This study evaluates the hypothesis that osteopathic manipulative treatment (OMT) and non-invasive transcutaneous auricular vagus nerve stimulation (taVNS) elicit anti-inflammatory actions through activation of the parasympathetic nervous system. In a cross-over design, research participants will be subjected to various combinations of OMT, taVNS, or sham interventions during four study sessions, that are at least one month apart. During each study session research participants will undergo OMT and/or taVNS for 3 consecutive days. Blood pressure and electrocardiogram (ECG) will be recorded on all three study days to assess parasympathetic nervous system function. On the 3rd study day a blood sample will be taken to assess the effects of OMT and/or taVNS on inflammation.
Biological anti-inflammatory drugs, such as TNF-α antagonists, have revolutionized treatment of chronic inflammatory diseases, such as inflammatory bowel disease, rheumatoid arthritis, psoriasis, or other auto-immune disorders and have largely improved prognosis and quality of life of patients affected by these conditions. However, the high cost of these agents is prohibitive for a large number of patients and some patients are not eligible to such treatments because of co-morbidities that constitute contraindications. Thus, there is a need for cost-effective alternative treatment strategies. Activation of the cholinergic anti-inflammatory pathway, which operates through the parasympathetic nervous system, may constitute an alternative approach to treat chronic inflammatory diseases. This pathway has been demonstrated to shift the function of immune cells in reticular organs, such as the spleen from a pro-inflammatory to an anti-inflammatory state. Subsequently, these "reprogrammed" cells translocate to the systemic circulation and reach the site of inflammation. Clinical studies and the investigators' preliminary data suggest that non-invasive transcutaneous auricular vagus nerve stimulation (taVNS) can augment parasympathetic tone and potentially activate the cholinergic anti-inflammatory pathway. Another way of potentially activating this pathway is through osteopathic manipulative treatment (OMT) because some OMT techniques have been demonstrated to increase parasympathetic activity. However, it is not known if such OMT techniques also activate the cholinergic anti-inflammatory pathway. Furthermore, it is not known if osteopathic lymphatic pump techniques augment these anti-inflammatory responses by facilitating translocation of "reprogrammed" immune cells from reticular organs to the systemic circulation. The investigators' long-term goal is to contribute to the development of cost-effective OMT approaches to treat chronic inflammatory diseases. The central hypothesis is that successive applications of different OMT techniques or the combination of taVNS with specific OMT techniques first activate and then augment the cholinergic anti-inflammatory pathway through stimulating parasympathetic tone and facilitating translocation of immune cells. Parasympathetic nervous system function will be assessed by heart rate variability analysis and other cardiovascular parameters that are under the influence of the parasympathetic nervous system. Immune function will be assessed by measuring plasma concentrations of inflammatory mediators (cytokines) and by in vitro cell culture experiments of immune cells. At the completion of these studies, the investigators anticipate to demonstrate that OMT techniques that activate the parasympathetic nervous system and taVNS elicit anti-inflammatory effects. Second, the investigators also anticipate to demonstrate that subsequently applied osteopathic lymphatic pump techniques augment the anti-inflammatory actions of OMT and taVNS by facilitating translocation of "reprogrammed" immune cells from the spleen to the systemic circulation. These outcomes are expected to have important positive impact, because they will potentially lay a mechanistic foundation for future clinical studies applying such combinations of taVNS and OMT techniques to chronic inflammatory diseases, including inflammatory bowel diseases, rheumatoid arthritis, psoriasis, or other auto-immune disorders.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
36
The participant lies supine in a relaxed state while the investigator cradles the patient's head with their hands, middle finger pads along the inferior aspect of inion, reaching to the occipito-atlantal joint. The investigator then applies gentle posterior and cephalad traction to the occiput, while bringing the elbows together. This results in supination of the hands and separation of the middle fingers, creating a posterior-lateral force vector to either side of the foramen magnum. The pressure is maintained until softening of the underlying structures is felt. The procedure is applied for 10 minutes.
The participant lies supine in a relaxed state while the investigator applies light touch to the patient's head with their hands.
With the participant supine, the investigator places a posterior hand along the left lower ribcage, and a superior hand over the left costal arch, encompassing the spleen. The investigatory compresses and releases the spleen at a rate of 20 compressions/min for 3 min.
With the participant supine, the investigator places a posterior hand along the left lower ribcage, and a superior hand over the left costal arch, encompassing the spleen. The investigator will maintain light touch at these positions for 3 minutes. No compressions are performed.
A bipolar clip electrode is attached to the auricle at the location of the cymba conchae. Electrical stimulation (30 Hz stimulation frequency, 300 μs pulse width) is applied for 10 min. The stimulation current is determined individually for each participant by slowly increasing the stimulation current until the participants feel a mild tingling sensation at the site of the electrode. Then the current is gradually reduced until the tingling sensation disappears. This current will then be used for taVNS. A TENS 7000 or EMS 7500 device (510(k): K080661) is used.
A bipolar clip electrode is attached to the auricle at the location of the cymba conchae but no electrical current is applied to the electrode.
Burrell College of Osteopathic Medicine
Las Cruces, New Mexico, United States
RECRUITINGEffect of the Interventions on Inflammation
The effect of the interventions on inflammation is assessed by plasma levels of pro- and anti-inflammatory cytokines; activation or inactivation of immune cells in the blood; and release of cytokines from TLR-ligand-activated immune cell cultures. All of these inflammatory measures will be determined from blood samples collected on the third study day and therefore, reflect the cumulative effect of the three study days.
Time frame: 2 days
Change in Autonomic Nervous System Function Induced by the Interventions
The change in autonomic nervous system function induced by the interventions is assessed by the difference in heart rate variability parameters and baroreceptor-heart rate reflex sensitivity determined before and after the interventions on each study day.
Time frame: 110 minutes
Cumulative Effect of the Interventions on Autonomic Nervous System Function
The cumulative effect of the interventions on autonomic nervous system function is assessed by the change in heart rate variability parameters and baroreceptor-heart rate reflex sensitivity from the first to the third study day.
Time frame: 2 days
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