J Vertebral Subluxation Research 2003 (Aug): 1-10 ~ FULL TEXT
Erin L. Elster, D.C.
Objective: To review the effectiveness of chiropractic care using an upper cervical technique in the case of a 35-year-old female who presented with chronic daily tension and migraine headaches, and to summarize, in an Appendix, the examination findings and results for 100 additional chronic headache cases.
Clinical Features: At age 23, the patient, a professional ice skater, sustained a concussion by hitting her head against the ice. Prior to the concussion, no health problems were reported. Following the concussion, tension and migraine headaches ensued. Symptoms persisted over the next twelve years, during which time the patient utilized daily pain medications.
Intervention: During the patient’s initial chiropractic examination, evidence of a subluxation stemming from the upper cervical spine was found through thermographic and radiographic diagnostics. Chiropractic care using an upper cervical technique was administered to correct and stabilize the patient’s upper neck injury. Diagnostics and care were performed in accordance with the guidelines of the International Upper Cervical Chiropractic Association.
Outcome: Evaluation of the patient’s condition occurred by doctor’s observation, patient’s subjective description of symptoms, and thermographic scans. All headaches were absent following three months of care. At the conclusion of her case at one year, all symptoms remained absent.
Conclusion: The onset of the symptoms following the patient’s fall on her head; the immediate reduction in symptoms correlating with the initiation of care; and the complete absence of all symptoms within three months of care; suggest a link between the patient’s concussion, the upper cervical subluxation, a d her headaches. Further investigation into upper cervical trauma as a contributing factor to headaches should be pursued.
Key Indexing Terms: upper cervical spine, chiropractic, migraine, cluster, tension, sinus, headache, trauma, thermography
From the Full-Text Article:
The following case report describes a 35-year-old professional ice skater’s fall on her head at age 23; the onset of headaches following the blow to the head; the intervention of chiropractic care utilizing an upper cervical technique; and her symptomatic response. An appendix details the examination findings and results utilizing the same upper cervical chiropractic procedure in 100 additional chronic headache cases.
Reports documenting successful treatment of patients with headaches using chiropractic care are limited primarily to
Palmer’s research conducted seventy years ago (using a similar upper cervical technique), which was never published in a peerreviewed, indexed fashion. [1, 2] Palmer’s chiropractic care included paraspinal thermal scanning using a neurocalometer (NCM), a cervical radiographic series to analyze upper cervical misalignment, and a specific upper cervical adjustment performed by hand. Positive results (symptoms were dramatically improved and/or eliminated) were achieved in approximately 1000 headache cases (from 5000 Palmer Research Clinic cases) whose upper cervical subluxations were corrected.
The rationale for the use of chiropractic care in this case was to correct the patient’s upper cervical subluxation that was discovered during her initial evaluation. Patients with other neurological conditions such as Parkinson’s disease and Multiple Sclerosis, who presented with similar upper cervical subluxations, also responded favorably to chiropractic intervention. [3, 4] It should be noted that, in such cases, patients reported a substantial blow to the head or whiplash injury prior to the onset of symptoms and diagnoses. This case suggests a correlation between a blow to the head, upper cervical subluxation, and neurological disease, and serves to establish a foundation for future research.
This 35-year-old female attended a chiropractic evaluation and recalled her health history following a concussion twelve
years prior. Medical records obtained from the patient’s neurologist confirmed her history, diagnoses, and treatment.
At age 23, the patient, a professional ice skater, fell and hit her head against the ice. She was temporarily rendered
unconscious and diagnosed with a concussion.
In the ensuing months, she noticed the onset of headaches. The headaches worsened in frequency and severity over time. She thought the heavy headdresses she wore as costumes in ice skating performances aggravated the headaches. She stated that migraine headaches occurred every month during her menstrual period and usually two to three times throughout the other three weeks of a month. Lesser headaches occurred every day in between the migraines. At approximately age 29, she thought the headaches increased in severity and frequency. She reported that she awakened everyday with a headache and rarely went to sleep without one. In describing the headache location, she stated that the pain started in her neck or base of her skull and then spread to her forehead, temple, or side of her head. Although she never experienced aura preceding migraine onset, she often suffered with nausea and vomiting. She reported she took Tylenol with codeine almost every night in order to sleep through the pain, Ibuprofen several times per week, and Maxalt with every migraine. Her physician recommended she incorporate stress reduction, good sleep, hydration, nutrition, exercise, and eliminate “food triggers”, but her headaches continued. Her sister, a massage therapist who frequently massaged the patient, said her right trapezius muscle was chronically hypertonic.
After the patient’s medical history was recorded, her evaluation was performed in accordance with the guidelines of the International Upper Cervical Chiropractic Association (IUCCA) through their Applied Upper Cervical Biomechanics (AUCB) program.  It should be noted that there are numerous chiropractic techniques that focus upon the upper cervical spine; however, only the technique used in this case will be discussed in this report. A paraspinal thermal analysis was performed with the Tytron C-3000 (Figure 1- Titronics Research and Development) from the level of C7 to the occiput according to thermographic protocol. [6-8] (Figure 2) Paraspinal digital infrared imaging, which measures cutaneous infrared heat emission, is a form of thermography, a neurophysiological diagnostic imaging procedure. Thermography has been established in chiropractic as a practical and sensitive test for spinal nerve root irritation, articular facet syndromes, peripheral nerve injuries, sympathetic pain syndromes, and the vertebral subluxation complex. [9-11] Since the amount of blood passing through the skin is directly controlled by the sympathetic nervous system (through control of dilation or constriction of blood vessels), the temperature of any one area of the skin reflects the neurological control of that area. Normal or abnormal skin temperature then becomes an indicator of normal or abnormal neurological function. In blind studies comparing thermographic results to that of CAT scan, MRI, EMG, myelography, and surgery, thermography was shown to have a high degree of sensitivity (99.2%), specificity (up to 98%), predictive value, and reliability. [12-14] Thermography has been effective as a diagnostic tool for breast cancer, repetitive strain injuries, headaches, spinal problems, TMJ conditions, pain syndromes, arthritis, and vascular disorders, to name a few. [15-24] A limited number of articles have been published demonstrating the use of paraspinal thermal imaging as an integral part of upper cervical protocol, including reports of patients with Parkinson’s disease and Multiple Sclerosis. [3, 4]
Compared to established normal values for the cervical spine, the subject’s paraspinal scans contained thermal asymmetries
of 0.6ºC. (Figure 3) According to cervical thermographic guidelines, thermal asymmetries of 0.5ºC or higher indicate abnormal autonomic regulation or neuropathophysiology. [25-28]
In addition to revealing thermal asymmetries, the subject’s scans displayed static thermal differences (Figure 4), thus, a
thermal “pattern” was established. “Pattern analysis” of paraspinal temperatures, first developed by Palmer, has received
increased attention in chiropractic research. [3, 4, 29-39]
Because upper cervical misalignments were suspected in this patient, a precision upper cervical radiographic series was performed.  The x-ray equipment included a laser-aligned frame (American X-ray Corporation) to eliminate image distortion. To maintain postural integrity, this subject was placed in a positioning chair using head clamps. In addition, the patient was aligned to the central ray using a laser (Titronics Research and Development) mounted on the x-ray tube. The four views (lateral, anterior-posterior, anterior-posterior open mouth, and base posterior) enabled examination of the upper cervical spine in three dimensions: sagittal, coronal, and transverse. Analysis of the four views was directed towards the osseous structures (foramen magnum, occipital condyles, atlas, and axis) that are intimately associated with the neural axis.  (Figure 5) Left laterality and left anteriority of atlas was found (Figure 6).
In accordance with AUCB upper cervical protocol, the two criteria used to determine subluxation in this case were thermal
asymmetry (measured by paraspinal thermal imaging) and vertebral misalignment (measured by cervical radiographs). Because
both criteria (0.6ºC thermal asymmetry and left laterality and anteriority of atlas) were met, a care plan was discussed
with the patient. In addition, it was recommended that the subject continue her medical treatment and medications unless otherwise advised by her physician.
Following the patient’s consent, chiropractic care began with an adjustment to correct the left laterality and anteriority of atlas. To administer the adjustment, the patient was placed on a knee-chest table with her head turned to the left (Figure 7). The knee-chest posture was chosen because of the accessibility of the anatomy to be corrected. Using the left
posterior arch of atlas as the contact point, an adjusting force was introduced by hand.  The adjustment’s force (force = mass X acceleration) was generated using body drop (mass) and a toggle thrust (acceleration).
Tytron C-3000 Thermographic Protocols
Environmental Controls —
The temperature of your office should be held around 70
No direct cooling or heating vent drafts should bear on
The scanner should not be placed in direct sunlight.
Place the scanner holder away from the computer monitor
Patient Preparation —
15 minutes of office acclimation time must occur before
scanning the patient.
The patient’s spine must be disrobed or loosely gowned
The patient must remain free from direct heating or cooling
No direct sunlight should bear on the patient while in the
No EMS, TENS, US, hot or cold packs, or acupuncture
The patient must be free from sunburn.
Next, the patient was placed in a post-adjustment recuperation suite for fifteen minutes as per thermographic protocol.
[6-8] (Figure 2) After the recuperation period, a post-adjustment thermal scan was performed. The post-adjustment scan revealed a thermal difference of only 0.1 ºC, which was considered normal according to established cervical thermographic guidelines (compared to the pre-adjustment differential of 0.6 ºC). Therefore, resolution of the patient’s presenting thermal asymmetry (elimination of the thermal “pattern”) was achieved. (Figures 8 & 9).
All subsequent office visits began with a thermal scan. An adjustment was administered only when the patient’s presenting
thermal asymmetry (“pattern”) returned. If an adjustment was given, a second scan was performed after a fifteen-minute
recuperation period to determine whether restoration of normal thermal symmetry had occurred. This subject’s office visits
occurred two times per week for the first two weeks of care, one time per week for the following four weeks, two times per
month for the following month, and one time per month thereafter.
After the first adjustment, during the first two weeks of care, thermal asymmetry was present at two office visits so two adjustments were performed. The patient reported experiencing two severe headaches during the first two weeks of care. She
still awakened daily with a headache, but she claimed the pain was milder and that it resolved by the afternoon. She also stated her neck was feeling looser and better and that she required less pain medication.
During weeks three through five, thermal scans were normal so no adjustments were administered. The patient could not recall experiencing any headaches and did not use any pain medication during these three weeks.
Between weeks six and eight, two adjustments were performed and two mild headaches were reported.
During the third month of care, no adjustments were necessary, no headaches were reported, and no medication was used.
At the end of the third month of care, the subject was involved in an auto accident in which another car unexpectedly
turned in front of her. During her office visit the following day, she claimed she was traveling at approximately 30 miles per hour when she hit the other car. Her symptoms included neck pain and headaches since the accident. She also reported experiencing soreness in her left foot and leg from braking at the time of impact. Her thermal scan indicated a return in thermal asymmetry. Cervical radiographs were retaken to ensure no fractures or dislocations had taken place as well as to determine whether her original x-ray findings had been altered. The films were taken and analyzed as previously illustrated. No change in x-ray listing was found. Accordingly, she was adjusted as previously described. Within a week after this adjustment, all neck soreness and headaches had dissipated and no further adjustments were required.
During the nine months following the accident, the subject was examined once per month. Thermal symmetry was present
at each visit, so no adjustments were administered. The patient had not experienced a single headache during that time and had not required any pain medication. During the year of care, no other intervention was reported that could have provided an
alternative explanation for the dramatic improvement of the patient’s condition.
Drawing Lines of Mensuration
(See Figure 6, page 4)
To determine laterality from the anterior-posterior open mouth film, a horizontal line was drawn across the upper one-third
of the foramen magnum’s arch from cortex to cortex. The foramen magnum line was bisected with a vertical median line from the film’s top to bottom.
Using a compass’s point on the vertical line, arcs were drawn through each lateral mass of atlas. Using the left lateral mass
as the constant, if the right lateral mass stayed within the right arc, the atlas was listed as “left”. If the right lateral mass extended beyond the right arc, the atlas was listed as “right”.
Axis laterality was determined by locating the position of the odontoid and spinous processes according to the vertical median line. To determine atlas rotation from the base-posterior film, an atlas plane line was drawn through the transverse
foramen of atlas. The next line was drawn horizontally across the cortical borders of the clivus (ossification center of the
skull) from cortex to cortex. This skull line was bisected.
Atlas rotation was determined by using a protractor to measure the difference between the bisected skull line and the
atlas plane line. An angle less than 90 degrees represented “anteriority”. An angle more than 90 degrees represented “posteriority”.
Consider the case chronology. A healthy, 23-year-old female sustained a concussion by falling on her head. During the
subsequent months, tension and migraine headaches ensued. Advice and treatment was sought but the headaches persisted
for twelve years. During a chiropractic evaluation utilizing an upper cervical technique, an upper cervical subluxation was
found. After the initial adjustment to the patient’s upper neck was administered, the patient’s symptoms began to subside and
continued to improve until absent during the care period.
As the patient was healthy prior to the fall on her head and developed symptoms following the concussion, it follows that
the impact had a causal effect on her health problems. Hundreds of medical references substantiate this deduction by naming
head and neck trauma as a cause of headaches. [42-62]
Medical references also name the brainstem as a primary site for headache origin. [63-65] According to researchers, migraine headaches have been attributed to malfunctions of the brainstem trigeminal nucleus and brainstem serotonergic pathways that affect nerves and blood vessels in the head. It is thought that abnormal activation of sympathetic nerves triggers vasoconstriction within the brain stem. Consequently, the blood supply to the brain is reduced, causing the dilation of arteries within the brain to meet the brain’s oxygen supply. This vasodilation is the source of headache pain.
The relationship between the upper cervical spine and the brainstem is an area requiring further research. Since chiropractic
care appeared to stimulate the patient’s symptomatic improvements, then it follows that the care may have generated improvement in her brainstem function. The theory discussed below is proposed to explain the relationship between upper cervical subluxation and neurological dysfunction.
After a spinal trauma, central nervous system facilitation can occur from an increase in afferent signals to the spinal cord
and/or brain coming from articular mechanoreceptors. [66-70] The upper cervical spine is uniquely at risk for this problem because it possesses inherently poor biomechanical stability (lacks intervertebral discs and vertical zygapophyseal joints) along with the greatest concentration of spinal mechanoreceptors. Due to central nervous system facilitation from the upper cervical mechanoreceptors, hyperafferent activation of the sympathetic vasomotor center in the brainstem and/or the superior cervical ganglion may occur and may ultimately lead to headaches. Therefore, reversal of the upper cervical injury could alleviate activation of the sympathetic nervous system, thereby eliminating headaches.
In summary, the following hypothesis for the cause and correction of the patient’s condition is submitted. The patient’s fall
on her head caused the spraining of spinal ligaments in her upper neck, allowing for an upper cervical subluxation. Due to
the upper cervical subluxation, a variety of complex, detrimental neurological changes developed (probably originating in the
brainstem), which ultimately allowed for the manifestation of the patient’s headaches. The patient’s symptoms remained until
the upper cervical subluxation was discovered and reduced. Once the patient’s upper cervical alignment was corrected and
stabilized, irritation to the central nervous system was eliminated and the patient’s normal neurophysiology was restored.
This case report details the medical history and symptoms of a 35-year-old female suffering from headaches for twelve
years after a fall on her head; the twelve-month intervention of chiropractic care utilizing an upper cervical technique; and the patient’s symptomatic response. Evidence of an upper cervical subluxation was found using thermographic and radiographic
diagnostics. It was corrected by performing a specific adjustment by hand to the first cervical vertebra according to radiographic findings. The upper neck subluxation could have been caused by an ice skating fall in which the patient sustained a concussion. The patient’s headaches were absent by the third month of care and remained absent at the conclusion of the patient’s case at twelve months.
An additional 100 chronic headache cases, detailed in the Appendix, were examined and cared for using the same upper
cervical procedure. Similar favorable results were produced in the majority of patients. To confirm this positive outcome, it is recommended that a more extensive study using control subjects be performed. In addition, further investigation into upper
cervical injury and resulting neuropathophysiology as a possible etiology or contributing factor to headaches should be