This is a chapter 12 summary of the book “Movement” by Gray Cook. A Whole Lotta P When we build our corrective framework, we must take into account the 6 P’s: 1) Pain – Is there pain with movement? Staying away from pain improves motor control. 2) Purpose – What movement pattern are we targeting with corrective exercise and what problem are we addressing (i.e. mobility, stability, dynamic motor control)? 3) Posture – Which moderately challenging posture is the best starting point for corrective exercise that allows for reflexive activity? 4) Position – Which ones demonstration mobility/stability problems and compensatory behaviors? 5) Pattern – How is the dysfunctional movement pattern affected by corrective exercise? 6) Plan – How can you design a plan based on findings? The goal when designing the correction is to stay in the middle ground of the autonomic nervous system while providing a rich sensory experience. Movement pattern dysfunction is a behavior that needs to be addressed and changed.
Read MoreAuthor: Zac Cupples
Movement Chapter 11: Developing Corrective Strategies
This is a chapter 11 summary of the book “Movement” by Gray Cook. Autonomics All exercise affects tone and tension. This influence is the basis for movement. The autonomic nervous system determines movement as threatening or not, which determines requisite tone. It is important to nudge movement towards further nonthreatening yet advanced stimuli. FMS Corrections Proceeding to correct under FMS protocol is determined by screen results and changed via exercise. We first correct mobility, next reinforce stability, then retrain movement patterns. Stability training in particular follows a sequence: 1) Challenge posture and position. 2) Build mid-range strength. 3) Develop end-range stability. Movement patterns are corrected in the following hierarchy: ASLR & Shoulder mobility → rotary stability → pushup → Inline lunge → hurdle step → Deep squat SFMA Corrections The SFMA corrective pathway is nonlinear unlike the FMS. The breakouts will tell you which direction to go to restore optimal movement. The options are also increased. Often to gain mobility, you would utilize various manual therapies or other modalities. To alter stability, taping, orthotics, braces, or anything else to increase motor control may be utilized. Movement patterns are corrected in the following hierarchy: Cervical spine → Shoulder →multi-segmental flexion & extension→ Multisegmental rotation →single leg stance → Squat Depending on how movements present, certain therapies are utilized: DN – manual therapy and corrective exercise. DP – Manual therapy and modalities. FP – Modalities and manual therapy. FN – General exercise. Exercise Categories There are several exercise types that can be utilized depending on one’s goal:
Read MoreMovement Chapter 10: Understanding Corrective Strategies
This is a chapter 10 summary of the book “Movement” by Gray Cook. Mistakes, I’ve Made a Few When we are talking corrective exercise design, people often make 4 mistakes: 1) Protocol approach: Exercise based on category. Problem – 1 size fits all. 2) Basic kinesiology: Target prime movers and some stabilizers. Problem – fails on timing, motor control, stability, and movement. 3) Appearance of functional approach – Use bands and resistance during functional training. Problem – If the pattern is poor, adding challenges to it can increase compensation. There is also no pre-post testing. 4) Prehabilitation approach – Prepackaged rehab exercises into conditioning programs as preventative measures to reduce injury risk. Problem – Design is based on injuries common to particular activities as opposed to movement risk factors. There are also certain mistakes that are often made when utilizing the FMS and SFMA: 1) Converting movement dysfunction into singular anatomical problems. 2) Obsessing over perfection in each test instead of identifying the most significant limitation/asymmetry. 3) Linking corrective solutions to movement problems prematurely. The overarching rule is to address these movement deficiencies first, as we do not want to put strength or fitness on top of dysfunctional movement. The Performance Pyramid When designing an exercise program, we look for three areas to improve performance: Movement, performance, and skill. It is important that program design is based on the individual’s needs and has these qualities in a hierarchal fashion. For example, if one performs excellent on functional performance
Read MoreMovement Chapter 9: Analyzing the Movements in Screens and Assessments
This is a chapter 9 summary of the book “Movement” by Gray Cook. While I have broken up these sections into patterns, much of what Gray talks about does not involve the patterns themselves, but are still good points to know. Ergo, much like the book itself, this post may seem a little disjointed 🙂 The Deep Squat One’s inability to squat is not considered a single problem. Instead, a disconnect is present between the body and the brain in the squatting pattern. Our brain sees things in patterns, and the squatting pattern essentially gets smudged. Before performing the squat as an exercise, we must first groove an optimal movement pattern. One interesting point regarding the squat is that as an exercise it is often a top-down based movement. However, when we learn to squat in development, the movement occurs bottom-up. So one way to train the squat is by starting from the bottom of the squat and working to standing. This method ensures full mobility to perform a full deep squat. To relate the SFMA to the squat pattern, Gray is very clear about not training the squat if one cannot touch his or her toes. Hurdle Step and Single Leg Stance These two movements simultaneously test mobility and stability of both legs. Oftentimes in these patterns you will see a high-threshold strategy (HTS), in which a hyper-protective core response occurs. Research demonstrates that this stabilization strategy can cause poor motor control to occur. These tests also are basic
Read MoreMovement Chapter 8: SFMA Assessment Breakout Descriptions and Flowcharts
This is a chapter 8 summary of the book “Movement” by Gray Cook. What to Look For The SFMA breakouts are utilized to determine if one’s movement deficiencies have a mobility or stability origin. There are further possibilities in each of these categories. It Could Be a Mobility Problem There are two subsets of mobility problems that include tissue extensibility dysfunction (TED) and joint mobility dysfunction (JMD). From here, we can break it down even further in each subset. Here are some potential TEDs Active/passive muscle insufficiency Limited neurodynamics (they said neural tension; come on Gray!) Fascial tension Muscle shortening Hypertrophy Trigger points Scarring/fibrosis And here are some potential JMDs Osteoarthritis/arthrosis Single-joint muscle spasm/guarding Fusion Subluxation Adhesive capsulitis Dislocation It could be a Stability Problem These issues are also known as stability or motor control dysfunction (SMCD). Most conventional therapies would treat these complaints by strengthening the stabilizers, but this is problematic. When something works reflexively, how can we train something volitionally and expect changes? To train these muscles we must focus on proprioceptive and timing-based training. There are several examples of SMCD problems. Motor control dysfunction. High threshold strategy. Local muscle dysfunction/asymmetry. Mechanical breathing dysfunction. Prime mover or global muscle compensation behavior or asymmetry. Poor static stability, alignment, postural control, asymmetry, and structural integrity. Poor dynamic stability, alignment, postural control, asymmetry, and structural integrity. Relatedness Mobility and stability can influence one another. If I were to lose mobility at one segment, motor control can be distorted at nearby segments.
Read MoreLessons from a Student: The Interaction
The Inspiration Over the past few weeks I have felt called to write about an often uncovered yet extremely important component of the therapeutic process: Patient interaction. We had an instance in which I came back into the clinic from my lunch break and my intern was supposed to have a patient evaluation. Instead, she opted to have me take this particular patient. This patient was a lovely 17 year old lady who was being seen for bilateral foot pain. This was her second bout of therapy, and her and her mother was very dissatisfied with their last physical therapy experience just a few months (and 17 visits) prior. She was not a happy camper and wanted a second opinion. After hearing stories from my coworkers, I expected the worst. We progress through the evaluation, and my student observes nothing but smiles throughout from the patient and her mom. Jokes were cracked, movement was looked at, and edumacation happened. At this point, after a little explain pain and kinetic chain discussion, these women were sold. We leave the treatment room and I said “that wasn’t so bad yes?” My student replies “that’s because they are in love with you.” But really, that essentially is what you have to do with the patient interaction. You can have the greatest hands, the greatest exercise plan, and evidence up the wazoo; but if your patient hates your guts you will fail. I heard this from Patrick Ward that 80% of your success with
Read MoreMovement Chapter 7: SFMA Introduction and Top-Tier Tests
This is a chapter 7 summary of the book “Movement” by Gray Cook. Intro The SFMA’s goal is to assess functional capabilities. This system is based on Cyriax differentiation and grading principles. Instead of describing things as strong, weak, painful, or painless; the following descriptors are utilized: Functional nonpainful (FN): Unlimited movement and able to complete a breath cycle at end-range. Called the dead end. Functional painful (FP): Called the marker, reassessed. Dysfunctional nonpainful (DN): Limited, restricted, impaired mobility, stability, or symmetry. Labored breathing with movement also implicates this choice. Called the pathway, where treatment occurs. Dysfunctional painful (DP): Called the logical beehive because we do not know if pain is causing poor movement or vice versa. It is an unreliable place to work unless acute situations. SFMA corrective and manual therapy lie in treating the FP’s and DN’s. The order at which things are treated also matters, so the order listed below for the top tier tests is also typically where treatments should hierarchically begin. Cervical spine patterns (CSP) Upper extremity patterns (UEP) Multi-segmental flexion (MSF) Multi-segmental extension (MSE) Multi-segmental rotation (MSR) Single leg stance (SLS) Overhead deep squat (ODS) We then operate the SFMA in the following fashion:
Read MoreMovement Chapter 6: Functional Movement Screen Descriptions
This is a chapter 6 summary of the book “Movement” by Gray Cook. Screening Keys The FMS is not considered a training or competition tool; it simply ranks movements. Here are the keys to a successful screen. First off, know the following bony landmarks Tibial tuberosity ASIS Lateral and medial malleoli Most distal wrist crease Knee joint line 3 repetitions are performed for each movement, and it is important to stand far away so the whole movement can be seen. When testing both sides, take the lowest score if an asymmetry is present. Here are the movements (videos courtesy of Smart Group Training). The Deep Squat Purpose: Full-body coordinated mobility and stability; linking the hips and the shoulders. Here is how it is done. Hurdle Step Purpose: Evaluate stepping and stride mechanics. Here is how it is done. Inline Lunge Purpose: Test deceleration and left/right function utilizing contralateral upper extremity patterns and ipsilateral lower extremity patterns. Here is how it is done. Shoulder Mobility Purpose: Evaluate scapulothoracic rhythm, thoracic spine and rib mobility. Here is how it is done. ASLR Purpose: Tests hip flexion, hip extension, and core function. Here is how it is done. Trunk Stability Pushup Purpose: Tests reflexive core stability. Here is how it is done. Rotary Stability Purpose: Check multi-planar pelvic, core, and shoulder girdle stability. Also looks at reflexive stability and transverse plane weight shifting. Here is how it is done. FMS Conclusions The FMS is designed to give a corrective pathway that may involve
Read MoreMovement Chapter 5: Functional Movement Systems and Movement Patterns
This is a chapter 5 summary of the book “Movement” by Gray Cook. In this chapter, Gray outlines the interconnectedness of the tests and outlines all of the different breakouts. The movements will be demonstrated in later chapters. FMS There are seven movements with different clearing examinations. 1) Deep squat 2) Hurdle step 3) Inline lunge 4) Shoulder mobility 5) Active straight leg raise (ASLR) 6) Trunk stability pushup 7) Rotary stability. The first three movements are often called the big 3, as they are functional movements that check core stability in three essential foot positions. The remaining four are considered fundamental movement patterns. Often these patterns are attacked before the first three. These screens can also be broken up into those that check symmetry and asymmetry: Symmetrical patterns Deep Squat Trunk stability pushup. Asymmetrical patterns Hurdle step Inline lunge Shoulder mobility ASLR Rotary stability. The way we work the FMS is by first attacking asymmetrical patterns before straight patterns, and primitive patterns before functional patterns. The FMS is scored on a four point ordinal scale with the following scoring criteria: 3 – Complete pattern 2 – Complete pattern with compensations/deviations 1 – Incomplete pattern 0 – Painful pattern. There are also three clearing tests that are either positive or negative for pain. 1) Impingement clearing test (shoulder mobility) 2) Prone pressup (trunk mobility) 3) Posterior rocking (rotary stability) The FMS works by creating several filters to catch for compensations and problems. 1) Pain – Signal to a problem. 2)
Read MoreMovement Chapter 4: Movement Screening
This is a chapter 4 summary of the book “Movement” by Gray Cook. What Be the Goal? Movement screening’s goal is to manage risk by finding limitations and asymmetries via two strategies; 1) Movement-pattern problems: Decreased mobility and stability in basic movements. 2) Athletic-performance problems: Decreased fitness. The FMS razor, akin to Occam’s razor, is to determine a minimum movement pattern quality before movement quantity and capacity are targeted. Movement patterns are lost by the following mechanisms: Muscular imbalance. Habitual asymmetrical movements. Improper training methods. Incomplete recovery from injury. Ideally, the FMS would be part of the basic tests performed when one is looking to participate in sport. Prior to any athletic engagement, a medical exam is performed to clear someone to participate. This exam is often followed by performance and skills tests. Gray feels that the FMS belongs between these two tests, as there is an obvious gap from basic medical screening to high performance. It is not to say that we must only train movement patterns. Rather, all the above qualities can be trained in parallel. The real goal is to manage minimums at each level and make sure improving one does not sacrifice quality at the others.
Read MoreMovement Chapter 3: Understanding Movement
This is a chapter 3 summary of the book “Movement” by Gray Cook. You Down with SOP? Unlike many other areas, movement does not have a standard operating procedure and is thus very subjective. Since movement is the foundation for all activity, it is important that we develop some type of standard for good movement. Changing Compensations Movement compensations are often unconscious, thereby making these patterns difficult to be cued away. It may be the case that less threatening movements and corrective exercise could be utilized to change undesired patterns. When designing exercise, it is important to make them challenging as opposed to difficult. Difficulty implies struggling, whereas challenges are what test one’s abilities. Anyone can make something difficult, but not all can challenge. Function of the FMS and SFMA The goals of the functional movement systems are as follows: 1) Demonstrate if movement patterns produce pain within accepted ranges of movement. 2) Identify those without pain that are at high injury risk. 3) Identify specific exercises and activities to avoid until achieving the required movement competency. 4) Identify the best corrective exercise to restore movement competency. 5) Create a baseline of standardized movement patterns for future reference. The difference between the FMS and SFMA is that the FMS assesses risk whereas the SFMA diagnoses movement problems. The FMS operates in the following manner: 1) Rates and ranks nonpainful movements based on limits and asymmetries. 2) Identifies pain. 3) Identifies lowest ranking or most asymmetrical patterns; most primitive pattern if
Read MoreMovement Chapter 2: Anatomical Science Versus Functional Science
This is a chapter 2 summary of the book “Movement” by Gray Cook. Funky Muscles There are anatomically two basic types of muscles; shunt and spurt. Shunt muscles compress and produce structural integrity because the distal attachment is far from the moving joint. Spurt muscles produce movement because the distal attachment is close to the axis of rotation. While these two muscle types are present, they can vary depending on the function performed. For example, if we perform a movement in the closed chain, the spurt and shunt roles become reversed. Focusing on a single muscle group causes us to lack understanding of the supporting matrix behind superficial muscle action. Muscle function depends on body position and joint in action. We can see this point illustrated in Lombard’s paradox, which involves the coactivation of hamstrings and quadriceps when performing a sit to stand. These muscles are antagonistic to one another at their respective joints, yet movement is produced. The resultant effect is the quads and hamstrings becoming global stabilizers. Muscle activity is task specific, therefore Gray purports four types of muscles: 1) Global Stabilizers: Multi-joint muscles contracting to produce stability and static proprioceptive feedback. 2) Global Movers: Multi-joint muscles that produce movement and dynamic proprioceptive feedback. 3) Local Stabilizers: Deep segmental muscles (1-3 segments) that produce stability and static proprioceptive feedback. 4) Local Movers: Single joint muscle that produce movement and dynamic proprioception. These different muscle types require different training modalities. The example given is stabilizer muscles. These muscles cannot
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