24 research outputs found
Chiropractic as spine care: a model for the profession
BACKGROUND: More than 100 years after its inception the chiropractic profession has failed to define itself in a way that is understandable, credible and scientifically coherent. This failure has prevented the profession from establishing its cultural authority over any specific domain of health care. OBJECTIVE: To present a model for the chiropractic profession to establish cultural authority and increase market share of the public seeking chiropractic care. DISCUSSION: The continued failure by the chiropractic profession to remedy this state of affairs will pose a distinct threat to the future viability of the profession. Three specific characteristics of the profession are identified as impediments to the creation of a credible definition of chiropractic: Departures from accepted standards of professional ethics; reliance upon obsolete principles of chiropractic philosophy; and the promotion of chiropractors as primary care providers. A chiropractic professional identity should be based on spinal care as the defining clinical purpose of chiropractic, chiropractic as an integrated part of the healthcare mainstream, the rigorous implementation of accepted standards of professional ethics, chiropractors as portal-of-entry providers, the acceptance and promotion of evidence-based health care, and a conservative clinical approach. CONCLUSION: This paper presents the spine care model as a means of developing chiropractic cultural authority and relevancy. The model is based on principles that would help integrate chiropractic care into the mainstream delivery system while still retaining self-identity for the profession
Predictors of poor neurologic outcome in patients undergoing therapeutic hypothermia after cardiac arrest.
BACKGROUND: Therapeutic hypothermia (TH) has been shown to reduce the degree of anoxic brain injury, decrease mortality, and improve neurologic recovery in patients surviving cardiac arrest. However, there is a paucity of data on potential markers of neurologic outcome that physicians can use in this setting.
METHODS: A retrospective medical records review of 41 consecutive survivors of cardiac arrest treated with TH (2004-08) was examined.
RESULTS: Mean patient age was 66 years old. Most subjects had an out-of-hospital, witnessed cardiac arrest, and two-thirds had received bystander cardiopulmonary resuscitation (CPR). About half of the patients had nonventricular tachycardia/fibrillation (VT/VF) arrests. Fifty-nine percent (24 of 41 subjects) died or experienced severe neurologic impairment. By bivariate analysis, factors associated with a poor neurologic prognosis included: 1) a first rhythm at cardiac arrest other than VT/VF (P = 0.01); 2) the presence of acute kidney injury (AKI) in the intensive care unit (ICU) (P \u3c 0.001); 3) any treated cardiac arrhythmia after admission (P = 0.05); and 4) a Glasgow Coma Score
CONCLUSION: Several simple, reproducible clinical markers can help predict neurologic recovery, during and after treatment, in patients managed with TH for cardiac arrest
Community-based application of mild therapeutic hypothermia for survivors of cardiac arrest.
OBJECTIVE: To demonstrate that the application of therapeutic hypothermia is technically feasible in a community-based setting.
BACKGROUND: Implementation of therapeutic hypothermia for survivors of cardiac arrest in the United States has been slow, at least partially because of the perception that this therapy is technically difficult, especially at the community level.
STUDY DESIGN: Retrospective cohort study with historical controls.
METHODS: At our three community hospitals and after return of spontaneous circulation (ROSC), survivors of cardiac arrest were treated with therapeutic hypothermia using ice and cooling blankets or suits in order to cool patients to 32 degrees C-34 degrees C within 4 hours to achieve goal temperature within 8 hours and to maintain goal temperature for 24 hours.
RESULTS: Beginning in 2004, 44 survivors of cardiac arrest were managed with therapeutic hypothermia. The mean time from ROSC to initiation of therapeutic hypothermia was 2.8 hours (range, 0.2-7.8 hours), the mean time from ROSC to goal temperature was 7.2 hours (range, 0.8-15.1 hours), and the mean time maintained at goal temperature was 24.5 hours (range, 9-28 hours). Once patients achieved goal temperature, 4.4% of the temperature readings were above 34 degrees C, reflecting undercooling, while 16.4% of the readings were below 32 degrees C, indicative of overcooling. Overall survival until hospital discharge with good neurologic outcome was 43%, compared to only 13% (P \u3c 0.001) among selected controls. There were no major complications directly attributable to the induction of hypothermia or rewarming.
CONCLUSION: A simple protocol of mild therapeutic hypothermia using locally available resources is technically feasible and safe in a community-based setting
Thresholds of skin sensitivity are partially influenced by mechanical properties of the skin on the foot sole
Across the foot sole, there are vibration and monofilament sensory differences despite an alleged even distribution of cutaneous afferents. Mechanical property differences across foot sole sites have been proposed to account for these differences. Vibration (VPT; 3 Hz, 40 Hz, 250 Hz), and monofilament (MF) perception threshold measurements were compared with skin hardness, epidermal thickness, and stretch response across five foot sole locations in young healthy adults (n = 22). Perceptual thresholds were expected to correlate with all mechanical property measurements to help address sensitivity differences between sites. Following this hypothesis, the MedArch was consistently found to be the thinnest and softest site and demonstrated the greatest sensitivity. Conversely, the Heel was found to be the thickest and hardest site, and was relatively insensitive across perceptual tests. Site differences were not observed for epidermal stretch response measures. Despite an apparent trend of elevated sensory threshold at harder and thicker sites, significant correlations between sensitivity measures and skin mechanical properties were not observed. Skin hardness and epidermal thickness appeared to have a negligible influence on and minor influence on within this young healthy population. When normalized (% greater or smaller than subject mean) to the subject mean for each variable, significant positive correlations were observed between MF and skin hardness (R2 = 0.422, P < 0.0001) and epidermal thickness (R2 = 0.433, P < 0.0001) providing evidence that skin mechanics can influence threshold. In young healthy adults, differences in sensitivity are present across the foot sole, but cannot solely be accounted for by differences in the mechanical properties of the skin. Skin mechanical properties (thickness and hardness) were found to have a meaningful influence on monofilament perception threshold and a negligible influence on vibration perception threshold across the foot sole. Less sensitive sites were found to be the thickest and hardest, however significant correlations between these measures was not observed. In young healthy adults, differences in sensitivity are present across the foot sole, but cannot solely be accounted for by differences in the mechanical properties of the skin
Kinematics of the head and associated vertebral artery length changes during high-velocity, low-amplitude cervical spine manipulation
Abstract
Background
Cervical spine manipulation (CSM) is a frequently used treatment for neck pain. Despite its demonstrated efficacy, concerns regarding the potential of stretch damage to vertebral arteries (VA) during CSM remain. The purpose of this study was to quantify the angular displacements of the head relative to the sternum and the associated VA length changes during the thrust phase of CSM.
Methods
Rotation and lateral flexion CSM procedures were delivered bilaterally from C1 to C7 to three male cadaveric donors (Jan 2016–Dec 2019). For each CSM the force–time profile was recorded using a thin, flexible pressure pad (100–200 Hz), to determine the timing of the thrust. Three dimensional displacements of the head relative to the sternum were recorded using an eight-camera motion analysis system (120–240 Hz) and angular displacements of the head relative to the sternum were computed in Matlab. Positive kinematic values indicate flexion, left lateral flexion, and left rotation. Ipsilateral refers to the same side as the clinician's contact and contralateral, the opposite. Length changes of the VA were recorded using eight piezoelectric ultrasound crystals (260–557 Hz), inserted along the entire vessel. VA length changes were calculated as D = (L1 − L0)/L0, where L0 = length of the whole VA (sum of segmental lengths) or the V3 segment at CSM thrust onset; L1 = whole VA or V3 length at peak force during the CSM thrust.
Results
Irrespective of the type of CSM, the side or level of CSM application, angular displacements of the head and associated VA length changes during the thrust phase of CSM were small. VA length changes during the thrust phase were largest with ipsilateral rotation CSM (producing contralateral head rotation): [mean ± SD (range)] whole artery [1.3 ± 1.0 (− 0.4 to 3.3%)]; and V3 segment [2.6 ± 3.6 (− 0.4 to 11.6%)].
Conclusions
Mean head angular displacements and VA length changes were small during CSM thrusts. Of the four different CSM measured, mean VA length changes were largest during rotation procedures. This suggests that if clinicians wish to limit VA length changes during the thrust phase of CSM, consideration should be given to the type of CSM used