10 Clinical Trials for Various Conditions
Long bone defect (LBD) is defined as a focalized loss of bone tissue in any long bone of the upper or lower extremity. Long bone defects are a complex problem, that may arise as a complication of many different pathologies, such as trauma, tumors or infection. Whereas post-traumatic defects are the largest group. Reports estimate that there are almost 4 million bone grafting procedures worldwide per year. However, limb reconstruction in the context of a bony defect is challenging and up to date there is little evidence and treatment recommendations. In a multi-national approach, the aim of this project is to set up an international, multicenter registry to gather information and details on prevalence or incidence, current treatments, complications and outcome.
Osteoporosis is a disease that weakens bones so the bones may break easily. The risk for osteoporosis increases with age in both women and men. Osteoporosis affects 10 million older adults in the US. Osteoporosis is a common cause of broken bones in the hips and legs. Broken bones can lead to disability, nursing home placement, and death. Because of the dire consequences, a broken hip or leg is one of the most dreaded injuries for older adults. Many studies confirm that a simple regimen of exercise, healthy diet and bone-strengthening medications can improve overall recovery after a broken hip or leg. This regimen can prevent a person from becoming disabled, having future fractures, and even prevent death. Many older adults have surgery in a hospital after breaking a hip or leg. Then older adults go to a skilled nursing facility (SNF) for rehabilitation. Care in SNFs varies greatly. Some patients do not receive the regimen that the investigators know is most beneficial to improve bone health and recovery. Even patients who get exercise, healthy diet, and bone-strengthening medication in the SNF, may not continue with the regimen once patients go home. Therefore, the investigators want to implement and test OsteoPorotic fracTure preventION System (OPTIONS). OPTIONS is a program that will integrate the regimen into the care that is provided in SNFs and after discharge to the community. OPTONS will provide information about exercise, diet, and bone-strengthening medication. OPTIONS will provide doctors, clinical staff, patients, and care partners with the information these stakeholders need to carry out the best-practice regimen. The investigators are partnering with PointClickCare, a large cloud-based healthcare software provider, with SNFs and community care sites across the US. The investigators will include 32 SNFs from different US areas. The investigators will flip a coin to assign SNFs to the intervention (OPTIONS) or the control arm (enhanced usual care) of the study. Enhanced usual care is the care that is typically provided in SNFs after a fracture and adding information about a publicly available fall prevention toolkit. The investigators are using an "implementation science" approach that requires the investigators to get input from the OPTIONS study's vast stakeholder community throughout the study. The OPTIONS study's stakeholders include patients, care partners, clinicians, and professional organizations. The research question is, can using OPTIONS in SNFs and in the community after discharge improve physical function and quality of life in older people in the year after a hip or leg fracture? The investigators are measuring patient-reported outcomes. The investigators will include 1553 patients across the 32 facilities. The investigators have selected outcomes that are important to patients. Specifically, the investigators are measuring patient-reported function and quality of life. The investigators are also measuring patient-reported falls and fractures. The investigators will track the number of patients who die during the study. This study's hypothesis is that patients who receive OPTIONS will report better physical function (i.e., can walk and take better care of themselves) than those who receive enhanced usual care. The investigators also hypothesize that patients that receive OPTIONS will report a better quality of life than those who receive enhanced usual care. This study will provide sound data about the effectiveness of OPTIONS. OPTIONS could then be spread to other SNFs and community-based programs. This would ensure that all older people receive the right care after a hip or leg fracture.
Offloading Ankle Foot Orthoses (AFOs) are devices designed for people following lower-limb reconstruction to restore mobility by reducing mechanical loading through the injury site and redistributing it proximally. While they perform well for some users, their current form limits full functional potential and may put joints proximal to the injury at risk of long-term damage. This study is directed toward designing and testing a lightweight, variable stiffness, dynamic brace that can adjust in response to user activity.
To define a serum protein-based diagnostic for the progression and failure of fracture healing, through the identification of a set of serum proteins that appear at early times of biological healing and show a specific correlation with later radiological and functional signs used to define delayed healing and non-union.
This study aims to examine the need for univalve or bivalve splitting of casts in pediatric patients with forearm fractures following closed reduction and cast application in a randomized, prospective fashion.
The purpose of this study is to use a novel load monitoring technology to correlate limb loading to ankle fracture outcomes. This study will collect continuous limb loading data and will provide the first objective insight into how limb loading directs fracture healing.
This study aims to 1) characterize skeletal muscle pH during/after tourniquet use and 2) investigate any relationship between intraoperative tourniquet use and postoperative functional measures and patient-reported outcomes.
The purpose of this study is to determine if the utilization of Ischemic Pre-Conditioning 24-hours prior to hip arthroscopy decreases patient's post-operative pain and opioid consumption.
Following upper limb surgeries, patients could receive occupational therapy either in-person or remotely (teletherapy). The investigators currently do not know which occupational therapy delivery is better in terms of clinical outcomes and patient recovery. The proposed study is a pilot randomized controlled trial (RCT) testing the feasibility of comparing in-person occupational therapy to teletherapy following operative fixation of upper extremity fracture. It is a single site, parallel-arm, randomized controlled trial to compare teletherapy versus in-person occupational therapy. Patients who are eligible will be randomized similar to a flip of a coin (1:1) to occupational therapy in-person or through a telemedicine platform. Patients would also complete surveys at each follow-up visit to measure clinical outcomes.
The purpose of this study is to use a novel load monitoring technology to correlate limb loading to OTA type 42IIIB and IIIC tibial fracture outcomes. This study will be the first to collect continuous limb loading data and will provide the first objective insight into how limb loading directs fracture healing. To meet this purpose, two specific aims have been developed. Specific Aim 1: Preclinical validation of a load-monitoring insole The Hitchcock laboratory has overcome the greatest technical hurdle for continuous limb load monitoring: development of load sensor technology that is affordable, accurate and capable of monitoring for over four weeks. To develop this sensor technology into a load-monitoring insole, the Hitchcock lab will incorporate consumer type electronics into the design, including a microprocessor, battery, and data storage media. Following construction of a functional load-monitoring insole, a pilot human study with orthopaedic trauma patients from the University of Utah (N=20) will be conducted to identify modes of device failure, improve device interfacing and develop data handling protocols and software for the clinical arm of the proposed study. Specific Aim 2: Conduct a prospective, direct observational cohort study. Thirty (30) open tibial fracture patients will be recruited at two centers: University of Utah (N=15) and William Beaumont Army Medical Center (N=15). Participants will wear a walking boot instrumented with the load-monitoring insole that will continuously record limb loading and serve as a step counter. X-rays collected at standard-of-care follow-up visits will be used by Drs. Kubiak and Orr to subjectively evaluate fracture healing. A questionnaire regarding subjective perception of patient compliance will be collected at the first and last follow-up visits. Data collected from the insole sensor will be correlated to objective measures of fracture healing and subjective measures of patient compliance to determine the effect of patient limb loading on injury outcome. The Hitchcock laboratory will develop software to process and summarize data from the load monitoring insole and continually improve human interfacing factors of the load monitoring insole based off of feedback from the clinical team and study participants.