View clinical trials related to Adaptation.
Filter by:Despite advancements in assessment and treatment methods, diagnosing and treating lower back pain remains challenging for researchers and clinicians. The literature doesn't support a definitive cause for the onset of back pain, as risk factors are diverse, population-specific, and inadequate when solely associated with back pain. Evaluating spinal stiffness is crucial, as it can either cause or result from back pain. However, assessing spinal stiffness lacks standardized and reliable methods, and studies regarding its relation to pain and movement are insufficient. The measurement principles and optimization techniques for assessing spinal stiffness haven't been fully explained or practically recommended. Creating a practical diagnostic process involving examination procedures, a diagnostic checklist, and practical indices for evidence in clinical assessments is crucial. Early identification of individuals at risk of prolonged disability and illness is vital since specific interventions can be developed in the early stages. The Lumbar Stiffness Disability Index (LSDI) stands out among valid and reliable tools for assessing lumbar stiffness and disability. It is an index designed in English, translated into languages like Chinese and Japanese, proving to be a useful tool to describe a patient's condition based on pain, function, and disability, tracking changes throughout treatment.
Many information is available regarding human adaptations to cold or hypoxia. Adaptations to these environments and physical exercise constitute responses to physiological stress aimed at amplifying the organism's reactions and improving its performance. However, studies conducted so far to understand these adaptations and their underlying mechanisms have been organized in a dissociated manner, with each study focusing on only one of these specific situations (cold, hypoxia, or exercise). Understanding cross-adaptations is crucial, as human beings are often simultaneously exposed to several of these stimuli, and understanding this cross-exposure can be considered a prerequisite for pre-acclimatization strategies to these different environments. Cross-adaptations has been defined as follows: "It simply involves considering that long-term exposure (either continuous or intermittent) to a given unfavorable environment not only increases tolerance to that particular environment but also leads to gains or losses of tolerance to other unfavorable factors that the adapted organism had never encountered before." When specifically examining cross-adaptations to cold and hypoxia, only one study focusing on the human model is available. The lack of perspectives and positions regarding the results calls for further investigations. The main objective of this study is to assess the effect of repeated exposures to cryostimulation on the variation of the respiratory exchange ratio in hypoxia during exercise.