Hello Everyone!
I hope all is well
Another new post on the blog, this time it is looking at the effect of isolated core training on Lumbo - Pelvic movements during Running. This was a biomechanic assignment I did with my two friends of mine and fellow students at the time, Mr Connuagh Pearce and Mr Callum Wilkinson.
I hope all is well
Another new post on the blog, this time it is looking at the effect of isolated core training on Lumbo - Pelvic movements during Running. This was a biomechanic assignment I did with my two friends of mine and fellow students at the time, Mr Connuagh Pearce and Mr Callum Wilkinson.
Hope you enjoy reading it
Let me know what you think in the comments!
Like, share and comment!
Let me know what you think in the comments!
Like, share and comment!
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Why is Good Running Style so Important
Better
posture when running improves biomechanics and performance.
It has been shown that better posture when running does improve biomechanics , which in turn improves performance through more efficient running mechanics as shown from numerous studies(Comereski and Niedzielski, 2004).
Excessive pronation should be eliminated as it can cause problems in maintaining a good running style (Williams, Keith R.; Ziff, Jodi L, 1991)
Risk Factors
Poor
movements of the pelvis are a result of it not being stable and mobile enough. The
pelvis creates
stability for the whole body during movement by connecting the
torso to the legs. If there is not
enough stability and range of movement it
will not rotate correctly and freely, resulting
in pain, tightness and possible
injury.
By
keeping the pelvis level and stable, and also engaging the core muscles, it
limits the side to side
and front to back motion which reduces the injury risks
to the back, knees, ankles and hips. It is
crucial to allow the pelvis to rotate in the direction that the legs swing when
walking or running.
Increased
lumbar lordosis and anterior pelvic tilt, associated with tightness of the hip
flexor musculature, are examples of atypical kinematic patterns that have been
alluded to in the literature (Bach et al, 1985; Klein & Roberts, 1976).
Increased
anterior tilt of the pelvis during running has been cited as a predisposing
factor for hamstring strains (Geraci, 1996; Klein & Roberts, 1976). Increased
pelvic obliquity during running has been implicated with iliotibial band
friction syndrome (Anderson, 1991) and sacroiliac joint injuries (Lloyd-Smith
et al,1985).,
What possible Mechanisms exist with which to Modify these Risk Factors
It is possible to modify pelvic movements through a core intervention training programme and to
reduce the chance of getting such core/lumbo pelvic injuries (weak gait cycle,
Trendelenburg Gait Pattern and Lordosis).
The Trendelenburg gait pattern (or gluteus medius lurch) is an abnormal gait (as with walking)
caused by weakness of the abductor muscles of the lower limb, gluteus medius and gluteus minimus.
During the stance phase, the weakened abductor muscles allow the pelvis to tilt down on the opposite
side (shown from picture).
Gait Cycle
The gait cycle can be defined as the time interval between to successive occurrences of one of the
repetitive events of walking.
Major events of the Gait Cycle:
1/ Initial Contact
2/ Opposite Toe Off
3/ Heel Rise
4/ Opposite Initial Contact
5/ Toe Off
6/ Feet Adjacent
7/ Tibia Vertical
7 events subdivided into 4 sections;
- 1/ Loading response
- 2/ Mid stance
- 3/ Terminal Stance
- 4/ Pre swing
What is Core Training
The core can be scientifically defined as “the trunk or more specifically the lumbopelvic region of the
body”. J.M.Willardson 2007.
Core stability means “The ability to control the position and motion of the trunk over the pelvis to
allow optimum production, transfer and control of force and motion to the terminal segment in
integrated athletic activities” Kibler. 2006, Lawrence 2007, Willson JD, Dougherty CP, Ireland ML,
Davis IM 2005.
Core strength can be defined as “the muscles surrounding the spinal column’s ability to maintain
stability while acting on an external perturbation”. Hibbs, AE 2008, Akuthota V, Nadler SF 2004.
How is it possible that Core Training can Influence Pelvic Movements
Core training can influence pelvic movements in a positive fashion by reducing the chance of injury
by making the lumbopelvic region stronger through specific core exercises.
By increasing the strength of the spinal erectors and deep abdominal muscles, this can help eliminate
pelvic tilt. These pelvic movements can become negative if the core muscles become weak or not
used correctly.
Such lumbopelvic problems include lordosis which is the result of weak hip flexors (figure 1) The
term lordosis refers to the normal inward curvature of the lumbar and cervical regions of the spine
B.Gylys (2005).
What is known and not known about the Effects of Core Training on Pelvic Movements
Sharrock, C et al believed that researchers should seek to identify a gold standard test or battery of
tests that quantifies core stability as it pertains to athletic performance.
Also, the specific functions of the core, such as stability, strength, or endurance, should be examined
separately to determine the relative importance of each.
It also would be beneficial to examine the relationship between core stability and additional athletic
performance tests. Until the relationship between core stability and athletic performance can be
scientifically demonstrated in the evidence, it will remain hypothetical and theoretical in nature.
Aim
Methods
Kinesiological breakdown of Running
Results from Pre Test
Intervention Training Programme (Continued)
It is possible to modify pelvic movements through a core intervention training programme and to
reduce the chance of getting such core/lumbo pelvic injuries (weak gait cycle,
Trendelenburg Gait Pattern and Lordosis).
The Trendelenburg gait pattern (or gluteus medius lurch) is an abnormal gait (as with walking)
caused by weakness of the abductor muscles of the lower limb, gluteus medius and gluteus minimus.
During the stance phase, the weakened abductor muscles allow the pelvis to tilt down on the opposite
side (shown from picture).
Gait Cycle
The gait cycle can be defined as the time interval between to successive occurrences of one of the
repetitive events of walking.
Major events of the Gait Cycle:
1/ Initial Contact
2/ Opposite Toe Off
3/ Heel Rise
4/ Opposite Initial Contact
5/ Toe Off
6/ Feet Adjacent
7/ Tibia Vertical
7 events subdivided into 4 sections;
- 1/ Loading response
- 2/ Mid stance
- 3/ Terminal Stance
- 4/ Pre swing
What is Core Training
The core can be scientifically defined as “the trunk or more specifically the lumbopelvic region of the
body”. J.M.Willardson 2007.
Core stability means “The ability to control the position and motion of the trunk over the pelvis to
allow optimum production, transfer and control of force and motion to the terminal segment in
integrated athletic activities” Kibler. 2006, Lawrence 2007, Willson JD, Dougherty CP, Ireland ML,
Davis IM 2005.
Core strength can be defined as “the muscles surrounding the spinal column’s ability to maintain
stability while acting on an external perturbation”. Hibbs, AE 2008, Akuthota V, Nadler SF 2004.
How is it possible that Core Training can Influence Pelvic Movements
Core training can influence pelvic movements in a positive fashion by reducing the chance of injury
by making the lumbopelvic region stronger through specific core exercises.
By increasing the strength of the spinal erectors and deep abdominal muscles, this can help eliminate
pelvic tilt. These pelvic movements can become negative if the core muscles become weak or not
used correctly.
Such lumbopelvic problems include lordosis which is the result of weak hip flexors (figure 1) The
term lordosis refers to the normal inward curvature of the lumbar and cervical regions of the spine
B.Gylys (2005).
What is known and not known about the Effects of Core Training on Pelvic Movements
Sharrock, C et al believed that researchers should seek to identify a gold standard test or battery of
tests that quantifies core stability as it pertains to athletic performance.
Also, the specific functions of the core, such as stability, strength, or endurance, should be examined
separately to determine the relative importance of each.
It also would be beneficial to examine the relationship between core stability and additional athletic
performance tests. Until the relationship between core stability and athletic performance can be
scientifically demonstrated in the evidence, it will remain hypothetical and theoretical in nature.
Aim
The aim of this study is to examine the effects of isolated core training on pelvic movements during
treadmill running
Methods
Kinesiological breakdown of Running
During
running the quadriceps, consisting of the vastus medialis, vastus intermedius,
rectus
femoris and vastus lateralis are
activated when the lower legs go into knee extension.
The
back of the thighs contain the hamstrings, which includes the semitendinosus,
semimembranosus, and biceps femoris.
These
muscles play an important role in running as they flex the knees which causes
the lower
legs to swing back toward the gluteus maximus.
The
hip flexors also get worked as the thighs move toward the stomach, they consist
of the psoas
major, psoas minor and iliacus.
The
muscles of the inner and outer thighs, the adductors and abductors, play an
important role in
stabilizing the hips and stop the knees from dropping inward
or outward, helping to prevent
unnecessary strain on the knees and prevent
injury.
The
core muscles play a highly important role in running, as they contract and give
support when
running, which enables the individual to balance. This is achieved
by the rectus abdominus and
oblique muscles which are activated while the individual is running.
Baseline and Follow Up Testing
Pre intervention the subjects (control and core training subject) both took part in a number of tests to
give baseline data.
These tests where the following:
- Prone Bridge for time
- Vertical Jump
- Height
- Weight
- Running kinematics (VICON)
- Heel Rotation (pressure plate, RSScan UK)
Results from Pre Test
Test/Exercise
|
Control Subject
|
Core Trained
Subject
|
Height
|
1m
88cm
|
1m
74cm
|
Weight
|
72.2kg
|
92.6kg
|
Age
|
25
|
19
|
Vertical Jump
|
28.63cm
|
36.3cm
|
Prone
Bridge Hold
|
3
minutes 1
second
|
3 minutes
37 seconds
|
Running
Mechanics
|
See
video
|
See
video
|
Heel
Rotation
|
22.5
|
23.5
|
Intervention
The three core exercises to be used for this intervention were chosen on the basis of simplicity,
avoidance of lateral bending of the vertebral column and not requiring additional equipment.
The exercises chosen were:
Prone-bridge
Erector spinae, rectus abdominus and tranverse abdominus
Side-bridge
Strengthens the gluteus medius and the abdominal external oblique muscles with activity greater than
60% MVIC in the external oblique (Hibbs et al., 2007) and greater than 45% MVIC in the gluteus
medius (Ekstrom et al., 2007).
Back extension (superman)
Erector spinae muscles, consisiting of the iliocostalis, longissimus, and spinalis.
To minimise the learning effects all participants will be given a familiarisation session. Over the 4
week intervention period, the three core exercises were repeated three times a week.
Intervention Training Programme (Continued)
Exercise
|
Progression
|
Week 1
|
Week 2 and 3
(add 15 seconds
per week for each set
for each exercise)
|
||||
Prone
Bridge
|
Volume
|
Reps 30s hold
|
Sets 3
|
||||
Side
Bridge
|
Volume
|
Reps 30
s hold
|
Sets 3
|
||||
Back
Extension
|
Volume
|
Reps 30
s hold
|
Sets 3
| ||||
Data Analysis
Microsoft excel was used to create the plotted graph data and to obtain the averages of axis data.
Basic trigonometry was applied in order to obtain the degrees of pelvic motion.
Graphs show Pre and Post test results for both walk and run on both subjects based on a
correspondence of Y and Z axis data.
In the graphs the peaks/rages of lines were assessed to see if there was any improvement in core
stability.
Results
Graphs - Walking
AB06 PreTest Walk
AB06 Post Test Intervention Walk
AB05 PreTest Walk
AB05 Post Test Intervention Walk
Graphs - Running
AB06 PreTest Intervention
AB06 Post Intervention
AB05 PreTest Intervention
AB05 Post Intervention
Graph Results
These results show the ranges of degree motion form the graphs presented above.
We can see a vast improvement from subject AB06 on the walk and run. The peaks are closer together showing more controlled movement. The peaks of degrees are smaller in post tests showing the range of motion is smaller.
This shows the core training has improved core stability.
•Walk Ranges- AB06 Post, 2.921707
to -3.21937
•Walk Ranges- AB06 Pre, 5.368061 to
0.081681
•Walk Ranges- AB05 Post, 10.92838 to
-9.67098
•Walk Ranges- AB05 Pre, 4.56287
to -3.9881
•Run Ranges- AB06 Post, 3.03845
to -4.27515
•Run Ranges- AB06 Pre, 4.80025 to -0.3251
•Run Ranges- AB05 Post, 8.10326
to -9.0946
•Run Ranges- AB05 Pre, 4.56287
to -3.98814
Effect of the Intervention
Test/Exercise
|
Control Subject
|
Core Trained
Subject
|
Height
|
1m
88cm
|
1m
75cm
|
Weight
|
72.2kg
|
94.9kg
|
Age
|
25
|
19
|
Vertical Jump
|
31.5 cm
|
34.0 cm
|
Prone
Bridge Hold
|
3
minutes 10
second
|
3 minutes 42
seconds
|
Running
Mechanics
|
See
video
|
See
video
|
Heel
Rotation
|
30
|
28.5
|
Discussion
Summary of Results
Core
training programme helped to improve core stability over a three week period as
can be seen on the post results with the prone bridge on both the control and
intervention subjects.
In
the control subject the vertical jump improved, with the intervention subject
jump test decreasing. The possible reason for this being that the intervention
subject performed heavy squats the day before.
Comparison with Previous Work
From
the core intervention training programme the test subject improved his time on
the bridge.
A
study conducted by J. Comereski, and
M. Niedzielski,
“The Effects of Posture on Running Performance: A Case Study used a core
intervention training programme to facilitate a runners performance’’.
Athlete
performed breathing, gluteal, hamstring and abdominal exercises over 8 visits
in a 5 week period. The athlete set 5 personal bests improving his 1 mile run
by 14 seconds and 800m by 6 seconds. His posture, flexibility and mobility
improved post test
Mechanisms
From
the core intervention programme involving side/prone bridges, superman's and my
own training
programme, which involved squats, deadlifts, front squats and
cleans etc.
This required me to load the core muscles through different planes
of motion, engaging all the
muscles.
The muscles that adapted were the spinal
erectors, oblique's, hip flexors, glutes (medius, mimimus
and maximus), diaphragm and deep abdominal muscles.
This
resulted in the noticeable improvements pre and post for the walk and run.
However on the pre
test (second day of testing) due to training the day before
which subject was fatigued.
Future Research
Have
a core training programme that lasts 10 weeks. Longer programme means more
physical
improvements leads to better performance than a 3 week programme.
Programme
will be implemented on male and female subjects (20 male 20 female). More
subjects
improves test reliability and validity.
Exercises
used will be more than 3 and include, squats, deadlifts, kettle bell swings,
bridges etc.
These new exercises will activate the core more than doing just
isolation specific exercises
Training
programme will split into two groups, some subjects doing exercises in strength
rep range
others in the endurance range to compare and contrast results. This
is to see which is better for sports
performance. All subjects will be of same
age, sport background, not previous injuries etc.
Limitations
•One training intervention subject, more will be needed to increase the reliability of the study (M.K. Willam, Trochim 2006).
•No female subjects, this reduces the reliability and introduces an element of bias as only one gender was used. This is a sample bias as no females where present in the sample (L. Willams, Wilkins 2006).
•Short time frame (3 weeks). Training programmes need to be longer than 3 weeks to see the physiological adaptions, 3 weeks would only show minimal changes. A longer time frame would increase the accuracy of the results.
•Limited number of exercises. If there were more “core exercises” this will encourage a faster positive physiological stress so the body can become stronger.
•Choice of core exercises; it can be debated that the choice of the exercises were not most effective. Some may argue that Squats and Deadlifts are a better stimulus for the core and the lumbo-pelvic region than the bridge exercises.
•Difference in pre and post test results may be due to the subjects putting more effort in as their peers where watching them - this is described as the Hawthorn Effect. This is known as “Participant’s performance changes when attention is paid to them, which is likely to reduce the ability to generalize the results” (Thomas, Nelson, Silverman, 2011).
References
- Akuthota V, Nadler SF. (2004) “Core strengthening”. American Academy of Physical Medicine and Rehabilitation; 85 (3 Suppl. 1): S86-92
- Comereski.S.J, Niedzielski. M. (2004) “The Effects of Posture on Running Performance: A Case Study”. American Medical Athletic Association Journal Spring 2004
- D.K Bach, D.S Green, G.M Jensen, E Savinar A comparison of muscular tightness in runners and nonrunners and the relation of muscular tightness to low back pain in runners Journal of Orthopaedic and Sports Physical Therapy, 6 (1985), pp. 315–323
- Gylys, Barbara A. and Mary Ellen Wedding.(2005), ‘Medical Terminology Systems’, F.A. Davis Company
- G.S Anderson ‘Iliotibial band friction syndrome’ Australian Journal of Science and Medicine in Sport, 23 (1991), pp. 81–83
- Geraci, M. C., Jr. (1996). ‘Overuse injuries of the hip and pelvis’. Journal of Back and Musculoskeletal Rehabilitation, 6, 5–19
- Hibbs AE, Thompson, K. G., French, D., Wrigley, A., Spears, I. (2008) “Optimizing performance by improving core stability and core strength”. Sports Medicine, 38(12):995-1008.
- J.M.Willardson (2007) “Core Stability Training: Applications to Sports Conditioning Programs”. Journal of Strength and Conditioning Research 21 (3) 979-985
- Kibler, W., Press. J, Sciascia. A (2006). “The Role of Core Stability in Athletic Function”. Sports Medicine, 36(3): 189-198.
- Klein and Roberts, 1976 K.K Klein, C.A Roberts ‘Mechanical problems of marathoners and joggers’: Cause and solution American Corrective Therapy Journal, 30 (1976), pp. 187–191
- Lawerence, M. (2007). Core Stability. 2nd Edition. , London, A&C Black Publishers Ltd.
- Willson JD, Dougherty CP, Ireland ML, Davis IM. (2005) “Core Stability and its Relationship to Lower Extremity Function and Injury”. Journal of American Academy of Orthopaedic Surgeons. 13(5):316-25.
- Thomas. J, Nelson. J, Silverman. S (2011) Research Methods in Physical Activity. 6th Edition. Stanningley: Human Kinetics p335
- L. Willams, Wilkins. (2006) Stedman's Medical Dictionary. Medilexcon. Retreived on May 22, 2014.
- M.K. Willam, Trochim. (2006). Research Methods Knowledge Base. Web Centre four Social Research Methods. Retrieved on May 22, 2014.
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Andrew Richardson, Founder of Strength is Never a Weakness Blog
I have a BSc (Hons) in Applied Sport Science and a Merit in my MSc in Sport and Exercise Science and I passed my PGCE at Teesside University.
Now I will be commencing my PhD into "Investigating Sedentary Lifestyles of the Tees Valley" this October 2019.
I am employed by Teesside University Sport and WellBeing Department as a PT/Fitness Instructor.
My long term goal is to become a Sport Science and/or Sport and Exercise Lecturer. I am also keen to contribute to academia via continued research in a quest for new knowledge.
My most recent publications:
My passion is for Sport Science which has led to additional interests incorporating Sports Psychology, Body Dysmorphia, AAS, Doping and Strength and Conditioning.
Within these respective fields, I have a passion for Strength Training, Fitness Testing, Periodisation and Tapering.
I write for numerous websites across the UK and Ireland including my own blog Strength is Never a Weakness.
I had my own business for providing training plans for teams and athletes.
I was one of the Irish National Coaches for Powerlifting, and have attained two 3rd places at the first World University Championships,
in Belarus in July 2016.Feel free to email me or call me as I am always looking for the next challenge.
Contact details below;
Facebook: Andrew Richardson (search for)
Facebook Page: @StrengthisNeveraWeakness
Twitter: @arichie17
Instagram: @arichiepowerlifting
Snapchat: @andypowerlifter
Email: a.s.richardson@tees.ac.uk
Linkedin: https://www.linkedin.com/in/andrew-richardson-b0039278
Research Gate: https://www.researchgate.net/profile/Andrew_Richardson7
