Diagnostic Imaging of the Lumbar Spine: Difference between revisions
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== Introduction == | == Introduction == | ||
[[Medical Imaging|Diagnostic imaging]] can be an important component of the assessment process. Imaging assists physiotherapists in screening for critical conditions and in defining musculoskeletal disorders. Diagnostic imaging results can be integrated into the treatment plan to help detect barriers to functional mobility and to choose safe and appropriate interventions.<ref>Prabhu and Ahmed T. [http://austinpublishinggroup.com/yoga-physical-therapy/fulltext/aypt-v2-id1017.php#Top Imaging Practice around the World in Physiotherapy]. Ann Yoga Phys Ther. 2017; 2(1): 1017. Ann Yoga Phys Ther - Volume 2 Issue 1 - 2017 | [[Medical Imaging|Diagnostic imaging]] can be an important component of the assessment process. Imaging assists physiotherapists in screening for critical conditions and in defining musculoskeletal disorders. Diagnostic imaging results can be integrated into the treatment plan to help detect barriers to functional mobility and to choose safe and appropriate interventions.<ref>Prabhu and Ahmed T. [http://austinpublishinggroup.com/yoga-physical-therapy/fulltext/aypt-v2-id1017.php#Top Imaging Practice around the World in Physiotherapy]. Ann Yoga Phys Ther. 2017; 2(1): 1017. Ann Yoga Phys Ther - Volume 2 Issue 1 - 2017 | ||
</ref> A general article on [[Diagnostic Imaging for Physical Therapists|diagnostic imaging for Physical Therapist]] can be accessed in Physiopedia where it identifies [[MRI Scans|MRI]], [[X-Rays|X- | </ref> A general article on [[Diagnostic Imaging for Physical Therapists|diagnostic imaging for Physical Therapist]] can be accessed in Physiopedia where it identifies [[MRI Scans|MRI]], [[X-Rays|X-rays]], [[CT Scans|CT scans]], and bone scans as leading examples of diagnostic imaging that serve as useful tools for diagnosis, prognosis, intervention, and assessment of injuries. | ||
== Radiograph ( | == Imaging Used == | ||
Diagnostic ultrasound and X-rays are the most common forms of imaging requested by physiotherapists.<ref>Gross DP, Emery DJ, Long A, Reese H, Whittaker JL. [https://www.tandfonline.com/doi/abs/10.1080/21679169.2018.1505947 A descriptive study of physiotherapist use of publicly funded diagnostic imaging modalities in Alberta, Canada]. European Journal of Physiotherapy. 2018 Oct 10:1-6.</ref> This page will cover the four diagnostic imaging modalities commonly used in lumbar spine disorders. | |||
=== Radiograph (x-rays) === | |||
[[File:Lumbar Radiograph.jpg|thumb|Lumbar X-ray]] | [[File:Lumbar Radiograph.jpg|thumb|Lumbar X-ray]] | ||
Considered as a first-line imaging modality for suspected disorders of musculoskeletal origin.<ref name=":0">Tang C, Aggarwal R. [https://journals.sagepub.com/doi/abs/10.1177/1755738013491081?journalCode=inoa Imaging for musculoskeletal problems]. InnovAiT. 2013 Nov;6(11):735-8.</ref> A general description can be accessed in a Physiopedia page about [[X-Rays| | Considered as a first-line imaging modality for suspected disorders of musculoskeletal origin.<ref name=":0">Tang C, Aggarwal R. [https://journals.sagepub.com/doi/abs/10.1177/1755738013491081?journalCode=inoa Imaging for musculoskeletal problems]. InnovAiT. 2013 Nov;6(11):735-8.</ref> A general description can be accessed in a Physiopedia page about [[X-Rays|x-rays]]. | ||
X-rays can evaluate lumbar alignment, vertebral body and disc space size, bone space and alignment, and gross evaluation of soft tissue structures. Clinically, | X-rays can evaluate lumbar alignment, vertebral body and disc space size, bone space and alignment, and gross evaluation of soft tissue structures. Clinically, x-rays are capable of detecting lumbar spine dislocations and [[Lumbar Fractures|fractures]] and can also be used to monitor fracture healing.<ref name=":0" /> | ||
== Diagnostic Ultrasound == | === Diagnostic Ultrasound === | ||
[[Ultrasound Scans|Ultrasound]] is a cross-sectional imaging method that uses sound waves reflected off tissue interfaces. It allows imaging of muscles while moving or applying resistance, as well as stress testing of ligaments. It is the quickest and least invasive examination of tissues close to the skin surface of the lumbar region, including cortical outline of [[Lumbar Vertebrae|lumbar vertebra]], paralumbar muscles and tendons, spinal ligaments, [[Intervertebral disc|intervertebral discs]], and nerves.<ref name=":1">McKinnis LN. Fundamentals of musculoskeletal imaging. FA Davis; 2013 Dec 26.</ref> | [[Ultrasound Scans|Ultrasound]] is a cross-sectional imaging method that uses sound waves reflected off tissue interfaces. It allows imaging of muscles while moving or applying resistance, as well as stress testing of ligaments. It is the quickest and least invasive examination of tissues close to the skin surface of the lumbar region, including cortical outline of [[Lumbar Vertebrae|lumbar vertebra]], paralumbar muscles and tendons, spinal ligaments, [[Intervertebral disc|intervertebral discs]], and nerves.<ref name=":1">McKinnis LN. Fundamentals of musculoskeletal imaging. FA Davis; 2013 Dec 26.</ref> | ||
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* Tears of the paralumbar muscles, tendons, and ligaments | * Tears of the paralumbar muscles, tendons, and ligaments | ||
* Degenerative changes of tendons and paralumbar muscles | * Degenerative changes of tendons and paralumbar muscles | ||
* Neuropathies of lumbar spinal nerves | * [[Neuropathies]] of lumbar spinal nerves | ||
* Inflammatory arthritis affecting the lumbar spine | * Inflammatory arthritis affecting the lumbar spine | ||
* Cysts in the lumbar region | * Cysts in the lumbar region | ||
== Magnetic Resonance Imaging (MRI) | === Magnetic Resonance Imaging (MRI) === | ||
MRI scans can help differentiate between traumatic, inflammatory, degenerative and neoplastic causes of lower back pain.<ref name=":0" /> Tumours and cauda equina can also be evaluated through MR imaging. It is the best form of imaging to investigate soft tissue and neural structures of the spine. For a more in depth description see the page on [[MRI Scans|MRI.]] | [[File:MRI Disk.png|thumb|Lumbar MRI|254x254px]] | ||
MRI scans can help differentiate between traumatic, inflammatory, degenerative and neoplastic causes of [[Low Back Pain|lower back pain]].<ref name=":0" /> Tumours and [[Cauda Equina Syndrome|cauda equina syndrome]] can also be evaluated through MR imaging. It is the best form of imaging to investigate soft tissue and neural structures of the spine. For a more in depth description see the page on [[MRI Scans|MRI.]] | |||
Clinical uses include detection of lumbar disc herniation, soft tissue injuries, lumbar vertebra pathology (including tumours) as well as stress fractures.<ref name=":1" />It is however not routinely indicated. | |||
Clinical uses include detection of lumbar [[Disc Herniation|disc herniation]], soft tissue injuries, lumbar vertebra pathology (including tumours) as well as [[Stress Fractures|stress fractures]].<ref name=":1" />It is however not routinely indicated. | |||
=== ''' | ===== '''Indications''' ===== | ||
Early imaging does not necessarily improve treatment decision-making or patient outcomes and needs to be carefully considered. The following evidence-based clinical practice guidelines for acute low back pain are recommended<ref name=":2">Webster BS, Bauer AZ, Choi Y, Cifuentes M, Pransky GS. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4235393/ Iatrogenic consequences of early magnetic resonance imaging in acute, work-related, disabling low back pain]. Spine. 2013 Oct 15;38(22):1939-46.</ref>: | Early MR imaging does not necessarily improve treatment decision-making or patient outcomes and needs to be carefully considered. The following evidence-based clinical practice guidelines for acute low back pain are recommended<ref name=":2">Webster BS, Bauer AZ, Choi Y, Cifuentes M, Pransky GS. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4235393/ Iatrogenic consequences of early magnetic resonance imaging in acute, work-related, disabling low back pain]. Spine. 2013 Oct 15;38(22):1939-46.</ref>: | ||
* MRI may be indicated when red flags are present (infection, cancer, cauda equina) | * MRI may be indicated when red flags are present (infection, cancer, cauda equina) | ||
* MRI is not indicated for non-specific low back pain | * MRI is not indicated for non-specific low back pain | ||
* Imaging should be delayed in cases of suspected herniated discs or spinal stenosis to allow for a period of natural recovery (which occurs in up to 50% of cases) | * Imaging should be delayed in cases of suspected [[Disc Herniation|herniated discs]] or [[Lumbar Spinal Stenosis|spinal stenosis]] to allow for a period of natural recovery (which occurs in up to 50% of cases). | ||
== Computed Tomography == | === Computed Tomography === | ||
This modality can evaluate complex trauma and bony abnormalities of the lumbar region.<ref name=":0" /> [[CT Scans|CT scan]] is | This modality can evaluate complex trauma and bony abnormalities of the lumbar region.<ref name=":0" /> [[CT Scans|CT scan]] is described in a Physiopedia page. CT scans provide detailed, digital cross-sectional images of the body relatively free from the superimposition of the different tissues. Clinically the modality can detect fractures of the lumbar spine, especially complex fractures, arthritic changes of the lumbar vertebra, and lumbar spinal stenosis.<ref name=":1" />CT scans do however result in exposure to harmful radiation and should be used sparingly. | ||
[[File:Spondylolysis CT scan (1).docx.jpg|thumb|218x218px|CT of lumbar vertebrae with spondylolysis]] | [[File:Spondylolysis CT scan (1).docx.jpg|thumb|218x218px|CT of lumbar vertebrae with spondylolysis]] | ||
== Caution with Imaging == | == Caution with Imaging == | ||
Although | Although advances in medical imaging have come with various benefits, the research has indicated that careful reasoning needs to be exercised when referring for imaging, and when interpreting and conveying results. Factors to consider include asymptomatic findings, iatrogenic effect and radiation exposure. | ||
=== Asymptomatic Findings === | === Asymptomatic Findings === | ||
Findings of degenerative changes in the spine | Findings of degenerative changes in the spine are very common in asymptomatic individuals, especially with increasing age. It can therefore be concluded that many such findings may in fact be normal (not pathological) and may not be associated with pain. Even in symptomatic patients, degenerative findings do not always correlated with pain. | ||
It is important to always consider the patient's clinical presentation, age and objective assessment when interpreting imaging results.<ref name=":3">Brinjikji W, Luetmer PH, Comstock B, Bresnahan BW, Chen LE, Deyo RA, Halabi S, Turner JA, Avins AL, James K, Wald JT. Systematic literature review of imaging features of spinal degeneration in asymptomatic populations. American journal of neuroradiology. 2015 Apr 1;36(4):811-6.</ref> | |||
{| class="wikitable" | {| class="wikitable" | ||
|+Common | |+Common MRI findings in asymptomatic patients<ref name=":3" /> | ||
!Image finding | !Image finding | ||
! colspan="6" |Prevalence rates by age | ! colspan="6" |Prevalence rates by age | ||
| Line 59: | Line 65: | ||
|'''80y''' | |'''80y''' | ||
|- | |- | ||
|Disc degeneration | |''Disc degeneration'' | ||
|52% | |52% | ||
|68% | |68% | ||
| Line 67: | Line 73: | ||
|96% | |96% | ||
|- | |- | ||
|Disc height loss | |''Disc height loss'' | ||
|34% | |34% | ||
|45% | |45% | ||
| Line 75: | Line 81: | ||
|84% | |84% | ||
|- | |- | ||
|Disc bulge | |''Disc bulge'' | ||
|40% | |40% | ||
|50% | |50% | ||
| Line 83: | Line 89: | ||
|84% | |84% | ||
|- | |- | ||
|Disc protrusion | |''Disc protrusion'' | ||
|31% | |31% | ||
|33% | |33% | ||
| Line 91: | Line 97: | ||
|43% | |43% | ||
|- | |- | ||
|Annular fissure | |''Annular fissure'' | ||
|20% | |20% | ||
|22% | |22% | ||
| Line 99: | Line 105: | ||
|29% | |29% | ||
|- | |- | ||
|Facet degneration | |''Facet degneration'' | ||
|9% | |9% | ||
|18% | |18% | ||
| Line 107: | Line 113: | ||
|83% | |83% | ||
|- | |- | ||
|Spondylolisthesis | |''Spondylolisthesis'' | ||
|5% | |5% | ||
|8% | |8% | ||
| Line 115: | Line 121: | ||
|50% | |50% | ||
|} | |} | ||
A Systematic Review on Lumbar MRI results in adults younger that 50y, found the following<ref>Brinjikji, W., Diehn, F.E., Jarvik, J.G., Carr, C.M., Kallmes, D.F., Murad, M.H. and Luetmer, P.H., 2015. MRI findings of disc degeneration are more prevalent in adults with low back pain than in asymptomatic controls: a systematic review and meta-analysis. ''American Journal of Neuroradiology'', ''36''(12), pp.2394-2399.</ref>: | |||
* In younger individuals (<50y) disc protrusion is more likely to be associated with symptoms, as the prevalence of disc protrusions in symptomatic individuals is higher (40%) than in asymptomatic individuals (20%). | |||
* Disc extrusions are very rare in asymptomatic individuals | |||
* There is a strong association between disc bulges/spondylolysis and low back pain in individuals younger than 50y - this association disappears with increasing age. | |||
* Although associations exist between low back pain and degenerative findings on MRI (in young adults), it does not necessarily imply causation. | |||
=== Iatrogenic Effects === | === Iatrogenic Effects === | ||
| Line 120: | Line 134: | ||
* Studies have found that early MRI scans in patients with acute work-related, non-specific low back pain may lead to worse outcomes and a higher risk of surgery (even after controlling for severity).<ref name=":2" /> | * Studies have found that early MRI scans in patients with acute work-related, non-specific low back pain may lead to worse outcomes and a higher risk of surgery (even after controlling for severity).<ref name=":2" /> | ||
* Early MRIs may lead to a negative sequelae of unnecessary, ineffective interventions with subsequent poor outcomes.<ref name=":2" /> | * Early MRIs may lead to a negative sequelae of unnecessary, ineffective interventions with subsequent poor outcomes.<ref name=":2" /> | ||
* See the page on the '''[[Nocebo Effect]]''' | |||
== Conclusion == | |||
Diagnostic imaging can be very valuable in patients presenting with lower back pain, especially in the presence of red flags and symptoms that persist. It is however not routinely indicated and can in fact contribute to poor clinical outcomes. Clinicians should be aware of normal feature of ageing, as well as the latest [[Clinical Guidelines: Diagnostic Imaging|clinical practice guidelines]] regarding appropriate referral. Good [[Communication: The Most Potent Tool In The Box|communication skills]] are needed when communicating imaging results to patients. | |||
== References == | == References == | ||
Revision as of 17:24, 21 March 2024
Original Editor - Jigs Coligado
Top Contributors - Melissa Coetsee, Jigs Coligado, Kim Jackson and Lucinda hampton
Introduction[edit | edit source]
Diagnostic imaging can be an important component of the assessment process. Imaging assists physiotherapists in screening for critical conditions and in defining musculoskeletal disorders. Diagnostic imaging results can be integrated into the treatment plan to help detect barriers to functional mobility and to choose safe and appropriate interventions.[1] A general article on diagnostic imaging for Physical Therapist can be accessed in Physiopedia where it identifies MRI, X-rays, CT scans, and bone scans as leading examples of diagnostic imaging that serve as useful tools for diagnosis, prognosis, intervention, and assessment of injuries.
Imaging Used[edit | edit source]
Diagnostic ultrasound and X-rays are the most common forms of imaging requested by physiotherapists.[2] This page will cover the four diagnostic imaging modalities commonly used in lumbar spine disorders.
Radiograph (x-rays)[edit | edit source]
Considered as a first-line imaging modality for suspected disorders of musculoskeletal origin.[3] A general description can be accessed in a Physiopedia page about x-rays.
X-rays can evaluate lumbar alignment, vertebral body and disc space size, bone space and alignment, and gross evaluation of soft tissue structures. Clinically, x-rays are capable of detecting lumbar spine dislocations and fractures and can also be used to monitor fracture healing.[3]
Diagnostic Ultrasound[edit | edit source]
Ultrasound is a cross-sectional imaging method that uses sound waves reflected off tissue interfaces. It allows imaging of muscles while moving or applying resistance, as well as stress testing of ligaments. It is the quickest and least invasive examination of tissues close to the skin surface of the lumbar region, including cortical outline of lumbar vertebra, paralumbar muscles and tendons, spinal ligaments, intervertebral discs, and nerves.[4]
Clinically it is capable of detecting[4]:
- Tears of the paralumbar muscles, tendons, and ligaments
- Degenerative changes of tendons and paralumbar muscles
- Neuropathies of lumbar spinal nerves
- Inflammatory arthritis affecting the lumbar spine
- Cysts in the lumbar region
Magnetic Resonance Imaging (MRI)[edit | edit source]
MRI scans can help differentiate between traumatic, inflammatory, degenerative and neoplastic causes of lower back pain.[3] Tumours and cauda equina syndrome can also be evaluated through MR imaging. It is the best form of imaging to investigate soft tissue and neural structures of the spine. For a more in depth description see the page on MRI.
Clinical uses include detection of lumbar disc herniation, soft tissue injuries, lumbar vertebra pathology (including tumours) as well as stress fractures.[4]It is however not routinely indicated.
Indications[edit | edit source]
Early MR imaging does not necessarily improve treatment decision-making or patient outcomes and needs to be carefully considered. The following evidence-based clinical practice guidelines for acute low back pain are recommended[5]:
- MRI may be indicated when red flags are present (infection, cancer, cauda equina)
- MRI is not indicated for non-specific low back pain
- Imaging should be delayed in cases of suspected herniated discs or spinal stenosis to allow for a period of natural recovery (which occurs in up to 50% of cases).
Computed Tomography[edit | edit source]
This modality can evaluate complex trauma and bony abnormalities of the lumbar region.[3] CT scan is described in a Physiopedia page. CT scans provide detailed, digital cross-sectional images of the body relatively free from the superimposition of the different tissues. Clinically the modality can detect fractures of the lumbar spine, especially complex fractures, arthritic changes of the lumbar vertebra, and lumbar spinal stenosis.[4]CT scans do however result in exposure to harmful radiation and should be used sparingly.
.docx.jpg)
Caution with Imaging[edit | edit source]
Although advances in medical imaging have come with various benefits, the research has indicated that careful reasoning needs to be exercised when referring for imaging, and when interpreting and conveying results. Factors to consider include asymptomatic findings, iatrogenic effect and radiation exposure.
Asymptomatic Findings[edit | edit source]
Findings of degenerative changes in the spine are very common in asymptomatic individuals, especially with increasing age. It can therefore be concluded that many such findings may in fact be normal (not pathological) and may not be associated with pain. Even in symptomatic patients, degenerative findings do not always correlated with pain.
It is important to always consider the patient's clinical presentation, age and objective assessment when interpreting imaging results.[6]
| Image finding | Prevalence rates by age | |||||
|---|---|---|---|---|---|---|
| 30y | 40y | 50y | 60y | 70y | 80y | |
| Disc degeneration | 52% | 68% | 80% | 88% | 93% | 96% |
| Disc height loss | 34% | 45% | 56% | 67% | 76% | 84% |
| Disc bulge | 40% | 50% | 60% | 69% | 77% | 84% |
| Disc protrusion | 31% | 33% | 36% | 38% | 40% | 43% |
| Annular fissure | 20% | 22% | 23% | 25% | 27% | 29% |
| Facet degneration | 9% | 18% | 32% | 50% | 69% | 83% |
| Spondylolisthesis | 5% | 8% | 14% | 23% | 35% | 50% |
A Systematic Review on Lumbar MRI results in adults younger that 50y, found the following[7]:
- In younger individuals (<50y) disc protrusion is more likely to be associated with symptoms, as the prevalence of disc protrusions in symptomatic individuals is higher (40%) than in asymptomatic individuals (20%).
- Disc extrusions are very rare in asymptomatic individuals
- There is a strong association between disc bulges/spondylolysis and low back pain in individuals younger than 50y - this association disappears with increasing age.
- Although associations exist between low back pain and degenerative findings on MRI (in young adults), it does not necessarily imply causation.
Iatrogenic Effects[edit | edit source]
- Studies have found that early MRI scans in patients with acute work-related, non-specific low back pain may lead to worse outcomes and a higher risk of surgery (even after controlling for severity).[5]
- Early MRIs may lead to a negative sequelae of unnecessary, ineffective interventions with subsequent poor outcomes.[5]
- See the page on the Nocebo Effect
Conclusion[edit | edit source]
Diagnostic imaging can be very valuable in patients presenting with lower back pain, especially in the presence of red flags and symptoms that persist. It is however not routinely indicated and can in fact contribute to poor clinical outcomes. Clinicians should be aware of normal feature of ageing, as well as the latest clinical practice guidelines regarding appropriate referral. Good communication skills are needed when communicating imaging results to patients.
References[edit | edit source]
- ↑ Prabhu and Ahmed T. Imaging Practice around the World in Physiotherapy. Ann Yoga Phys Ther. 2017; 2(1): 1017. Ann Yoga Phys Ther - Volume 2 Issue 1 - 2017
- ↑ Gross DP, Emery DJ, Long A, Reese H, Whittaker JL. A descriptive study of physiotherapist use of publicly funded diagnostic imaging modalities in Alberta, Canada. European Journal of Physiotherapy. 2018 Oct 10:1-6.
- ↑ 3.0 3.1 3.2 3.3 Tang C, Aggarwal R. Imaging for musculoskeletal problems. InnovAiT. 2013 Nov;6(11):735-8.
- ↑ 4.0 4.1 4.2 4.3 McKinnis LN. Fundamentals of musculoskeletal imaging. FA Davis; 2013 Dec 26.
- ↑ 5.0 5.1 5.2 Webster BS, Bauer AZ, Choi Y, Cifuentes M, Pransky GS. Iatrogenic consequences of early magnetic resonance imaging in acute, work-related, disabling low back pain. Spine. 2013 Oct 15;38(22):1939-46.
- ↑ 6.0 6.1 Brinjikji W, Luetmer PH, Comstock B, Bresnahan BW, Chen LE, Deyo RA, Halabi S, Turner JA, Avins AL, James K, Wald JT. Systematic literature review of imaging features of spinal degeneration in asymptomatic populations. American journal of neuroradiology. 2015 Apr 1;36(4):811-6.
- ↑ Brinjikji, W., Diehn, F.E., Jarvik, J.G., Carr, C.M., Kallmes, D.F., Murad, M.H. and Luetmer, P.H., 2015. MRI findings of disc degeneration are more prevalent in adults with low back pain than in asymptomatic controls: a systematic review and meta-analysis. American Journal of Neuroradiology, 36(12), pp.2394-2399.
