The Effectiveness of Manual Therapies on the Thoracic Spine​

The Thoracic Spine:[edit | edit source]

Anatomy:[edit | edit source]

  • It is the longest portion of the spine, connecting to the Cervical Spine above and the Lumbar Spine below 
  • It comprises of 12 Vertebrae (T1-T12) 
    • The vertebrae bodies have a similar structure to that of the cervical spine. 
    • The spinous process increase in size the further down the thoracic spine. 
    • Each vertebrae sits above and below a IVD. [1] 
  • T1-T11 articulate with the ribs to provide stability to the rib cage  
Mobility:[edit | edit source]
  • Least mobile portion of the spine 
  • T1-T8 = reduced flexion and extension, increased axial rotation 
  • T9-T12 = increased flexion and extension, reduced axial rotation. [1] 

Main Conditions:[edit | edit source]

Bone Structures:[edit | edit source]
  • Osteoarthritis 
  • Osteoporosis 
  • Scoliosis 
  • Fracture
    • Vertebral Body 
    • Facet joint 
    • Spinous Process 
Trauma:[edit | edit source]
  • Impact
Muscular Structures:[edit | edit source]
  • Muscle Sprain/Strain 
  • Myofascial Pain 
  • Degeneration 
  • Inflammation/Irritation 
Neurological Pain:[edit | edit source]
  • Compression of nerve root  
  • Referred Pain  

Contraindications to Manual Therapy:[edit | edit source]

The contraindications to Manual Therapy are split into Absolute contraindications and precautions. If a patient were to present with any of the absolute contraindications they must not be treated using manual therapies and referred on as appropriate. If any of the precautions present then a patient must be treated with care and their symptoms monitored carefully throughout and after the treatment.

Below is a list of contraindications for spinal manipulations[2]:

Vascular Complications

-      Vertebral Basilar Insufficiency

-      Atherosclerosis of major vessels

-      Aneurism

- Cervical Arterial Dysfunction

Tumours

-      Lung

-      Thyroid

-      Prostate

-      Breast

-      Bone

Bone infections

-      Tuberculosis

-      Bacterial Infection

Traumatic injuries

-      Fractures

-      Joint instability

-      Severe strains/sprains

-      Unstable Spondylolisthesis

Arthritis

-      Rheumatoid Arthritis

-      Ankylosing Spondylitis

-      Psoriatic Arthritis

-      Osteoarthitis (unstable stage)

-      Uncoarthrosis

Psychological Consideration

-      Malingering

-      Hysteria

-      Hypochrondriasis

-      Pain intolerance

- No cognitive capacity

Metabolic Disorders

-      Clotting Disorders

-      Osteopenia

Neurological Complication

-      Sacral nerve root involvement from disc protrusion

-      Disc lesions

-      Space Occupying lesion

- Progressive Neurological Disorders

- Cauda Equina

Precautions:[edit | edit source]
  • Pregnancy 
  • Children  
  • Elderly 
  • Frailty 
  • Arthritis  
  • OA (how advanced and signs and symptoms) 
  • Neurological signs and symptoms 
  • Cognitive Deficit 
  • SIN Factor 
  • Previous Spinal Surgery  
  • Auto-immune Disorders 
  • Fibromyalgia 
  • Chronic Fatigue 
  • Scoliosis 

Manual Therapies[edit | edit source]

The International Federation of Orthopaedic Manipulative Physical Therapists (http://www.ifompt.org) defines manual therapy techniques as:

"Any hands on treatment provided by the Physiotherapist; including joint mobilisation, manipulation or soft tissue therapy. With the aim to improve tissue extensibility; increase range of motion of the joint complex; mobilise or manipulate soft tissues and joints; induce relaxation; change muscle function; modulate pain; and reduce soft tissue swelling, inflammation or movement restriction." 

Mobilisations:[edit | edit source]

Sympo-excitatory response​[edit | edit source]

Joint mobilisations have been defined by maitland as an externally imposed, small amplitude passive motion that is intended to produce gliding or traction at a joint[3]. ​

They are often used in the Physiotherapy management in order to produce mechanical and neurophysiological effects[3]. It has been theorised by many authors that this is achieved when the sympathetic nervous system is excited following mobilisations, and thus the pain threshold increases. There have been several RCT's surrounding this area of interest so a systematic review was written by Kingston et al (2014) on the topic[4] and found that each study did demonstrate an sympo-excitatory response. Therefore following an acute injury, or where a patient is suffering from painful inflammation of the target area, it would be useful to treat them centrally, using mobilisations, away from the target area. This can be performed at any level of the spine, including the thoracic spine.​

Pulmonary Function​[edit | edit source]

Recent evidence has been published ​acknowledging the benefits of thoracic mobilisations on pulmonary function in patients. When combined with self stretching exercises on the pec minor and major muscle group along with the trapezius muscles, thoracic joint mobilisations have been shown to be statistically superior in improving FEV1, and PEF than self stretching alone. However, self stretching and thoracic mobilisations was statistically greater in improving FVC than thoracic joint mobilisations alone.[5]

Mobilisations are not limited to use in the solely MSK setting, they can also be used with patients who suffer neurological deficit. Stroke patients often suffer with limited thoracic movement[6] and impaired coughing ability leading to further respiratory complications[7]. Combined weekly thoracic and cervical joint mobilisations ( with movement) along with 30 minutes of exercise, 15 minutes of ergometer training and 15 minutes of functional electrical stimulation a week, has been shown to improve FEV1, FVC and coughing function greater than exercise, ergometer training and electrical stimulation alone[8].

Shoulder Pain[edit | edit source]

Shoulder pain is a very prevalent condition with 1 in 3 people expected to suffer from it in their lifetimes[9]. As most clinical tests lack specificity, there is no gold standard clinical test for shoulder pathologies so clinical trials lead to the use of the term 'non specific shoulder pain'[10][11]. Due to the anatomical position of the shoulder girdle and thoracic spine. Treatment on the thoracic spine can treat pain in the shoulder. Thoracic joint mobilisations have been found to statistically accelerate recovery and reduction of pain and disability in patients with non specific pain between 12 and 52 weeks[12].

To further this, Thoracic Mulligans Concept SNAGs may influence short term pain levels and shoulder mobility in patients with secondary impingement syndrome[13]. This is where SNAGs are defined as a sustained natural apophoseal glide[14].

Neck Pain

Decreased mobility of the thoracic spine has become significantly related to neck pain because of biomechanical links between the thoracic and cervical spine.

Inclusion of thoracic mobilisation with cranio-cervical flexor exercise in patients with chronic neck pain versus exercises alone showed greater improvements in VAS pain, muscular endurance and the neck disability index (Ko, Jeong and Lee, 2010).

Thoracic mobilisations on non-specific neck pain found Maitland mobilisation along with the conventional treatment proved to be more effective in improving Neck Disability Index (NDI) and Numeric Pain Rating Scale scores in patients with nonspecific neck pain than Mulligan mobilisation along with the conventional treatment (Inderpreet, Arunmozhi and Umer, 2013).

The effectiveness between manipulation (thrust manipulation) and mobilsations directed at the thoracic spine in patients with neck pain found that patients in the manipulation group experienced greater reductions in disability and pain compared to the mobilisations group . Subjects receiving manipulation experienced greater reductions in disability, with a between-group difference of 10%, and pain, with a between-group difference of 2% (Cleland et al., 2007).

Manipulations:[edit | edit source]

"A manual therapy technique comprising a continuum of skilled passive movements to the joint complex that are applied at varying speeds and amplitudes, that may include a small-amplitude/ high velocity therapeutic movement with the intent to restore optimal motion, function, and/ or to reduce pain." [15]

Grades: Maitland Joint Mobilisation Scale [16][edit | edit source]

Grade I - Small amplitude rhythmic oscillating mobilization in early range of movement 

Grade II - Large amplitude rhythmic oscillating mobilization in midrange of movement 

Grade III - Large amplitude rhythmic oscillating mobilization to point of limitation in range of movement  

Grade IV - Small amplitude rhythmic oscillating mobilization at endrange of movement  

Grade V (Thrust Manipulation) - Small amplitude, quick thrust at endrange of movement

Thoracic Spine Manipulations in the Management of Cervicogenic Headaches: [edit | edit source]

Evidence surrounding manipulations in the management of cervicogenic headaches is constantly evolving, with current evidence suggesting that thoracic manipulations should be used as a longterm treatment plan. A systematic review by [17]Posadzki and Ernst, (2012), including 5 RCT's showed that no significant differences between the manipulation and control groups were observed in any of the 3 outcome measures. However, by week 7, each group experienced significant reductions in mean daily headache hours and mean number of analgesics per day. These changes were maintained through the observation period. From this it can be seen that thoracic manipulations for the treatment of Cercicogenic headaches is encouraging, with long term effects, but not conclusive.[17]

Research also suggest that manipulations alongside soft tissue therapy, re- education and muscle strengthening exercises showed a 50% decrease in tension headache length.[18] Therefore the specific effects of manipulations alone are not clear, but a positive effect can be seen through using them as a treatment option.[19]


Soft Tissue (STT):[edit | edit source]

Summary:[edit | edit source]

References:[edit | edit source]

  1. 1.0 1.1 Palastanga, N. and Field, D. (2014). Anatomy and Human Movement. Kent: Elsevier Science. 
  2. Gatterman M. Standards of practice relative to complications of and contraindications to spinal manipulative therapy. The Journal of the CCA. 1991;35(4):67-68.
  3. 3.0 3.1 Edmond S. Joint Mobilization/Manipulation - E-Book. 3rd ed. Elsevier Health Sciences.​; 2016.
  4. Kingston L, Claydon L, Tumilty S. The effects of spinal mobilizations on the sympathetic nervous system: A systematic review. Manual Therapy. 2014;19(4):281-287.
  5. Hwangbo P, Hwangbo G, Park J, Lee S. The Effect of Thoracic Joint Mobilization and Self-stretching Exercise on Pulmonary Functions of Patients with Chronic Neck Pain. Journal of Physical Therapy Science. 2014;26(11):1783-1786.
  6. Ogiwara S, Ogura K. Antero-Posterior Excursion of the Hemithorax in Hemiplegia. Journal of Physical Therapy Science. 2001;13(1):11-15.
  7. Gauld L, Boynton A. Relationship between peak cough flow and spirometry in Duchenne muscular dystrophy. Pediatric Pulmonology. 2005;39(5):457-460.
  8. 6. Jang S, Bang H. Effect of thoracic and cervical joint mobilization on pulmonary function in stroke patients. Journal of Physical Therapy Science. 2016;28(1):257-260.
  9. van der Heijden G. Shoulder disorders: a state-of-the-art review. Best Practice & Research Clinical Rheumatology. 1999;13(2):287-309.
  10. Lewis J. Rotator cuff tendinopathy/subacromial impingement syndrome: is it time for a new method of assessment?. British Journal of Sports Medicine. 2009;43(4):259-264.
  11. Dickens V, Williams J, Bhamra M. Role of physiotherapy in the treatment of subacromial impingement syndrome: a prospective study. Physiotherapy. 2005;91(3):159-164.
  12. Peek A, Miller C, Heneghan N. Thoracic manual therapy in the management of non-specific shoulder pain: a systematic review. Journal of Manual & Manipulative Therapy. 2015;23(4):176-187.
  13. Andrews D, Odland-Wolf K, May J, Baker R, Nasypany A. THE UTILIZATION OF MULLIGAN CONCEPT THORACIC SUSTAINED NATURAL APOPHYSEAL GLIDES ON PATIENTS CLASSIFIED WITH SECONDARY IMPINGEMENT SYNDROME: A MULTI-SITE CASE SERIES. International Journal of Sports Physical Therapy. 2018;13(1):121-130.
  14. Hing W, Hall T, Rivett D, Vicenzino B, Mulligan B. The Mulligan Concept of Manual Therapy - eBook: Textbook of Techniques. Chatswood: Elsevier; 2015.
  15. Mintken PE, et al. A Model for Standardizing Manipulation Terminology in Physical Therapy Practice. J Orthop Sports Phys Ther 2008;38(3):A1-A6.
  16. Rao, R., Balthillaya, G., Prabhu, A. and Kamath, A. (2018). Immediate effects of Maitland mobilization versus Mulligan Mobilization with Movement in Osteoarthritis knee- A Randomized Crossover trial. Journal of Bodywork and Movement Therapies, 22(3), pp.572-579.
  17. 17.0 17.1 Posadzki, P. and Ernst, E. (2012). Spinal manipulations for tension-type headaches: A systematic review of randomized controlled trials. Complementary Therapies in Medicine, 20(4), pp.232-239.
  18. Bove, G. and Nilsson, N. (1998). Spinal Manipulation in the Treatment of Episodic Tension-Type Headache. JAMA, 280(18), p.1576.
  19. R.F. Castien, D.A.W.M. van der Windt, A. Grooten, J. DekkerEffectiveness of manual therapy compared to usual care by the general practitioner for chronic tension-type headache: a pragmatic, randomised, clinical trial, Cephalalgia, 31 (2) (2009), pp. 133-143​
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