch Phys Med Rehabil

2002;5:589-92.

2. Fredericson M, Guillet M, Debenedictis L. Innova-

tive solutions for iliotibial band syndrome. Phys

Sports Med 2000;2:53-68. doi: 10.3810/

psm.2000.02.693.

3. Eng CM, Arnold AS, Lieberman DE, et al . The ca-

pacity of the human iliotibial band to store elastic

energy during running. J Biomech 2015;12:3341-8.

doi: 10.1016/j.jbiomech.2015.06.017.

4. Hamill J, Miller R, Noehren B, et al. A prospective

study of iliotibial band strain in runners. Clin Bio-

mech (Bristol, Avon) 2008;8:1018-25.

Robert Baker is a Doctoral

Candidate in Orthopedic and

Sports Science at Rocky

Mountain University ofHealth Professions, Provo, UT.

His dissertation is on: Com-

parison of hip muscle electro-

myography and 3D kinemat-

ics in runners with iliotibial band syndrome. He is the

President of Emeryville Sports Physical Therapy in

Emeryville, CA. He specialised in sports and orthope-

dic practice with a blended manual therapy and exer-

cise approach.


14/65

12 Terra Rosa E-mag

What an interesting subject! I appreciate and agreewith most all the comments of your experts, but af-

ter reinforcing some of their statements, I’d like to

take a more informal approach to some of the

broader issues that we therapists must deal with in

interpreting and implementing research studies

into our practices and offer a few strategies for

work.

Of course I agree with the comments questioning

the validity of conclusions about the stretching abil-ity of the ITB from embalmed cadaver studies, and

that even if it does not stretch appreciably, that

benefits from manual therapy to the ITB can still be

achieved and may be due to many other factors

such as neuromodulators, trigger points, or release

of adhesions. I particularly liked Joe Muscolino’s

caveat against extrapolating manual therapy strate-

gies from isolated studies, along with his pointing

out that fibrous tissue has different qualities be-

sides just ability to stretch. I’ll add my skepticism of

jumping to conclusions from purported “evidence-

based” research implying that manual therapy to

the band is ineffective and that treating ITBS, “…can

only (my emphasis) be properly achieved when the

biomechanics of hip muscle function are properly ad-

dressed .” Such exclusionary and simplistic implica-

tions that stretching and manual work on the ITB is

not productive would short-change creative analy-

sis and treatment of a complex situation that ourclients desire. I would also suggest a more complex

“chicken/egg” feedback loop, where the increased

tension and especially pain of ITBS can cause dys-

function of muscles and joints rather than just being

a result of their dysfunction.

The narrow conclusions and implications of treat-

ment of the article remind me of other controlled

cadaver studies stating that the SI joint is immov-

able, and quibbling over distinctions between “true”sciatica and apparent “false” sciatica that seems to

discount overlap in symptoms and effective treat-ment.

Of necessity, careful evidence-based research must

isolate factors, both of anatomy, symptoms, and

treatments. But inference from the study that de-

fines and limits ITBS symptoms as lateral knee pain

and implies that since the ITB can’t be stretched,

attempts to lengthen are useless, is an example of

the pitfalls of improper inference from isolated

facts, especially in brief summaries or abstracts.

Abstracts and capsulized summaries often neglect

many important descriptions of the methods and

conclusions of the studies. A famous comic quipped,

“I used speed-reading for Tolstoy’s War and Peace

and it only took 45 minutes!!!.....It was about Rus-

sia.” More studied reading of the studies and com‐

ments from other researchers exemplify the impor-

tance of more careful reading and consideration of

experiments and data. As a brief example, themeasure of stretch was performed only with ten-

sion devices placed 8 cm proximal to the lateral

condyle of the knee—questionably an accurate

measure of the complex activity of movement of the

ITB during activity.

What is the ITB? It is valuable that the authors point

out that it is not a discrete anatomical entity but a

thickening of the iliotibial tract or fascia latae. So

extrapolating causes and treatment from isolatedmeasurement of the ITB seems “a stretch” of throw‐

ing the baby out with the bathwater. ITBS would

seem to be much broader in scope and this exempli-

fies the importance of semantics when anatomy

makes its way into everyday speech by laymen. We

see this in many other popularizations and simplifi-

cations of anatomy. For many people the “glutes”

seem only to refer to gluteus maximus rather than

the complicated weave of all the posterior pelvicmuscles. To the public, the term “abs” refer only to

ITB: Don’t let one study deter you from work on this area —

Art Riggs


15/65

Terra Rosa E-mag 13

rectus abdominus rather than the complex relation-

ship between the internal and external obliques,

and transversus abdominus, as well as deeper ab-

dominal muscles.

Attempting to isolate the ITB from the more accu-

rate complex of the iliotibial tract and muscular and

fascial connections that go both distal to the knee

and ascend past the pelvis seems misleading. I

think the more functional term “lateral line” (Figure

1) used Ida Rolf, Tom Myers, James Earls and many

other structural integrators is much more useful

and helpful for planning strategy, and henceforth I

will speak to the issues of the term “ITB” with this

broader definition.

Pain along the lateral line also seems much moreextensive than just lateral knee pain caused from

running and other athletic endeavours mentioned

in the article; albeit the information that a bursa

often does not even exist was very interesting. Many

people, including non-athletes report considerable

pain on the entire length of the lateral line. I would

suggest that a tight and misaligned lateral line may

be associated as both a cause and effect of strain

patterns descending to foot balance and plantar fas-

ciitis, and ascending upwards to hip and low backpain and stress patterns.

Also, although the lateral line does indeed act like a

tendon in contraction of the TFL and gluteus maxi-

mus, it is not a tendon and has different cellular

composition with properties of collagen and fascia

with a capacity to alter its texture in response to

manual therapy. Its role is not simply to exert force

on the knee joint like a Newtonian physics pulley. In

many ways it acts like a postural muscle to enablestanding without muscular contraction, providing

lateral stability, and has the important role of dissi-

pating and distributing shock from foot plant.

When stress is applied to the lateral line it actually

recoils like a spring to augment muscular contrac-

tion from above and increase spring in walking and

jumping.

Figure 1. The Lateral line.


16/65

14 Terra Rosa E-mag

Moving Beyond the Study to Applications

Since ITBS is so common, I’d like to move beyond

the “science” of an isolated study to discuss some

issues for treatment. Let’s face it… it is very com‐

mon for clients to come to us seeking manual work

with complaints about pain in the lateral line and

reporting benefit from manual therapy that go well

beyond what would be expected from a placebo ef-

fect. We need to be able to work with this issue

with understanding and skill.

Alignment of stress through joints and tissue by

minimizing torsional strain is at least as important

as simple stretching. Effective therapy should con-

sider global issues of joints, fascia, transmission of

shock, and the differences in the structure of indi-viduals. A good structural integration approach

should consider among others: varus/valgus knee

patterns, internal/external femur rotation, ante-

rior/posterior pelvic tilt and stress from factors in

feet in pronation/supination and inversion/

eversion.

Addressing ITBS causes and treatments

Manual therapy along the entire lateral line in com-

bination with frequent and consistent home pro-

grams is an excellent plan, but it is crucial to recog-

nize that alignment of torsional forces is equally im-

portant. A tight and painful lateral line can be react-

ing to very different body structures and activities

since tissue and structure thicken according to

strain patterns. Assessment of these patterns is cru-

cial for treatment instead of one-size-fits-all uni-

maginative strokes.

Shock transmission: A varus (bowlegged) knee and

a high arched foot in impact related activities will

send shock up the lateral aspect of the leg causing

thickening of the entire area including vastus later-

alus. Working with the feet for more balanced foot

plant by mobilizing the lateral and medial arches to

dissipate shock is often helpful along with attention

to the adductors and medial leg for lateral/medial

leg balance.

Strain and overwork of the lateral leg due to valgus

knees (knock knees) or over-pronation presents a

different problem. This is often a hyper-mobility

issue, and soft tissue work would be considerably

different from the previous example. The lateral

compartments may be compensating in a produc-

tive attempt to provide stability, so stretching the

ITB may be counter-productive. This is not to imply

that thoughtful work on the area should be skipped,but the goals would be to increase circulation, free

adhesions, work with trigger points and to work

with alignment of the knee and hip. Rather than

working to lengthen the ITB, cross-fibre work to

break down adhesions and promote tissue health

and decrease inflammation would be more effective.

Proximal strain patterns: As the authors note, strain

on the ITB is often created from above the knee.

Working with gluteus and TFL as described latercan be very beneficial. In addition to lengthening

and softening these tight muscles, enabling them to

glide over deeper tissues by freeing their anterior

and posterior borders with precise compartment

separation strokes so they may exert force in a di-

rect line depending upon hip flexion or extension.

Visualize rolling the muscles from side to side in

different positions of hip flexion, paying attention to

any possible bias for restrictions on each side.

More global issues: Don’t be too muscle specific in

treatment; consider broader factors that may influ-

ence strain and torsion upon the hip, knee, and feet,

including looking at broad fascial strain patterns

that may transmit over several body segments.

Shoulder carriage, tight lumbar fascia, quadratus

lumborum, or hamstrings that are associated with

pelvic tilt can significantly improve distribution of

strain.

Clarity in intention with touch

The key to softening, lengthening, and aligning fi-

brous tissues is to grab and stretch the tissue rather

than just sliding over it and compressing it. Use lu-

brication sparingly to enable a good grip and stretch

on whatever layer you are working on. The biggest

complaint I hear is from too aggressive and painful

work. Almost always it is a result of two factors:

First , working too fast so tissue does not have

enough time to melt and cooperate; this actually can


17/65

Terra Rosa E-mag 15

result in a rebound that counters your attempt to

promote lasting release.

Second , working too vertically and painfully com-

presses the ITB and other fibrosed tissue againstthe femur. This is the same drawback with foam

rollers that several others mention. We are trying to

elongate and align tissue, not squeeze and com-

press. The only force necessary is to slowly sink

into whatever level you wish to free, then to grab

without sliding and then apply force distally (rather

than proximally since compression from activities

“jams” the tissue upwards) at a very oblique angle

while also working for alignment.

It is crucial to have clarity on your intention and

techniques rather than just performing rote strokes

without consideration of the depths of restriction.

Different layers should be able to slide over each

other. I teach the following examples in detail in

classes, but limitations on space prevent that now.

They are not intended as specific directions but as a

conceptual way of working.

Free, align, and lengthen superficial fascia beforeaddressing deeper layers , so it can slide over the

fascia lata and consider fascial restrictions above

and below the area of lateral pain. Work with broad

and soft touch using fingers or palms of the hand to

feel the superficial fascia glide over the facia latae.

This can be done in neutral positioning, but adding

stretch to the entire complex can be accomplished

by adducting the leg across the midline. Examples

here demonstrate the supine position (Figure 2)and a more aggressive stretch having the client in

side-lying assisted by gravity with the leg extended

and hanging off the table (Figure 3).

After working superficial fascia, sink to the next

layer and very slowly “iron” the entire fascia

latae by grabbing and sliding with it for length and

direction, feeling for wrinkles and thickening and

waiting for the tissue to melt. Pin and stretch

strokes are an effective strategy using a soft fore-

arm or fists. Rather than just working in a neutral

position, lengthening the lateral line by body posi-

tioning when working is also very helpful add

stretch (Figures 2 & 3).

Figure 2. Stretching the lateral line by adducting leg past

mid-line.

Figure 3. Working on the ITB in side-lying position, puttingthe ITB on a stretch .


18/65

16 Terra Rosa E-mag

Free and clarify anterior and

posterior borders of the ITB by“compartment separation”

strokes. Notice if the band seems

restricted on one side more than

the other and clarify the bounda-

ries with precise strokes (Figure5).

Free large groups of muscles

and fascia to slide over deeplayers, including the femur. Free

the lateral line to slide over the

deeper vastus lateralus and then

roll the whole quadriceps group

and lateral compartment around

the femur, paying attention to

whether if presents a bias to

move medially or laterally and

working to help it pull in a

straight line from the hip to the

knee. Grab the entire complex to

slide and rotate over deeper tis-

sues and, in turn, visualize sliding

all layers to roll around the femur

where they seem “stuck” to the

bone. (Figure 6).

Figure 4. Softening the lateral line.

Figure 5. Compartment separation strokes along the anterior or posterior border

of the ITB.


19/65

Terra Rosa E-mag 17

Soften and elongate the muscles

that attach to the ITB , but pay

particular attention to freeing

them from adjacent or deeper

restrictions. Perform muscle

separation strokes along anterior

and posterior border of the TFL

which may be exerting torsionfrom adhesions along the ante-

rior or posterior border. “Roll”

the muscle using precise pressure

with a fist or knuckles so it can

work freely in different degrees

of hip flexion and extension. Also

work along the borders of the

gluteus maximus, especially at

fibrous build up at its lower at-

tachment and to free it to slide

easily from adhesion to the

deeper rotators (Figure 7).

Home Exercise

ITBS needs frequent incremental

work; it seems unrealistic to cre-

ate beneficial change by treating

every week or two. Trying to

make up for lost time betweentreatments can result in over-

aggressive treatment that can

increase symptoms. A home pro-

gram is essential. As others men-

tion, I’m not a big fan of the foam

roller although it certainly seems

to be popular. So it may be a

worthwhile approach for somepeople, although I think other

options are more effective and

humane. One limitation with the

foam roller is that it is difficult to

work in tangential directions (the

ball that Bob Baker mentions can

solve this and also allows for dif-

ferent levels of inflation to not be

painful.) Foam rollers present an

all-or-none situation by having all

Figure 6. Grabbing, rolling, and mobilizing the ITB from both deep restrictions

and from adjacent, parallel muscles.

Figure 7. Soften and elongate the muscles that attach to the ITB.


20/65

18 Terra Rosa E-mag

of one’s weight on the roller which is often too in‐

tense for a painful ITB, and can also require a fair

amount of strength in the shoulder girdle to move

the body and maintain a side-plank yoga posture

and create back strain. Too aggressive and perpen-

dicular manual work using excess lubrication that

prevents grabbing tissue has the same drawback.

The biggest drawback to the roller is that it only

compresses tissue (picture a tire rolling over soft

ground and leaving an imprint) rather than the all-

important stretching and alignment that are benefi-

cial. For this reason I recommend using a stick of

some sort that allows for different directional vec-

tors, variation in pressure, access to adjacent tissue

such as lateral hamstrings or quadriceps, and espe-

cially, the ability to grab and stretch tissue approxi-

mating manual work rather than just compressing.

In the following example (Figure 8), the client is us-

ing a Theracane which allows for pinpoint pressure

to trigger points from the hip down the entire leg

and of course anywhere else on the body. It is also

useful to create balance with the adductors while

comfortably sitting in a chair. Almost all clients I

show this technique to feel it is far more effective

and easy to tolerate than foam rollers.

Good luck! And don’t let one study deter you from

work on this area. Clients want and appreciate

work whether for ITBS or just to ease strain and

tension. Properly performed manual work on the

lateral line not only is helpful for treatment of ITBS,

but feels worthwhile and actually pleasant to most

everyone.

Art Riggs is a certified ad-

vanced Rolfer who has been

practicing and teaching in the

San Francisco Bay area and

internationally for over more

than 20 years. His graduate

studies were in exercise physiology at the University

of California in Berkeley. He is the author of Deep Tis-

sue Massage: A Visual Guide to Techniques, now in a

second edition and translated into five languages,

and the seven volume companion DVD set. He just

released a new "Deep Tissue Massage-A Full Body

Integrated Approach" DVD set. His website is at

www.deeptissuemassagemanual.com.

Figure 8. Using a Theracane to "iron" dense tissue in different directions down the entire leg.


21/65

Terra Rosa E-mag 19

Does the Iliotibial Band Move?

A study by Elsing et al. (2013) examined whether the ITB

moves relative to the lateral femoral epicondyle (LFE) as a func-

tion of knee flexion in both non–weight-bearing and weight-bearing positions in asymptomatic recreational run-

ners. Evaluation using ultrasound on the ITBs of 20 male and

female asymptomatic recreational runners clearly showed an

anteroposterior motion of the ITB relative to the LFE during

knee flexion-extension. The ITB does, in fact, move relative to

the femur during the functional ranges of knee motion.

Jelsing, E. J., Finnoff, J. T., Cheville, A. L., Levy, B. A., & Smith, J. (2013). Sono-

graphic Evaluation of the Iliotibial Band at the Lateral Femoral Epi-

condyle Does the Iliotibial Band Move?. Journal of Ultrasound in Medi-

cine ,32(7), 1199-1206.

Iliotibial band stores and releases

elastic energy during running ITB can only found in homo sapiens, and it has been hypothe-

sised that ITB allows us to stand upright. A study from Harvard

published in May 2015, examined how the ITB stores and re-

leases elastic energy to make walking and running more effi-

cient. The researchers developed a computer model to estimate

how much it stretched ― and by extension, how much energy it

stored — during walking and running. They found that ITB’s

energy-storage capacity is substantially greater during running

than walking, and that’s partly because running is a much

springier gait.

Lead author Carolyn Eng explained the role the ITB plays in loco-

motion: One part of the IT band stretches as the limb swings

backward, Eng explained, storing elastic energy. That stored

energy is then released as the leg swings forward during a stride,

potentially resulting in energy savings. It’s like recycling energy,

replacing muscles with these passive rubber bands makes mov-

ing more economical. There are a lot of unique features in hu-

man limbs — like long legs and large joints — that are adapta-

tions for bipedal locomotion, and the ITB just stood out as some-

thing that could potentially play a role in making running and

possibly even walking more economical. Their calculation

showed that largest strains in the anterior part of ITB occur inearly swing with ITB stretching 0.9–1.7 cm beyond slack length.

Meanwhile peak strains in posterior part of ITB occur in late

swing, stretching 1.4–3.0 cm beyond slack length.

We asked Dr. Eng on how she measured the strains of ITB and

the difference with the study by Falvey et al.

“In their study, Falvey et al. measured strains in the ITB when

the subject's joint angles are static and not changing. I am not

surprised that their results suggest small strains in the ITB be-

cause they do not account for the muscle/ITB strains occurring

when the joints move (e.g., hip and knee flexes for the posterior

ITB). These joint angle changes play an important role in deter-

mining ITB strains in my study.”

“The ITB is undoubtedly integrated with other muscles and con‐

nective tissues in the limb and this determines the large forces

being transmitted through the structure. While some of the

forces generated by the muscles at the hip (i.e., gluteus maximusand tensor fascia lata) may be lost with their connections to

other structures/tendons at the hip, a large portion will still be

transmitted to the knee via the ITB. Using cadaveric dissections,

I determined the percentage of the hip muscles' cross-sectional

area (and hence, force) that inserts on and is transmitted to the

ITB and my calculations did not include the portions of these

muscles that insert on bone or other tendinous structures at the

hip.”

Eng, C. M., Arnold, A. S., Biewener, A. A., & Lieberman, D. E. (2015).

The human iliotibial band is specialized for elastic energy storage

compared with the chimp fascia lata. The Journal of Experimental

Biology , 218(15), 2382-2393.

Questioning the Ober Test

The Ober test is the most commonly recommended physical

examination tool for assessment of ITB tightness. Willet et al.

(2016) questioned the validity of the Ober test. They conductedan experiment using embalmed cadavers. They refute the hy-

pothesis that the ITB plays a role in limiting hip adduction dur-

ing the Ober test and question the validity of these tests for de-

termining ITB tightness. The study suggests that the Ober test

assesses tightness of structures proximal to the hip joint, such

as the gluteus medius and minimus muscles and the hip joint

capsule, rather than the ITB.

Willett, G. M., Keim, S. A., Shostrom, V. K., & Lomneth, C. S. (2016).

An Anatomic Investigation of the Ober Test. The American Journal

of Sports Medicine , January 11, 2016.

More on ITB Research

http://www.jultrasoundmed.org/content/32/7/1199.shorthttp://www.jultrasoundmed.org/content/32/7/1199.shorthttp://www.jultrasoundmed.org/content/32/7/1199.shorthttp://jeb.biologists.org/content/218/15/2382http://jeb.biologists.org/content/218/15/2382http://jeb.biologists.org/content/218/15/2382http://ajs.sagepub.com/content/early/2016/01/08/0363546515621762.abstracthttp://ajs.sagepub.com/content/early/2016/01/08/0363546515621762.abstracthttp://ajs.sagepub.com/content/early/2016/01/08/0363546515621762.abstracthttp://ajs.sagepub.com/content/early/2016/01/08/0363546515621762.abstracthttp://ajs.sagepub.com/content/early/2016/01/08/0363546515621762.abstracthttp://jeb.biologists.org/content/218/15/2382http://jeb.biologists.org/content/218/15/2382http://www.jultrasoundmed.org/content/32/7/1199.shorthttp://www.jultrasoundmed.org/content/32/7/1199.short


22/65

20 Terra Rosa E-mag

Deep Tissue Massage : An Integrated Full Body Approach – Coordi-

nating Deep Tissue and Myofascial Release into a Fluid Bodywork

Session by Art Riggs. This extensive new set (seven DVDs, over 9 hours)

was created after countless requests from therapists who loved the first

set, “Deep Tissue Massage and Myofascial Release” but were having trou‐

ble working the therapeutic philosophy and techniques into a fluid deep

tissue massage, especially in a spa setting. Rather than discrete sections

like the previous set, we move from A to Z, covering the whole body in a

common sequence of beginning in prone, moving to supine with a whole

segment devoted to the important side-lying position. Since the focus is

upon smooth massage, we spend less time on biomechanics, the great de-

tail on strategies and techniques and anatomy offered in the first set, but

still provide a huge number of specific nuts and bolts techniques.

Advanced Myofascial Techniques, Volume 2 by Til Luchau is

the second of two beautiful, information-packed guides to highlyeffective manual therapy techniques. Focusing on conditions of the

neck, head, spine and ribs Volume 2 provides a variety of tools for

addressing some of the most commonly encountered complaints.

With clear step-by-step instructions and spectacular illustrations,

each volume is a valuable collection of hands-on approaches for

restoring function, refining proprioception, and decreasing pain.

Invaluable for practitioners, teachers, and students of hands-on

manual therapies.

New Books & DVDs

Traumatic Scar Tissue Management, Therapeutic massage princi-

ples, practice and protocols by Nancy Keeney Smith and Cathy Ryan.

The management of scar tissue is a huge and growing problem for mas-

sage and other manual therapists. Many are afraid to deal with it but re-

search has showed that appropriate massage treatment can have signifi-

cant results both physically and psychologically. Existing books have

chapters on the problem but there is no practical manual available on the

subject at the present time which tells the therapist what to do (and what

not to do). This book fills that gap, explaining the physiologic and patho-

physiologic background, and providing practical guidance about how to

help patients.


23/65

Terra Rosa E-mag 21

Myofascial Trigger Points (MtPs) Versus

Neuropathies

unique integrated neuromuscular approach for the

treatment of unresolved pain due to MtPs or nerve

insults.

-3 June 2016 This is that one stop workshop that

overs everything you need to know about identifying

nd treating Myofascial Trigger Points and nerve injury.

avid G Simons (Travel and Simons), the father of Myo-

scial Trigger Points was mentor to John Sharkey and

rote the forward to John’s first book (a trigger pointanual). Differentiating between neural generated pain

nd Myofascial Trigger Point pain is essential in provid-

g the correct soft tissue interventions for successful

erapeutic outcomes.

The Theory of Everything — BioTensegrity, anatomy for the 21st century

1-12 June 2016 This workshop is ideally suited to the advanced manual and movement therapist with appropri-

ate clinical experience and a desire to take on fresh new ideas, new models and a new way of thinking. Therapists

are warmly encouraged to demonstrate their current screening, assessments and therapeutic applications with John

while he will provide feedback and suggestions offering a new vision supported by connective tissue techniques for

uccessful manual and movement interventions for all participants. This workshop provides you, the chronic pain sol-

dier the effective full body kinetic chain ammunition you need in the war on pain.

ohn Sharkey MSc is a world renowned presenter and authority in the areas of bodywork and move-

ent therapies. He is a Clinical Anatomist (BACA), Accredited Exercise Physiologist (BASES) and Foun-

er of European Neuromuscular Therapy with more than 30 years of experience gained throughout his

areer working alongside his mentors and colleagues Leon Chaitow, David G. Simons, Stephen Levin

D, Prof. Kevin Sykes. John is recognised as a leading protagonist of BioTensegrity (providing new

odels and paradigm shifts concerning living movement and anatomy promoting therapeutic interven-ons for the reduction of chronic pain.

The Final Frontier

Working within Endangerment sites, providing

Manual and Movement Techniques to stay mobile

and pain free.

4-5 June 2016 This informative workshop provides

therapists with the necessary anatomical and palpatory

excellence to expertly navigate the holy grails of the hu-

man body (endangerment sites). Providing safe neuro-

muscular techniques using digital applications guaran-

tees effective therapeutic interventions for soft tissue

based chronic pain conditions. Through your newfoundanatomical knowledge and unique hands-on clinical

pearls each learner will develop a greater appreciation

of local and global anatomical connections.

A N AT O M Y F O R T H E 2 1 S T C E N T U R Y

BIOTENSEGRITY with John SharkeySydney, June 2016


24/65

22 Terra Rosa E-mag

Tendinopathy, pain and dysfunction in the tendon,

can be difficult to treat. Traditionally eccentric ex-

ercise has been used in the rehabilitation of tendi-

nopathy and has been shown to be superior to con-centric only and passive treatments. However,

there are many instances where the use of eccentric

exercise is unhelpful or in fact detrimental, for ex-

ample the in-season athlete where adherence is

poor or pain may increase. Even those who work

with the non-athletic population know that adher-

ence is a challenge as eccentrics are painful to com-

plete 1.

Recent research has demonstrated a positive effect(reduced tendon pain, reduced motor inhibition and

improved muscle performance) following isometric

exercise in patellar tendinopathy 2,3, supporting the

pioneering clinical use by Jill Cook and Craig Pur-

dam4. However, this isn’t quads over fulcrum….

Clinicians need to understand a number of concepts

around the use of isometric exercise in tendinopa-

thy. The research has been conducted in the patel-

lar tendon, however clinically we are using withother lower limb tendons. Key considerations in-

clude; differential diagnosis (how to pick if the ten-

don is the source of symptoms), how to remove

abusive loading and use loading for analgesia and

how / when to progress.

Differential diagnosis

Patellar tendinopathy (pain in the tendon at the

front of the knee) occurs in jumping athletes or

those that change direction quickly5. It has two hall-

mark features:

Isometrics for Tendon Pain –

Practical implementation andconsiderations

By Ebonie Rio, Craig Purdam,Sean Docking & Jill Cook

Fig. 1. Patellar tendon pain commonly felt localised at the

inferior pole.

A recent research has demonstrated a positive effect in patellar tendinopathy following isometric exercise.

This articles shares a number of practical considerations in implementing it.


25/65

Terra Rosa E-mag 23

(1) pain remains very localised to the in-

ferior pole (people can point with one fin-

ger and it doesn’t move or spread) (Fig.

1), and

(2) dose dependent pain with increasing

energy storage tendon load.

A good way of remembering this is that

people with patellar tendinopathy can

ride a bike without pain because it isn’t

energy storage of the patellar tendon but

jumping is painful, even though both ac-

tivities use their quadriceps muscles.

We found differences in the motor re-

sponses (termed corticospinal excitabil-

ity) of people with localized pain com-

pared to people with more diffuse ante-

rior knee pain6. Clinically, we also see

that the use of heavy isometrics is better in those

that fit the above description of patellar tendinopa-

thy. Those with diffuse anterior knee pain, for ex-

ample patellofemoral pain, often do not tolerate

heavy leg extension holds! This clinical considera-

tion is so important. Remember it is a clinical diag-

nosis and not an imaging based diagnosis. Peoplewith imaging changes in their patellar tendon can

have pain driven from another source (such as pa-

tellofemoral pain) – we see this often.

How to remove abusive loading

Anything that asks the patellar tendon to store en-

ergy and release it is difficult, for example quick

lunging and change of direction and jumping.Therefore, athletes may need to reduce these types

of activities if their tendon is showing signs of not

coping. Signs of not coping can be seen in the re-

sponse to tendon load 24 hours later. For example

if someone plays volleyball and the next day they

are no more sore, we would consider this load to be

within their capacity7. Whereas, if their pain spiked

we would consider the load to be greater than their

capacity. This concept is important as is under-

standing how to improve capacity – find the level of

loading that they tolerate and make small incre-

ments after you address and any changes. Of course

there is a bit more to it that cannot be covered here!

Isometrics for patellar tendinopathy

We conducted pilot testing to see what factors were

important in using isometrics. It seems for tendons,

it needs to be heavy and time under tension is im-portant. We tested lots of combinations and found

5 x 45 seconds (with 2 minutes rest for muscle and

central recovery) was effective. It was heavy – 70%

of their maximal voluntary quadriceps contraction.

Using brain imaging techniques, we were also able

to see that isometrics reduced motor inhibition so

not only were people in less pain (a lot less pain)

they had less inhibition and therefore were 19%

stronger! The exercise was conducted on a leg ex-

tension machine (Fig. 2). We also completed an in-

season trial to show that they can be used in-season

to reduce pain and allow participation. We have

also completed an isometric research using the

Spanish squat belt (see Spanish Squat Exercise) that

is currently being prepared for journal submission.

Conclusion

Isometric exercise can be used to reduce tendon

pain – immediately and without decline in muscle

performance when used as tested. The research is

Fig. 2. Mid-range knee extension.


26/65

24 Terra Rosa E-mag

currently in patellar tendinopathy with more to fol-low. It is important to determine whether the ten-

don is the source of symptoms or at least determine

whether they are likely to respond positively to that

approach.

Ebonie Rio has a PhD and a Masters in Sports Physiotherapy,

Bachelor Physiotherapy (Hons) and Bachelor of Applied Sci-

ence. She is currently a post doctoral fellow at La Trobe Univer-

sity and also work at the Victorian Institute of Sport.

Craig Purdam is the Deputy Director of Athlete Services and the

Head of Physical Therapies at the Australian Institute of Sport. He

has worked as a clinician in elite sport for over 30 years and has

been a physiotherapist to five Olympic Games (1984-2000) .

Sean Docking has a PhD and a Bachelor Health Sciences (Hons)

and is currently a Post doctoral fellow at La Trobe University. His

research interest is in tendon injury.

Jill Cook is a Professor at La Trobe University Sport and Exercise

Medicine Centre. Her research interests are in tendon injury,

tendon pathology, sports injuries, and musculoskeletal injuries.

References

1. Alfredson H, Pietila T, Jonsson P, et al. Heavy-load eccentric calf mus-

cle training for the treatment of chronic Achilles tendinosis. Am J Sports

Med 1998;26(3):360-6.

2. Rio E, Kidgell D, Moseley GL, et al. Tendon neuroplastic training:

changing the way we think about tendon rehabilitation: a narrative

review. Br J Sports Med 2015.

3. Rio E, Kidgell D, Purdam C, et al. Isometric exercise induces analgesia

and reduces inhibition in patellar tendinopathy. Br J Sports Med

2015;49(19):1277-83.

4. Cook JL, Purdam CR. Is tendon pathology a continuum? A pathology

model to explain the clinical presentation of load-induced tendinopathy.

Br J Sports Med 2009;43(6):409-16.

5. Malliaras P, Cook J, Purdam C, et al. Patellar Tendinopathy: Clinical

Diagnosis, Load Management, and Advice for Challenging Case Presen-

tations. J Orthop Sports Phys Ther 2015:1-33.

6. Rio E, Kidgell D, Moseley GL, et al. Elevated corticospinal excitability

in patellar tendinopathy compared with other anterior knee pain or no

pain. Scand J Med Sci Sports 2015.

7. Cook JL, Docking SI. "Rehabilitation will increase the 'capacity' of

your ...insert musculoskeletal tissue here...." Defining 'tissue capacity': a

core concept for clinicians. Br J Sports Med 2015;49(23):1484-5.

Spanish Squat Exercise

This exercise is designed to reduce patellar tendon pain and

should be done daily as shown below.

1. Position belt around a sturdy pillar. The belt is long so any

size pillar/pole may be used. Just wrap the belt as many

times around pillar as needed so that when you step one

leg inside each loop, the belt is around upper calf and

your toes against pillar as shown. Make sure loops are

even.

2. Place legs inside loop (one in each) with toes positioned

against the pillar to stop you sliding.

3. Squat back as deep as possible keeping your spine upright

– don’t lean forward. These two pictures show different

ranges but both have a straight spine.

Aim for thighs parallel to ground (e.g. picture on the right)

but it is more important that your spine is straight, not how

deep you are. Go as deep as you can hold.

Hold this position for 45 seconds five times. Have a two

minute rest in between each squat. Don’t come down &

up stay squatting down for the whole 45 seconds!

It is possible that the tendon may be slightly uncomfortable,

usually early in the first squat, but this improves.

Don’t lean your trunk for-

ward.


27/65

Terra Rosa E-mag 25

Functional Fascial Taping

with Ron Alexander

“Evidence- Based Pain Relief”

This workshop teaches a fast and simple way for clinicians to reducepain, improve function, encourage normal movement patterns andrehabilitation of musculoskeletal pathologies in a pain-free environ-ment.

FFT has been shown to have a significant effect on Non-SpecificLow Back Pain in a randomised double-blind PhD study. FFT is anon-invasive, immediate, functional and an objective way to de-crease musculoskeletal pain.

Presenter:

Ron Alexander— STT [Musculoskeletal],

FFT Founder and Teacher

Brisbane 16-17 July 2016Melbourne 23-24 July 2016Sydney 30-31 July 2016

Register Now at:

www.terrarosa.com.au

A great way to encouragetreatments

to hold longer

http://www.terrarosa.com.au/http://www.terrarosa.com.au/


28/65

26 Terra Rosa E-mag

In Architecture of the Living Fascia, The extracellular

matrix and cells revealed though endoscopy, Dr.

Guimberteau, a hand surgeon, gives us a direct view

from the surface on the skin deep to the bone. Dr

Guimberteau is the first person to film living humantissue through an endoscope in an attempt to under-

stand the organisation of living matter.

He discovered that within the extracellular matrix

(ECM) there is a continuous, bodywide, multifbrillar

network of fibres and fibrils, extending from the sur-

face of the skin to the periosteum. In addition, there

are no distinct separate layers within this continuum

of living matter.

What led you to the discovery and study of the

architecture of the connective tissue.

I was seeking a technical procedure to reconstruct

flexor tendons, when I came upon the sliding sys-tem that I termed the MVCAS (Multimicrovacuolar

Collagenic Absorbing System). I first used a micro-

scope to understand how it was working. This tis-

sue, which neatly ensures the efficacy of gliding

structures and their independence, is composed of a

network of collagen fibrils whose distribution

seems to be totally disorganized and apparently il-

logical at a first sight. This impressed me because

my Cartesian mind could not come to terms with

the idea of chaos and efficiency co-exists perfectly.

This was the starting point for an intellectual voy-age that took me far from the beaten track and off

An interview with

Dr. Jean-Claude GuimberteauDr. Jean-Claude Guimberteau is a hand surgeon renowned for his live fascia

film Strolling under the Skin. We recently talked with him about his new book.


29/65

Terra Rosa E-mag 27

into the largely unknown world of fractals and chaos.

Dr Guimberteau, you described the "fibrillar" net-

work that can be found from the superfical to thedeep.

Just take an endoscope and descend slowly from the

skin surface until the depth of the bone and you will

realize that there is a continuum of fibrillar of vari-

able diameter, irregular, fractal but formed within an

uninterrupted continuum. We know now that there

is also a microfibrils cytoskeleton framing the cell

which is linked to the ECM. The body thus can be de-

scribed with a real architecture fibrillar at all levels.

We can visualise our body as a global structure with

a specific, three-dimensional architecture made up

of elements that, while fragile, have a persistent ca-

pacity for adaptation.

Is this the same as the superficial and deep fascia?

It is completely different from the superficialis or

deep fascia which are only local and functional den-

sifications of this fibrillar network.

This opens towards another body concept , a newstructure ontology that living human matter is not

an addition of organs linked by a connective tissue

but contrary, constituted by a structured fibrillar

mesh in which the organs have developed. The con-

nective tissue’s role is far more important than sim‐ply connecting, it is in fact the constitutive tissue.

Through our observations, we see how this elabo-

rate microfbrillar construction, composed of mi-

crovacuoles filled with collagen and glycosaminogly-

cans or with cells, is capable of adapting to all types

of constraint in three dimensions, thanks to its mo-

bility and other inherent properties.

You also mentioned that a living form has to be

structured, as well as mobile, supple, adaptableand self-sufficient.

Indeed, finding a global fibrillar structure framing

the body and structuring the form, already provides

an architectural explanation. But when you observe

that these fibres have an ability to stretch, split, slip,

a capacity of adaptability , to absorb stresses, you

understand that this fibrillar system provides the

movement, flexibility, resistance to the force of grav-

ity and allows morphogenesis.

The mobility, flexibility, and elasticity of the fibrillar structures create a gigantic firework display of fibrillar movement.

(From Guimberteau, 2016, Handspring Publishing).


30/65

28 Terra Rosa E-mag

You made an observation on the effect of manual

therapy under the skin. Can you tell us what hap-

pened?

We filmed several times, in association with a man-

ual therapist, during surgeries the effects of massage

on the skin.

When you move the skin, all the components move

together, you can observe the hypodermis and lob-

ules twirling, the underlying sliding system adopting

all the postures, the fibres intersecting, intertwining,

without breaking. There is a harmony in motion.

But in addition, looking more closely, you can see the

vessels with red blood cells in movements and espe-

cially the cells changing of shape and having smallmovements between them. The influence on cy-

toskeleton is obvious.

Massage undoubtedly has a mechanical and visible

effect on all the structural elements and at least 10

cm around the massaged area.

You can see these video sequences on the DVD from

my book Architecture of Human Living Fascia, The

extracellular matrix and cells revealed though endo-

scopy , Handspring Publishing, 2015.

A microvacuole can change shape (adapt) by stretching, widening, or shortening, and still be able to return to its initial

shape. These changes occur simultaneously and in synchrony with the movements of the fibrillar system to return to

its initial shape. (60 × magnifications). From Guimberteau, 2016, Handspring Publishing).

This beautifully illustrated book and DVD introduce Dr Guimberteau's ground-

breaking work. He is the first person to publish "movies" showing the structure of

the fascia and how the fascia responds to. The book and accompanying DVD pro-

vide, for the first time, an explanatory introduction and explanation of these theo-

ries and link them to the visual evidence shown in the video.

Available at www.terrarosa.com.au


31/65

Terra Rosa E-mag 29

Healing with Yoga by Jeanine Orbuchay & Dr. Joe Mus-

colino. This video is designed to allow anyone to practice yoga, ei-

ther by simply focusing on key parts of the body, or by doing a full-

body practice from start to finish. Additionally, viewers can learn

about each part of the body they are interested in, including the lo-

cation and function of each muscle group, how to palpate it, and how

to stretch and strengthen it.

Choose to go straight through an all-levels yoga practice focusing on

one muscle group at a time, or watch each anatomy, functionality

and palpation description of the muscle groups before each group of

yoga poses. Either way you choose to view it, start expanding your

experiential understanding of the anatomy of the human body.

The Concise Book of Muscles, 3rd Edition by Chris Jarmey and John

Sharkey is designed in quick-reference format to offer useful information about the

main skeletal muscles that are central to anatomy, physical therapy, massage, chiroprac-

tic, physiotherapy, osteopathy, or any other health-related field. Each muscle section is

colour-coded for ease of reference. Enough detail is included regarding each muscle’s ori-

gin, insertion, action, and nerve innervation (including the nerve’s common course or

path) to meet the requirements of the student and practitioner.

The book also highlights those muscles that are heavily used and therefore subject to in-

jury in a variety of sports and activities, as well as offering a range of exercises that can be

used to stretch or strengthen a specific muscle or muscle group.

The Original Body, Primal movement for yoga teachers by John Stirk ad-

dresses the physiological experience of yoga. The soft tissue, skeletal, fluid and spatial

sensations experienced in practice are considered in sequence and collectively as the

reader becomes drawn into a depth of feeling and understanding that lies beyond prac-

tice. Yoga teachers are shown how to use a deeper ‘feeling’ to unveil an innate powerful

physical wisdom. This includes bringing together anatomical visualisation and imagina-

tion, the development of awareness as a movement, and the management of sensation.

This book focuses on honing and harnessing the practitioner’s essential experience in

order reveal a more profound style of teaching from within. Teachers are invited to con-

sider the impediments to a deeper practice and will be taken through the common factors

inhibiting sensory pathways. These include conditioning, habit, trauma, anxiety, non-

essential thought and the effect of technique and methodology in teaching.

Advanced Myofascial Techniques: Migraines & Headaches by Til Luchau.

This DVD shows the complete instructor demonstrations from the popular Advanced Myo-

fascial Techniques: MIGRAINES & HEADACHES course. Includes supplemental tech-

niques not shown in live courses.

Learn Advanced Myofascial Techniques that can dramatically improve your ability to work

with all types of headaches and migraines, plus ear and sinus issues, vertigo, and more.

New Books & DVDs


32/65

30 Terra Rosa E-mag

How I treat Trochanteric Bursitis

Tom Ockler, PT


33/65

Terra Rosa E-mag 31

A diagnosis of trochanteric bursitis can be tricky for

several reasons. The US healthcare (sick care)

system encourages high volume so accuracy is low

on the importance scale. The diagnosis may just be

hip pain, or it may actually be trochanteric bursitis.

Regardless, over the years I have found that most

times there is no evidence of bursitis. It’s justfaster to give it an important sounding diagnosis.

No matter what the diagnosis, the hip requires a

thorough investigation to narrow down the actual

issue.

To me, it’s quite obvious the trochanteric bursa

does not become inflamed for no good reason. To

simply calm down the bursa ( treat the symptom) is

helpful but if you do not correct the underlying

causes for the issue, it will be a lengthy course oftreatment at best and at worst, a repeating problem

that can effect gait and therefore impart imbalanced

forces on the entire lower extremity. A cascade of

orthopedic and musculoskeletal sequelae can lead

to a chronic pain syndrome.

The most common complaint is that the patient

can’t lie on the painful side at night. Sometimes even

lying on the non-painful side hurts too, due to the

stretching of the ITB and lateral hip muscles overthe tender trochanter. It can be aggravated by a fall

onto a hard surface like ice, cycling, walking,

running, lying on it or nothing that they can think of.

If you’ve ever seen or had an olecranon bursitis,

they can be spotted a mile away. This is not the case

with a trochanteric bursitis. The trochanteric bursa

may not be swollen to the naked eye and even

palpation doesn’t give a clue to swelling that you

might expect to accompany this diagnosis.

If you have taken my MET 1 course, you know that I

start the session assessing for a hypomobile S.I.J.,

looking for S.I. or I.S. dysfunction and functional leg

length issue. In theory, if one leg is behaving longer

(functional leg length discrepancy) that alone can

put extra tension / pressure on the trochanter by

the gluteus medius and minimus as well as the

iliotibial band.

I use MET to get a level and symmetrical platformfrom which to work off of. After the correction and

stabilization exercises, I then start poking around.

Literally poking around for tender points—in the

gluteus medius, minimus, piriformis, TFL, as well as

the trochanter itself. In addition, although they are

on the medial aspect of the hip joint, I check out the

adductor tendon and the pectineus muscle for

tender points. Long term dysfunction of lateral

muscles can create a domino effect of the medial

muscles and vice versa.

Any and all of these muscles can cause pain and

usually indicate tightness and sensitivity to stretch

which makes them prime candidates for causing hip

pain or actual trochanteric bursitis.

Once a balanced and symmetrical pelvis and sacrum

has been achieved with Muscle Energy, I use

counterstrain technique. The technique called

counterstrain, commonly called strain counterstrainor positional rel

terra rosa issue 18

Documents