The Effect of Kinesiology Tape on Pain and Neck Range of Motion After Cervical Manipulation

Background: Annually, 30%–50% of adults will experience some form of debilitating neck pain. One approach to treating neck pain is cervical manipulation. This treatment modality has, at times, been reported to result in a short-term increase in pain, which in turn has been linked to reduced neck range of motion (ROM). Elastic therapeutic tape (ETT) has been shown to reduce musculoskeletal pain, although limited research has been conducted to determine if ETT can mitigate pain and facilitate neck ROM following cervical manipulation. Purpose: The purpose of this study is to compare the pain and neck ROM among patients with acute neck pain who do and do not receive ETT following cervical manipulation. Methods: A convenience sample of 50 patients between 18 and 64 years of age presented with acute noncomplicated neck pain was recruited from an outpatient chiropractic clinic. Patients were randomly assigned to 2 groups. In the tape group (n = 27), ETT was applied to their neck immediately following cervical manipulation for neck pain. In the control group (n = 23), cervical manipulation was performed with no application of ETT following the procedure. Pain and neck ROM were recorded at the following 3 different intervals: pre-cervical manipulation (T1), within 5 minutes of cervical manipulation (T2), and 24–48 hours after manipulation (T3). In total, 6 cervical ROM values were recorded with dual inclinometers. Pain was measured by asking of each patient to rate their neck pain using the numeric pain rating scale from 0 to 10. Results: The tape group demonstrated a significant decline (P \u3c 0.00) in pain between T1 (x = 6.15) and T2 (x = 5.37) and between T1 and T3 (x = 4.89). The control group did not report significant changes in their pain over the duration of the study. Neither group reported any significant change in any measure of neck ROM over the duration of the study. Clinical Relevance: Results from this study support the use of ETT to reduce pain immediately and 24–48 hours following cervical manipulation among patients presenting with acute neck pain

Effect of a Mobile Health App on Adherence to Physical Health Treatment: Retrospective Analysis

BackgroundAdherence to prescribed medical interventions can predict the efficacy of the treatment. In physical health clinics, not adhering to prescribed therapy can take the form of not attending a scheduled clinic visit (no-show appointment) or prematurely terminating treatment against the advice of the provider (self-discharge). A variety of interventions, including mobile phone apps, have been introduced for patients to increase their adherence to attending scheduled clinic visits. Limited research has examined the impact of a mobile phone app among patients attending chiropractic and rehabilitation clinic visits. ObjectiveThis study aims to compare adherence to prescribed physical health treatment among patients attending a chiropractic and rehabilitation clinic who did and did not choose to adopt a phone-based app to complement their treatment. MethodsThe medical records of new patients who presented for care during 2019 and 2020 at 5 community-based chiropractic and rehabilitation clinics were reviewed for the number of kept and no-show appointments and to determine whether the patient was provider-discharged or self-discharged. During this 24-month study, 36.28% (1497/4126) of patients seen in the targeted clinics had downloaded the Kanvas app on their mobile phone, whereas the remaining patients chose not to download the app (usual care group). The gamification component of the Kanvas app provided the patient with a point every time they attended their visits, which could be redeemed as an incentive. ResultsDuring both 2019 and 2020, the Kanvas app group was provider-discharged at a greater rate than the usual care group. The Kanvas app group kept a similar number of appointments compared with the usual care group in 2019 but kept significantly more appointments than the usual care group in 2020. During 2019, both groups exhibited a similar number of no-show appointments; however, in 2020, the Kanvas app group demonstrated more no-show appointments than the usual care group. When collapsed across years and self-discharged, the Kanvas app group had a greater number of kept appointments compared with the usual care group. When provider-discharged, both groups exhibited a similar number of kept appointments. The Kanvas app group and the usual care group were similar in the number of no-show appointments when provider-discharged, and when self-discharged, the Kanvas app group had more no-show appointments compared with the usual care group. ConclusionsPatients who did or did not have access to the Kanvas app and were provider-discharged exhibited a similar number of kept appointments and no-show appointments. When patients were self-discharged and received the Kanvas app, they exhibited 3.2 more kept appointments and 0.94 more no-show appointments than the self-discharged usual care group

Effects of Exercise on EEG Activity and Standard Tools Used to Assess Concussion

A variety of cognitive assessment tools are used to determine the functional status of the brain before and after injury in athletes. Questionnaires, neuropsychological tests, and electroencephalographic (EEG) measures have been recently used to directly assess brain function on and near the playing field. However, exercise can affect cognitive performance and EEG measures of cortical activity. To date, little empirical evidence exists on the effects of acute exercise on these measures of neurological function. We therefore quantified athlete performance on a standardized battery of concussion assessment tools and EEG measurements immediately before and after acute exercise to simulate conditions of athletic competition. Heart rate and arterial oxygen levels were collected before and after the exercise challenge consisting of a 1-mile run. Together these data, from a gender-balanced cohort of collegiate athletes, demonstrated that moderate to hard levels of acute exercise improved performance on the King-Devick test (K-D test) and Standardized Assessment of Concussion (SAC) component of the Sport Concussion Assessment Tool (SCAT3). Gender played an important role in these effects, and performance was most affected by exercise in female athletes. EEG activity in the theta band (4–8 Hz) was decreased during periods of quiet resting with eyes open or eyes closed. Additionally, exercise produced a slowing of the EEG during the K-D test and a shift to higher frequencies during the balance assessment of the SCAT3. Together, these data indicate that exercise alone can influence outcome measures of cognitive assessment tools used to assess brain function in athletes. Finally, care must be taken to acquire postinjury measurements during a comparable physiologic state to that in which baseline assessment data were measured, and further research is needed into the factors influencing outcome measures of these tests

Effects of Exercise on EEG Activity and Standard Tools Used to Assess Concussion

A variety of cognitive assessment tools are used to determine the functional status of the brain before and after injury in athletes. Questionnaires, neuropsychological tests, and electroencephalographic (EEG) measures have been recently used to directly assess brain function on and near the playing field. However, exercise can affect cognitive performance and EEG measures of cortical activity. To date, little empirical evidence exists on the effects of acute exercise on these measures of neurological function. We therefore quantified athlete performance on a standardized battery of concussion assessment tools and EEG measurements immediately before and after acute exercise to simulate conditions of athletic competition. Heart rate and arterial oxygen levels were collected before and after the exercise challenge consisting of a 1-mile run. Together these data, from a gender-balanced cohort of collegiate athletes, demonstrated that moderate to hard levels of acute exercise improved performance on the King-Devick test (K-D test) and Standardized Assessment of Concussion (SAC) component of the Sport Concussion Assessment Tool (SCAT3). Gender played an important role in these effects, and performance was most affected by exercise in female athletes. EEG activity in the theta band (4-8 Hz) was decreased during periods of quiet resting with eyes open or eyes closed. Additionally, exercise produced a slowing of the EEG during the K-D test and a shift to higher frequencies during the balance assessment of the SCAT3. Together, these data indicate that exercise alone can influence outcome measures of cognitive assessment tools used to assess brain function in athletes. Finally, care must be taken to acquire postinjury measurements during a comparable physiologic state to that in which baseline assessment data were measured, and further research is needed into the factors influencing outcome measures of these tests