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Headaches and the Neck “Cervicogenic Headaches” and Treatment with Spinal Manipulation

Headaches and the Neck “Cervicogenic Headaches” and Treatment with Spinal Manipulation
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For decades, clinicians have realized that neck problems can cause headaches. For example, early whiplash expert and orthopedic surgeon, Ruth Jackson, MD (1902-1994), published a study in 1947 in the Journal of the American Medical Women’s Association titled (1):

The Cervical Syndrome As a Cause of Migraine

In this article, Dr. Jackson notes that at least half of patients suffering from cervical spine problems will also complain of headaches as one of their principle symptoms. Dr. Jackson noted that irritation of the upper cervical spine nerve roots, C1-C2-C3, are most likely to cause headache, and that it is these upper cervical spine nerve roots that are most vulnerable to whiplash trauma. She noted that these cervical spinal post-traumatic headaches may still be present decades later.

•••••

In 1957, Beverly Hills, CA, neurosurgeon Emil Seletz, MD (1907-1999), published a study in the Journal of the International College of Surgeons, titled (2):

Craniocerebral Injuries and the Postconcussion Syndrome

In this article, Dr. Seletz notes that many patients who suffer neck injury will develop incapacitating severe headaches that may persist for months or even years. He claims that the cause of the headache is injury to the 2nd cervical nerve root, explaining that the C2 nerve root communicates with the trigeminal nerve (cranial nerve V) in the lower brainstem and in the upper cervical spinal cord. He notes that these headaches are often severe, begin in the suboccipital area and radiate to the vertex of the skull or to behind one eye; or they may be located in the frontal or temporal region. He believes that the most probable source for these headaches is the upper cervical spinal nerve roots. Dr. Seletz states:

“Analysis of the symptoms of several thousands of such patients will reveal that headaches persisting for months or years after a cerebral concussion are real and that they are extracranial in origin.”

“The 2nd cervical nerve root is more vulnerable to trauma than other nerve roots because it is not protected by pedicles and facets.”

•••••

The following year, 1958, Dr. Seletz published a study in the journal California Medicine, titled (3):

Headache of Extracranial Origin

In this article, Dr. Seletz continues to discuss the neuroanatomical relationships between the cervical spine, especially the C2 nerve root, and headaches. Dr. Seletz notes that the cervical intervertebral foramina, although appearing roomy, are constricted by cartilage, by the vertebral artery, and by the lateral intervertebral joints, also known as the uncinate processes. Osteophytes, swelling or adhesions in this constricted intervertebral foramina space almost inevitably causes painful vascular or neural disorders that can lead to headache.

Dr. Seletz emphasizes that the lateral intervertebral joints are a common irritant to the cervical nerve roots, resulting in headache. These joints are located at the lateral margins of the cervical disc and are a “small synovial joint,” first described by German anatomist Hubert Von Luschka in 1858 (4). Other names for these joints of Von Luschka include:

  • Uncinate processes
  • Covertebral articulations
  • Uncovertebral joints
  • Neurocentral joints
  • Lateral intervertebral joints

A recent human study confirms that these joints of Von Luschka are synovial joints with a joint capsule and innervated with pain afferents (5). This study states that the uncinate process joint is:

“A synovial or diarthrodial joint must exhibit a joint capsule, a synovial membrane, synovial fluid, and articular cartilage.”

“Our present findings support the notion that the uncovertebral complex includes a synovial joint.”

Understanding that the uncinate process joint is synovial with an innervated joint capsule is important to many chiropractors and their patients. These joints are capable of becoming subluxated (misaligned). These joints are capable of causing local pain and causing nerve root irritation, both of which can cause the pain of headache. The uncinate joint subluxation is distinct from the facet joint subluxation. The adjustment of the uncinate joint subluxation is quite distinct from the facet joint subluxation.

•••••

The following year, 1958, Dr. Seletz published yet another paper on the topic of neck injury and headache. It was published in the Journal of the American Medical Association, and titled (6):

Whiplash Injuries:
Neurophysiological Basis for Pain
and Methods Used for Rehabilitation

In this article, Dr. Seletz continues to review similar neuroanatomical relationships, pathoanatomy, and pathophysiology that can cause headaches. Once again Dr. Seletz emphasizes the importance of the C2 nerve root in headache. He states:

“The physiological communication between the second cervical and the trigeminal nerves in the spinal fifth tract of the medulla [trigeminal-cervical nucleus] involves the first division of the trigeminal nerve [ophthalmic] and thereby gives attacks of hemicrania with pain radiating behind the corresponding eye.”

“Many headaches are not headaches at all, but really a pain in the neck.”

Interestingly, for treatment, Dr. Seletz advocates:

“The procedure outlined here includes heat, manipulation, and traction.”

•••••

In spite of these studies fully describing cervical spine dysfunction, pathology, and/or injury as causing headache in the 1940s and 1950s, official recognition of “Cervicogenic Headache” did not occur until 1983. That article, published in the journal Cephalagia, was titled (7):

“Cervicogenic Headache” An Hypothesis

This study listed the diagnostic criteria for cervicogenic headache as:

  • Precipitation of head pain by neck movement and/or sustained awkward head positioning.
  • Precipitation of head pain by external pressure over the upper cervical or occipital region on the symptomatic side.
  • Restriction of neck range of motion.
  • Ipsilateral neck, shoulder, or arm pain of a rather vague nonradicular nature, or, occasionally, arm pain of a radicular nature.
  • Unilateral head pain, without side-shift.
  • Head pain is moderate-severe, nonthrobbing, and nonlancinating, usually starting in the neck.
  • Occasionally there is nausea, phonophobia, photophobia, dizziness, ipsilateral blurred vision, difficulties on swallowing, ipsilateral edema (mostly in the periocular area).
  • The pain typically starts at the back of the head, spreading to frontal areas.

•••••

The understanding of the anatomical basis for headache was advanced significantly when Australian physician and clinical anatomist Nikoli Bogduk, MD, PhD, in 1995, published an article in the journal Biomedicine and Pharmacotherapy titled (8):

Anatomy and Physiology of Headache

In this article, Dr. Bogduk notes that all headaches have a common anatomy and physiology in that they are all mediated by the trigeminocervical nucleus. The trigeminocervical nucleus is a region of grey matter in the medulla of the brainstem that descends into the upper cervical spinal cord. The trigeminocervical nucleus receives afferents from all three branches (ophthalmic, maxillary, mandibular) of the trigeminal nerve (cranial nerve V), as well as afferents from nerve roots C1, C2, and C3.

Consequently, irritation of any of the upper three cervical nerve roots can cause headaches. In addition, Dr. Bogduk stresses that irritation or injury to any tissue innervated by the upper cervical nerve roots can cause headaches, including:

Structures innervated by C1-C3:

  • Dura mater of the posterior cranial fossa
  • Inferior surface of the tentorium cerebelli
  • Anterior and posterior upper cervical and cervical-occiput muscles
  • OCCIPUT-C1, C1-C2, and C2-C3 joints
  • C2-C3 intervertebral disc
  • Skin of the occiput
  • Vertebral arteries
  • Carotid arteries
  • Alar ligaments
  • Transverse ligaments
  • Trapezius muscle
  • Sternocleidomastoid muscle

•••••

In 2001, Dr. Bogduk wrote an article pertaining specifically to cervicogenic headache. It was published in the journal Current Pain and Headache Reports, and titled (9):

 

Cervicogenic Headache:
Anatomic Basis and Pathophysiologic Mechanisms

 

In this article, Dr. Bogduk makes these points:

“Cervicogenic headache is pain perceived in the head but referred from a primary source in the cervical spine.”

“The physiologic basis for this pain is convergence between trigeminal afferents and afferents from the upper three cervical spinal nerves.”

“The possible sources of cervicogenic headache lie in the structures innervated by the C1 to C3 spinal nerves, and include the upper cervical synovial joints, the upper cervical muscles, the C2-3 disc, the vertebral and internal carotid arteries, and the dura mater of the upper spinal cord and posterior cranial fossa.”

“Experiments in normal volunteers have established that the cervical muscles and joints can be sources of headache.”

•••••

A recent (October 2017) PubMed search of the National Library of Medicine database using the key words “cervicogenic headache” listed 1,168 citations, with publication dates ranging from September 1942 to October 2017. Numerous studies have documented the effectiveness of manual therapy and manipulation in the treatment of cervicogenic headache. Three recent studies (2016 and 2017) are reviewed here:

•••••

In February 2016, a team of eleven experts from the United States and Europe published a study in the journal BMC Musculoskeletal Disorders, titled (10):

Upper Cervical and Upper Thoracic Manipulation Versus Mobilization
and Exercise in Patients with Cervicogenic Headache:
A Multi-center Randomized Clinical Trial

The authors note that the purpose of this study was to compare the effects of manipulation to mobilization and exercise in individuals with cervicogenic headache, claiming that this is the first study to directly do so.

This study involved one hundred and ten participants (n = 110) with cervicogenic headache. Subjects were randomized to receive both cervical and thoracic manipulation (n = 58) or mobilization and exercise (n = 52). Outcomes were assessed using standard measurements (Numeric Pain Rating Scale, Neck Disability Index, Global Rating of Change, etc.)

The treatment period was 4 weeks with follow-up assessment at 1 week, 4 weeks, and 3 months after the initial treatment session. The study results and conclusions include:

“Individuals with cervicogenic headache who received both cervical and thoracic manipulation experienced significantly greater reductions in headache intensity and disability than those who received mobilization and exercise at a 3-month follow-up.”

“Individuals in the upper cervical and upper thoracic manipulation group also experienced less frequent headaches and shorter duration of headaches at each follow-up period.”

“Additionally, patient perceived improvement was significantly greater at 1 and 4-week follow-up periods in favor of the manipulation group.”

“Six to eight sessions of upper cervical and upper thoracic manipulation were shown to be more effective than mobilization and exercise in patients with cervicogenic headache, and the effects were maintained at 3 months.”

“The results of the current study demonstrated that patients with cervicogenic headache who received cervical and thoracic manipulation experienced significantly greater reductions in headache intensity, disability, headache frequency, headache duration, and medication intake as compared to the group that received mobilization and exercise; furthermore, the effects were maintained at 3 months follow-up.”

The manipulation group experienced significantly reduced duration and frequency of headaches as well as perceiving greater improvement. These findings indicated that high-velocity, low-amplitude manipulation was more effective at treating cervicogenic headache than slow rhythmic mobilization techniques used as an intervention.

••••••••••

The following month, March 2016, a second study comparing cervical mobilization to manipulation in the treatment of cervicogenic headache was published. The authors are from Georgia State University, Atlanta, GA, USA. The study was published in the journal Frontiers in Neurology, and titled (11):

Mobilization and Manipulation of the Cervical Spine
in Patients with Cervicogenic Headache:
Any Scientific Evidence?

The purpose of this article was to investigate the effects of cervical mobilization and manipulation on pain intensity and headache frequency, compared to traditional physical therapy interventions in patients diagnosed with cervicogenic headache. The authors found 10 studies that met their stringent inclusion criteria, with a total of 685 subjects. “Seven of the 10 studies had statistically significant findings that subjects who received mobilization or manipulation interventions experienced improved outcomes or reported fewer symptoms than control subjects.” This article makes these points:

  • Cervicogenic headache is a “secondary headache arising from musculoskeletal disorders in the cervical spine and is frequently accompanied by neck pain.”
  • The estimated incidence of cervicogenic headache is: 4.1% of the total population; perhaps as high as 15% of the headache population; up to 20% of all chronic and recurrent headaches.
  • Women may be affected with cervicogenic headache four times more frequently than men.
  • “The symptoms of cervicogenic headache may arise from any of the components of the cervical spine, including vertebrae, disks, or soft tissue.” However, cervicogenic headache pain “most commonly arises from the second and third cervical spine (C2/3) facet joints, followed by C5/6 facet joints.”
  • “Upper cervical spine mobility restriction (hypomobility), cervical pain, and muscle tightness are clinical findings associated with cervicogenic headache during physical examination.”
  • The neurophysiological benefit for cervicogenic headache may be that the “afferent input induced by manual therapy may stimulate neural inhibitory pathways in the spinal cord and can also activate descending inhibitory pathways in the lateral periaqueductal gray area of the midbrain.”

 

Spinal manipulation of the upper cervical spine activates the Descending Pain Inhibitory pathway through the Periaqueductal Grey of the midbrain.

  • “Cervical mobilization and manipulation are frequently used to treat patients diagnosed with cervicogenic headache.”
  • “Many studies on the short-term effectiveness of manual therapy to the cervical spine (mobilization and manipulative therapy) have found it beneficial in reducing headache pain or disability, intensity, frequency, and duration.”
  • The benefits of manual therapy for cervicogenic headache have been shown to be maintained at long-term follow-up assessments.
  • Seven of the ten included studies examined how the effects of spinal manipulative therapy compared to an alternate intervention or a placebo; “six studies found statistically significant improvements in symptoms for participants in the manipulation group as compared to controls.”
  • The “findings of the studies suggest that manual therapy on the cervical spine is more effective than traditional physical therapy interventions or sham intervention in reducing pain intensity and frequency of headaches in this population.”
  • There is a growing body of evidence supporting cervical manipulation for the treatment of cervicogenic headache.
  • “Patients with cervicogenic headache could benefit from manual therapy techniques, including spinal manipulative therapy.”

•••••

The final study reviewed here specifically looked at chiropractic manipulative therapy for the treatment of cervicogenic headache. The authors were from Akershus University Hospital, Norway; the University of Oslo, Norway; Innlandet Hospital, Norway; Macquarie University, Sydney, Australia. Their article was published in July 2017, in the journal BioMed Central (BMC) Research Notes, and titled (12):

Chiropractic Spinal Manipulative Therapy for Cervicogenic Headache:
A Single-Blinded, Placebo, Randomized Controlled Trial

The purpose of this study was to investigate the efficacy of chiropractic spinal manipulative therapy versus placebo (sham manipulation) and control (continued usual but non-manual management) for cervicogenic headache. It is a single-blinded, placebo, randomized controlled trial of 17 months’ duration. Twelve participants were randomized to three groups:

  • A control group that continued with usual but not manual therapy: “The control group continued their usual pharmacological management without receiving manual intervention.”
  • A sham manipulation (placebo) group: “The placebo group received sham manipulation at the lateral edge of the scapula and/or the gluteal region.”
  • A chiropractic spinal adjustment group: “The chiropractic spinal manipulative therapy group received spinal manipulative therapy using the Gonstead method, directed to spinal biomechanical dysfunction as diagnosed by standard chiropractic tests.”

The authors note that cervicogenic headache is a disabling headache where pharmacological management has limited effect. In fact, they state:

“The efficacy of pharmacological management for cervicogenic headache is poor and medication overuse is frequent.” “Thus, non-pharmacological management is warranted.”

In this study, the Gonstead spinal adjusting was significantly superior to the sham thrusts placebo intervention and to pharmacology. The authors state:

“The control group [taking the standard drugs] remained unchanged during the whole study period.”

“Headache frequency improved at all time points in the chiropractic spinal manipulative therapy and the placebo group.”

“Headache index improved in the chiropractic spinal manipulative therapy group at all time points.”

“No severe or serious adverse events were reported in the study.” “Adverse events were few, mild and transient.”

“Our main results demonstrate reduction in headache frequency and headache index in the chiropractic spinal manipulative therapy and the placebo group, an effect that lasted at follow-up, while the control group was unchanged throughout the randomized controlled trial.”

“Our results suggest that manual-therapy might be a safe treatment option for participants with cervicogenic headache.”

“Due to insufficient pharmacological treatment strategies, spinal manipulative therapy has been recommended as a treatment option.”

This is an important and impressive study, especially for chiropractic spinal manipulation and the Gonstead technique.

A related addition would be to discuss differences in outcomes of chiropractic manipulation for cervicogenic headache based upon assessment of frequency of spinal manipulation. A study in 2004 addressed the subject, and is titled (13):

Dose Response for Chiropractic Care of
Chronic Cervicogenic Headache and Associated Neck Pain:
A Randomized Pilot Study

Specifically, this study looked at the relationship between treatment frequency and patient outcomes for subjects receiving one, three, or four chiropractic treatments per week. The study found:

  • “After 4 weeks, subjects receiving four visits per week had significant reductions in headache pain and intensity compared to the subjects receiving one treatment per week.”
  • “After 12 weeks, subjects receiving three or four visits per week had reduced pain and intensity compared to the once-per-week treatment group.”
  • “This suggests that there may be an optimal dosage effect for spinal manipulative therapy intervention and that, to a certain extent, more frequent treatments may be related to more significant positive outcomes.”

•••••

The summary of these studies, from 1947-2017 (70 years) indicates that neck problems can cause headaches and that spinal manipulation is both safe and effective in the treatment of these cervicogenic headaches.

REFERENCES

  1. Jackson R; The Cervical Syndrome As a Cause of Migraine; Journal of the American Medical Women’s Association; December 1947; Vol. 2; No. 12; pp. 529-534.
  2. Seletz E; Craniocerebral Injuries and the Postconcussion Syndrome; Journal of the International College of Surgeons; January, 1957; Vol. 27; No. 1; pp. 46-53.
  3. Seletz E; Headache of Extracranial Origin; California Medicine; November 1958, Vol. 89, No. 5, pp. 314-17.
  4. Hubert Luschka (1858; Die Halbgelenke des menschlichen Körpers: Mit 6 Kupfertafeln [from Wikipedia].
  5. Brismée JM, Sizer, Phillip S, Dedrick GS, Sawyer BG, Smith MP; Immunohistochemical and Histological Study of Human Uncovertebral Joints; Spine; May 20, 2009; Vol. 34; No. 12; pp. 1257-1263.
  6. Seletz E; Whiplash Injuries, Neurophysiological Basis for Pain and Methods Used for Rehabilitation; Journal of the American Medical Association; November 29, 1958, pp. 1750 – 1755.
  7. Sjaastad O, Saunte C, Hovdahl H, Breivik H, Grønbaek E; “Cervicogenic” Headache: An Hypothesis; Cephalagia; December 1983; Vol. 3; No. 4; pp. 249-256.
  8. Bogduk N; Anatomy and Physiology of Headache; Biomedicine and Pharmacotherapy; 1995, Vol. 49, No. 10, pp. 435-445.
  9. Bogduk N; Cervicogenic headache: Anatomic basis and pathophysiologic mechanisms; Current Pain and Headache Reports; August 2001; Vol. 5; No. 4; pp. 382-386.
  10. Dunning JR, Butts R, Mourad F, Young I, Fernandez-de-Las Peñas C, Hagins M, et al; Upper cervical and upper thoracic manipulation versus mobilization and exercise in patients with cervicogenic headache: a multi-center randomized clinical trial; BMC Musculoskeletal Disorders; 2016; Vol. 17; No. 1; 64.
    Garcia JD, Arnold S, Tetley K, Voight K, Frank RA; Mobilization and Manipulation of the Cervical Spine in Patients with Cervicogenic Headache: Any Scientific Evidence? Frontiers in Neurology; March 21, 2016; Vol. 7; Article 40.
  11. Aleksander Chaibi A, Heidi Knackstedt H, Peter J. Tuchin PJ, Michael Bjorn Russell MB; Chiropractic Spinal Manipulative Therapy for Cervicogenic Headache: A Single-Blinded, Placebo, Randomized Controlled Trial; BioMed Central (BMC) Research Notes; July 24, 2017; Vol. 10; No. 1.
  12. Haas M, Groupp E, Aickin M, Fairweather A, Ganger B, Attwood M, et al.; Dose response for chiropractic care of chronic cervicogenic headache and associated neck pain: A randomized pilot study; Journal of Manipulative and Physiological Therapeutics; 2004; Vol. 27; No. 9; pp. 547–553.

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