View clinical trials related to Hip Fractures.
Filter by:Background and study aims The ability to move is important for general well-being. Ageing and chronic health conditions can lead to a loss of mobility and a loss of independence. In order to treat mobility loss, tools are needed that can detect and accurately measure mobility. Existing measures of mobility (based on self-reporting and one-off tests) are highly limited. Wearable digital technology (a small device worn on the body) that can be used in the home and the community can provide a simple, accurate and low-cost measure of mobility. The researchers have validated a wearable mobility monitor which can accurately measure how well a person walks by measuring aspects of mobility such as speed and symmetry. The aim of this study is to investigate the ability of the mobility monitor to measure and predict outcomes in proximal femoral fracture (PFF) patients. The digital assessment of mobility developed in this study will be used in clinical trials and in clinical practice.
A randomized control trial, including two intervention arms with different methods for rehabilitation after hip fracture, conducted among persons with the need of rehabilitation in their own home.
The mechanism of maintaining balance is a complex phenomenon, involving numerous systems of human body. High-energy trauma resulting in acetabular fracture damages some of the elements composing this delicate mechanism, potentially increasing the risk of falls in patients. There have not been any studies so far on balance levels in patients after surgical treatment of acetabular fractures. Questions/purposes 1. Do balance disorders occur in patients after ORIF of acetabular fractures? 2. Do surgical approach and fracture pattern influence balance level of patients? 3. Should therapy programs include certain stabilometric parameters adequate especially for this type of injury?
Fragility fracture is easily associated with a clinical worsening of patients in terms of quality of life and disability in the medium and long term. Following this traumatic event, more than half of the patients are unable to recover pre-fracture motor skills such as the ability to walk. The impact of the COVID-19 pandemic on this type of patient has not been described and it is easy to hypothesize that, given their intrinsic frailty condition, they may have been significantly affected by changes in care pathways.
This will be a feasibility study to see if it feasible to perform the Pericapsular Nerve Group Block for hip fractures in the Emergency Department. In addition, we will look at the efficacy of the block in these 10 patients by measuring pain scores at pre-determine time points for 16 hours.
This was a prospective cohort study. The study was conducted in the two hospitals after approval by the KNH/UON ethical committee and the board of management of Kikuyu Mission Hospital. Trained data clerks were used for retrieval of data from the respective hospitals with follow-up conducted in the respective clinics and through phone calls. The clerks were not blinded to the study but every data was corroborated by interviewing the patients or their relatives and evaluation of medical data availed as well as clinical status. Both KNH and Kikuyu Mission Hospitals had handwritten patient notes/records at the time of the study (not electronic) with central registries for storage of patient files. The patients files and other medical documents will be available in the wards but upon discharge, stored at the central registries. The WOMAC scores(assessment of the outcome measures) were conducted by the principal investigator by direct interview of the patients/ their designated next of kin, or via telephone contacts. The outcome measures included pain, stiffness and activities of daily living.
The purpose of this study is to evaluate of analgesic effects of pericapsullar nerve group block which is performed preoperatively to assist positioning patients for performance of spinal anesthesia.
Patients with dislocated hip fractures are randomised to cemented hemiarthroplasty with an anterolateral approach or a direct lateral approach.
A hip fracture is a large burden to the patient with increased mortality, pain and increased need for daily assistance. Trochanteric fractures of the femur (FTF) represents about 35% of the hip fractures. Today FTFs are mainly treated with internal fixation using sliding hips screws (SHS) or intramedullary nail (IMN), whilst hip arthroplasty (THA/HA) is rarely used. Despite advances in the design of the internal fixation implants there is a high failure rate, in particular in cases of FTFs classified as unstable fractures. Since the introduction of hip arthroplasty in femoral neck fractures there has been a reduction in complication rates, early mobilization and shorter hospital stays. The primary objective of this project is to investigate if treatment with hip arthroplasty in unstable FTFs will increase the postoperative mobility, give a better general health outcome for the patient, better quality of life and reduce re-operation rate for the patients compared to those operated with the traditional IMN.
The focus of this study will be to determine the accuracy of the MOX, the Axivity and Fitbit, Empatica and Chill+ activity monitors (with both custom-made and available algorithms) for the classification of lying, sitting, standing, walking and climbing stairs in hospitalized older people in Acute Care for the elderly (ACE) and geriatric rehabilitation units. In addition, the feasibility of the use of the activity monitors as a measurement tool in daily practice during hospitalization in the geriatric department will be investigated.