By Erik Dalton, Ph.D.
– http://erikdalton.com/fix-upslips-si-joint-pain/

In those presenting with true iliosacral upslips, joint apposition between the ilium and sacrum is altered, i.e., “the sacroiliac grooves ain’t groovin” (Fig 1). Since these superior shears are more affected by gravity that other iliosacral dysfunctions, they have almost a zero chance of self correction. During history in-takes, clients often report the symptoms to be much more painful than expected from the injury they describe. In fact, many can’t recall any precipitating event. Typically, when we see this upward shearing force of ilium on sacrum, the person’s SI joints are lacking either form or force closure. In form closure, SI joint stability is dictated by a series of ridges and complimentary depressions that produce friction and help interlock the two bones (Fig 2). But synovial joints like a little movement (joint play), not only to provide spinal shock absorption, but also to enhance lower extremity torque conversions and transverse rotations that travel up the kinetic chain and propel the body through space.³ Fortunately, Mother Nature has accommodated this functional demand by installing a back-up system researchers call force closure. Force closure stability is generated by contractive action of core musculo-fascial tissues such as the pelvic diaphragm, transverse abdominis, multifidus, and thoracolumbar fascia. Together, they provide a sophisticated neurologic feedback mechanism that reflexively interacts with the brain to provide joint stability and coordinated movement…or lack of it as is the case in chronic upslips.

In the presence of chronic upslips, prolonged cyclical loading can deform SI joint ligaments to a point where an act as innocent as slamming on the brake, tumbling on one hip, or clumsily stepping off a curb, can jostle the joint enough to cause the ilium to ‘jump-a-notch’ on sacrum. Here’s a good ‘upslip’ case study of a client named Marion who called complaining of stabbing buttock and low back pain.

Marion the Hairdresser

I’d treated Marion off-and-on for several years for neck, jaw and rib pain resulting from a severe whiplash injury but today was different…her low back and hip were in a world of hurt. This was her first visit since becoming a momma a year earlier and her history in-take revealed two related factors contributing to her injury: 1) Cumulative viscoelastic creep (hypermobility) left over from the relaxin birth hormone, and 2) Prolonged one-legged cyclical loading at her hairdressing job.

A classic upslip case, Marion presented with acute right-sided lumbopelvic pain, funky gait, and anatomical landmarks showing a 1 1/2″ short right leg, lax sacrotuberous ligament right, OL and psoas spasm right, and superior/posterior right ilium. Spring testing of the right ilium (supine and prone) revealed no inferior glide. Marion’s right QL fired before gluteus medius on the hip abduction test and she lifted the swing leg with the spasmed QL as she tried to walk. Although all her anatomical landmark and gait evaluations pointed to an iliosacral upslip, why do you think she could not identify a traumatic perpetrating event? The books tell us iliosacral upslips are traumatically-induced injuries but Marion first felt the excruciating pain when she got out of bed. Turns out, the incident that most likely pushed Marion over the edge occurred the night before as she stepped off a foot stool. That slight jar caused the hypermobile pelvic ligaments and restraining muscles to collapse and explode into a full-blown crippling hip spasm. Over the years, I’ve seen many cases like Marion’s and I’ve noticed that in the early stages of ligamentous creep, the brain down-regulates nociceptive pain signals. But when the joint finally jams, the brain lights-up the central nervous system with pain and protective guarding to prevent further insult to the damaged area.

Fixing the Fixation

Here are a couple of techniques that helped fix Marion’s upslipped hip. In Figure 3A, she’s pulling the knee to her chest to inferiorly drag the ilium while I slowly elbow my way through the lumbodorsal fascia, QL, and iliocostalis myospasm. Once these hypertrophied (hip-hiking) soft tissues regain flexibility and mobility, a maneuver is used to get the sacroiliac “grooves-a-groovin.” But before proceeding to the upslip correction, Marion is asked to do a couple minutes of deep abdominal breathing to help neurologically reset and relax the deep spasmed core muscles.

In Figure 3B, Marion lies supine and I apply an inferior tractioning force to drag the ilium to the first restrictive barrier feeling for neutral leg and hip alignment. By taking the limb into a bit of internal rotation, I’m able to bony-lock the hip allowing the tractioning force to travel through the SI joint. Using my body weight with her thigh securely arm-locked, a distraction force is applied as Marion forcefully contracts the QL and hip-hikes against my resistance. After a few seconds, she is asked cough vigorously to help jostle the joint and reposition the soft tissues. Traction combined with the forced exhalation allows Marion’s ilium to drop down into the groove “from whence it came.” Note: The pain should immediately ease except in those with hypermobility issues or core stability problems in which case a referral to a good functional movement therapist is recommended.

Lastly, here’s an effective home-retraining exercise I gave Marion. Lying supine, with her heels circling an exercise ball, she lifts her buttock and slowly rolls the ball side to side. I’ve found this simple routine helpful in normalizing neuromuscular firing patterns while evenly tonifying damaged ligaments. Rest, ergonomic retraining, and regular follow-ups are mandatory until pelvic stability is established. Remember, the first couple weeks are critical; even the slightest jar can turn the ligaments back into silly putty.