View clinical trials related to Deformity of Spine.
Filter by:It has been reported that the head protrudes forward relative to the body from the sagittal plane associated with the anterior shifting of the line of gravity (LOG) relative to the base of support (BOS). On the other hand, the center of gravity (COG) has changed with the forward head posture (FHP) and is related to mechanical and musculoskeletal modifications due to postural control, which affects the whole body balance. Griegel-Morris et al. Reported that, after evaluating eighty-eight healthy participants, 66% had a forward head posture (FHP). In addition, he stated that the inverted head posture in the forward head posture will not only cause neck problems, but also can extend to the shoulder joint and thoracic spine. As a result, it causes a general imbalance in the musculoskeletal system. Jung-Ho Kang and his colleagues examined the effect of daily sitting times of computer users on dynamic and static balance and stated that balance ability decreased in heavy computer users. Another study on forward head posture (IBP) revealed that it limits ankle joint movement, especially in ankle plantarflexion.
Prospective study, not randomised, non-interventional, monocentric, investigating an intended patient cohort of 60 patients already operated on the cervical spine due to degenerative disc disease of the cervical spine down to the first thoracolumbar VBR (C2-T1), who received a Quintex plate for stabilisation
This study compares the results of current standard coagulation measurement devices to the Quantra System, a new device, using small amount of extra blood obtained during routine blood draws in neurosurgery patients.
2 recent national reports 'Why Children Die' and 'Are we there yet?'identified deficiencies in recognising and managing sick children. Key recommendations from both reviews included the development and adoption of 'track and trigger' or a paediatric early warning score (PEWS) to better identify the sick or deteriorating child. PEWS tools offer the potential to identify and respond sooner to clinical deterioration. Capillary refill time (CRT) is a measure of skin blood flow and is a vital part of many early warning and resuscitation scores. It is a sensitive marker of infection and dehydration in children. However, due to how it is performed and interpreted CRT is prone to marked variability between observers. We have Medical Research Council (MRC) funding to develop an automated capillary refill device and user interface to provide a paediatric continuous early warning (PaedCEW) monitoring system. The PaedCEW system would complement and support current clinical practice and aim to address the difficulties of recognising ill children. We aim to recruit 20 ill children on the Paediatric Intensive Care Unit (PICU) with 2 matched controls without significant illness from the Nottingham Children's Hospital. The 20 ill children will have their CRT (and PaedCEW score) monitored before, during and after admission to PICU. This will allow correlation with invasive (BP, central venous oxygen saturations, lactate) and noninvasive (CRT, heart rate, cardiac output) measures of cardiovascular status during periods of stability and compromise. Matched controls will be monitored for around 24 hours. This pilot study will allow development of our system. This is a proof of concept study. This study aims to demonstrate a novel device for measuring CRT. Its correlation with noninvasive measures of cardiovascular status will enable a pragmatic comparison with current clinical practice. In addition, correlation with invasive measures of cardiovascular status will enable us to calculate sensitivity, specificity, negative predictive value (NPV) and positive predictive value (PPV).