Core Strengthening: Difference between revisions
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== | == What is Core? == | ||
In the literature, consumer as well as academic literature, there are various definitions available of what the core is and what core strengthening is. Even between various health professionals there seems to be a wide definition of what core work is. | |||
The core muscles are involved in maintaining spinal and pelvic stability and can be divided into two groups, according to function.<ref name=":0">Chang WD, Lin HY, Lai PT. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4395677/pdf/jpts-27-619.pdf Core strength training for patients with chronic low back pain]. Journal of physical therapy science. 2015;27(3):619-22.</ref> The first group of muscles is the inner core or deep core muscles. This group of muscles is also known as the local stabilising muscles.<ref name=":0" /> Hodges et al (1996)<ref>Hodges PW, Richardson CA. Inefficient muscular stabilization of the lumbar spine associated with low back pain: a motor control evaluation of transversus abdominis. Spine. 1996 Nov 15;21(22):2640-50.</ref> showed that the inner core acts in an anticipatory way and that these muscles are activated and fire before the global muscles are activated. | |||
The core muscles are involved in maintaining spinal and pelvic stability | |||
The inner core muscles include:<ref name=":1">Akuthota V, Ferreiro A, Moore T, Fredericson M. [https://www.researchgate.net/publication/5555200_Core_Stability_Exercise_Principles Core stability exercise principles]. Current sports medicine reports. 2008 Jan 1;7(1):39-44.</ref><ref>Saiklang P, Puntumetakul R, Swangnetr Neubert M, Boucaut R. The immediate effect of the abdominal drawing-in maneuver technique on stature change in seated sedentary workers with chronic low back pain. Ergonomics. 2021 Jan 2;64(1):55-68.</ref> | |||
* Pelvic floor muscles | |||
* Transversus abdominis | |||
* Internal Obliques | |||
* Multifidus | |||
* Diaphragm | |||
* Some literature also includes the deep fibres of the psoas and the deep hip rotators as part of the inner core. | |||
The outer core muscles or the global muscles are also referred to as the “movers” and include:<ref name=":0" /><ref name=":1" /> | |||
* Rectus abdominis | |||
* Internal and external obliques | |||
* Erector spinae | |||
* Qudratus lumborum | |||
* Hip muscle groups | |||
When the core muscles function normally, segmental spinal stability is maintained, the spine and pelvic area is protected and the stress or load that may influence the lumbar vertebrae and intervertebral discs are reduced. In the case of a dysfunction, such as a weak inner core, the outer core compensates and “splinting” occurs | When the core muscles function normally, segmental spinal stability is maintained, the spine and pelvic area is protected and the stress or load that may influence the lumbar vertebrae and intervertebral discs are reduced. In the case of a dysfunction, such as a weak inner core, the outer core compensates and “splinting” occurs | ||
Revision as of 11:24, 25 March 2021
This article or area is currently under construction and may only be partially complete. Please come back soon to see the finished work! (25/03/2021)
Original Editor - Deborah Riczo
Top Contributors - Wanda van Niekerk, Kim Jackson, Olajumoke Ogunleye, Tarina van der Stockt and Vidya Acharya
What is Core?[edit | edit source]
In the literature, consumer as well as academic literature, there are various definitions available of what the core is and what core strengthening is. Even between various health professionals there seems to be a wide definition of what core work is.
The core muscles are involved in maintaining spinal and pelvic stability and can be divided into two groups, according to function.[1] The first group of muscles is the inner core or deep core muscles. This group of muscles is also known as the local stabilising muscles.[1] Hodges et al (1996)[2] showed that the inner core acts in an anticipatory way and that these muscles are activated and fire before the global muscles are activated.
The inner core muscles include:[3][4]
- Pelvic floor muscles
- Transversus abdominis
- Internal Obliques
- Multifidus
- Diaphragm
- Some literature also includes the deep fibres of the psoas and the deep hip rotators as part of the inner core.
The outer core muscles or the global muscles are also referred to as the “movers” and include:[1][3]
- Rectus abdominis
- Internal and external obliques
- Erector spinae
- Qudratus lumborum
- Hip muscle groups
When the core muscles function normally, segmental spinal stability is maintained, the spine and pelvic area is protected and the stress or load that may influence the lumbar vertebrae and intervertebral discs are reduced. In the case of a dysfunction, such as a weak inner core, the outer core compensates and “splinting” occurs
In cases of weak inner core, the outer core compensates for this weakness. Although the outer core muscles’ main function is movement and not stability it is able to contribute to stability with unexpected tasks or overload. As a result of this, splinting occurs and this leads to neuromusculoskeletal issues such as muscle spasms, neural compression and pain.
Abdominal canister
The inner core muscles all form part of the abdominal canister
Use image in slides of abdominal canister in page – just check reference etc. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7641036/
The abdominal canister works as pistoning action. As the diaphragm expands during inspiration, it lowers and presses down on the contents of the abdomen. To allow for this pressure, the pelvic floor muscles relaxes and elongate. Below is a short summary of how the abdominal canister functions to facilitate breathing.
Inspiration
Diaphragm contracts and flattens
Chest wall expands
Creates negative pressure in thorax, drawing air into the lungs
Descent of diaphragm also causes expansion of abdominal wall and pelvic floor, due to increase in abdominal pressure
During quiet breathing – exhalation
Diaphragm recoils to resting position
Passive expulsion of air from the lungs
Abdominal wall and pelvic floor gently contract to return to resting position
Increased respiratory demand – active exhalation
Increases air expulsion efficiency to accelerate gas exchange
Accessory respiratory muscles contract to speed up diaphragm elevation
Pelvic floor and abdominal muscles are included within these accessory muscles – as they contract more forcefully – create a cranially directed increase in intra-abdominal pressure – this assists with diaphragm elevation. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7641036/
Activating the Core
Optimal postures
Rib cage
Ribs in location to pelvis
Rib cage should be neutral over pelvis – maximum activation of the inner core
Abdominal wall
Look out for doming in the abdominal muscles
This may indicate:
Breath holding and creating a vacuum
Exercise is too difficult – rectus abdominis weak and contracting using a poor pattern
Be careful – pressure in the perineum area or bulging - may aggravate pelvic organ prolapse link to course page
Another red flag – any type of incontinence symptoms or pelvic pain – may indicate that breathing strategy is wrong, exercise too difficult and you need to adapt or decrease the level of exercise and ensure proper breathing strategy
Activating the Core – Static
Supine position
Knees can be straight or bent
If the pelvic floor muscles are very weak, the hips can be elevated over a wedge or pillow – this way gravity is assisting and taking the weight of the pelvic floor
Activate diaphragm with diaphragmatic breathing and using umbrella imagery
Exhale through pursed lips
Pelvic floor activation with exhale
Cues such as: Stopping flatulence or the flow of urine
Transversus abdominis activation
Cues such as : Zip up tight jeans; drawing in manoeuvre; blowing up a balloon
Static core activation can be performed in various positions, for example:
Prone, 4-point kneeling, half-kneeling, standing
A caveat to consider when prescribing static core activation exercises to a client is if the patient is showing symptoms of pelvic floor tightness issues, such as pelvic pain, pain with bowel movements, pain increasing with contraction, etc. In such cases, the patient should refrain from adding the pelvic floor contraction and rather focus on relaxing the pelvic floor.
Activating the core – Dynamic
Core strength can be challenged by adding movement
This can be done in various positions and with various movements
Some examples are:
Supine
Adding alternate arm reaches – focus on elongation of lattisimus dorsi as well with this movement
Adding alternate knee lifts – important to monitor if the patient’s core is able to control the weight of the leg with this movement. A way to do this is to ask patient to place hands on ASIS while performing exercise. If ASIS’s are unable to remain stable with alternate knee lifts, rather prescribe an exercise such as heel slides or knee fall-outs (bent knee abduction and adduction) to start with.
Combine opposite arm and leg
Adding knee extension as a progression from alternate knees in supine
Straight leg raise - make sure your client is strong enough for this exercise
Prone
Adding Dynamic movements:
Glut sets with core activation
Adding hip extension – if open chain to difficult start with closed chain – keep toe on the ground and lift knee
Alternate arms/legs
4-point kneeling
Some caveats to remember with this position:
Avoid this position in a patient with too large of a DRA
Avoid this position in a patient who is in the later stages of pregnancy and has a DRA
Progression from static to dynamic
Adding alternate arms
Alternate arms and legs
½ kneeling
Good position for core strengthening as it also incorporates balance training as well
Progression from static to dynamic
Alternate arms reach – aim for good excursion in lattisimus dorsi
Trunk rotation
Can add light weights
Standing
Progression from static to dynamic
Standing alternate arm raises, add exercises with theraband
Make use Bodyblade
Bosu
Important to also focus on balance exercises, as evidence shows that pregnant women have decreased standing balance and are at a higher risk for falls, especially during the 3rd trimester
Higher level Exercises
Plank on elbows
Start of on knees, progress to on toes
Side-plank
Single leg bridge
4-point alternate arm/leg balance
Progress to whole body movements, agility and balance
Lunges
Stepping
Stepping to the side
Side squats
High stepping, hand to opposite heel while moving
Summary
Core strengthening is effective from the inside (inner core first) to the outside. Modifications of level of difficulty of exercises and breathing strategies can help avoid symptoms of doming, bulging, leaking and pain. It also motivates the patient when improvements are evident and challenges the patient in small incremental steps.
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Resources[edit | edit source]
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References[edit | edit source]
- ↑ 1.0 1.1 1.2 Chang WD, Lin HY, Lai PT. Core strength training for patients with chronic low back pain. Journal of physical therapy science. 2015;27(3):619-22.
- ↑ Hodges PW, Richardson CA. Inefficient muscular stabilization of the lumbar spine associated with low back pain: a motor control evaluation of transversus abdominis. Spine. 1996 Nov 15;21(22):2640-50.
- ↑ 3.0 3.1 Akuthota V, Ferreiro A, Moore T, Fredericson M. Core stability exercise principles. Current sports medicine reports. 2008 Jan 1;7(1):39-44.
- ↑ Saiklang P, Puntumetakul R, Swangnetr Neubert M, Boucaut R. The immediate effect of the abdominal drawing-in maneuver technique on stature change in seated sedentary workers with chronic low back pain. Ergonomics. 2021 Jan 2;64(1):55-68.
