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Musculoskeletal Disorder clinical trials

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NCT ID: NCT05700526 Enrolling by invitation - Clinical trials for Musculoskeletal Diseases

Customized Bone Allografts by 3D-printing

3D-MALF 2
Start date: June 1, 2022
Phase: N/A
Study type: Interventional

Virtual surgical planning (VSP), the simulation of bone corrections in virtual reality ("Computer Aided Surgical Simulation": CASS) and 3D printing of customized implants and devices are achieving an increasingly central role in clinical practice and orthopaedic surgery. Those technologies and processes allow an allow incredibly versatile and accurate planning and reproduction of complex bone correction or joint replacement procedures. Recent and converging evidence document how the use of these technologies is able to significantly reduce surgical times, bleeding and intra-operative complications, and the use of intra-operative fluoroscopy. Due to the collaboration between the ward of Pediatric Orthopedics and Traumatology of the Rizzoli Orthopedic Institute and the Department of Industrial Engineering (DIN) of the University of Bologna it was possible to experiment, validate and introduce simulation, planning and personalization technologies of interventions of corrective surgery of Musculoskeletal Disorders (MSDs) of the limbs in childhood and developmental age into clinical practice. (3D-MALF - CE AVEC: 356/2018/Sper/IOR). Currently, extremely complex bone correction interventions are often planned and performed through Computer Aided Design (CAD) and 3D printing of models and custom sterilizable cutting guides (Patient-Specific Instrument, PSI). In pediatric orthopedic surgery is often necessary to use homologous massive bone grafts customized on the patient's anatomy, which can be employed in the replacement of neoplastic lesions, in the axial correction of deformities or even in the extemporaneous lengthening of bone segments. The Musculoskeletal Tissue Bank (BTM) regularly provides bone grafts processed in a Class A controlled contamination environment according to GMP (Clean Room), guaranteeing quality and microbiological safety. The current realization standard of bone grafts on specific request is a freehand realization. The BTM technicians model the grafts, based on the indications received (length, width, height, indications on geometry), using standard surgical instruments (osteotomes, oscillating saws, etc.). The present clinical trial aims to validate the feasibility, accuracy and effectiveness of an innovative process for producing customized bone allografts to correct bone deformities in children. the customization process will be conducted by using computer-aided surgical simulation and 3D printing.

NCT ID: NCT05551143 Enrolling by invitation - Clinical trials for Musculoskeletal Disorder

R2P Field Test of the EMS LiftKit: Validating Usability, Usefulness, Desirability, and Effects on Musculoskeletal Injuries in EMS Providers

Start date: October 1, 2022
Phase: N/A
Study type: Interventional

The long-term goal of our research program is to reduce the high incidence of musculoskeletal injury associated with person-handling tasks performed by EMS providers/responders (NORA Public Safety Industry Sector). The literature shows the significant burden of these injuries, many of which affect the back and are debilitating. There is a need for effective ergonomic tools that can assist EMS providers in the patient handling tasks encountered in patient homes, particularly those patient handling situations that include restricted or tight spaces. To address this need, our prior work identified a set of potential ergonomic solutions, using a participatory process with EMS providers, for physically challenging and frequently occurring patient handling tasks that occur in patient homes. A final product of this prior work was the development of the LiftKit, which is a collection of seven tools that were shown in biomechanical validation studies with EMS providers to effectively reduce physical demands during simulated patient handling tasks in a laboratory setting. The overall objective of this proposed research-to-practice application is to evaluate the LiftKit's seven patient handling tools (interventions) in the field to assess their usability, usefulness, and desirability, as well as their impact with regards to preventing musculoskeletal injuries incurred during EMS patient handling tasks. In this field study, 30 LiftKits will be placed on EMS vehicles that service urban, suburban, and rural communities. Given the three-shift operation used by fire-service based EMS departments, there is the potential to recruit between 180 and 270 EMS providers for the study. Immediately following the training on how to use the tools and at 4, 8, and 12 months following the training, participants will be interviewed and questioned about each tools' usability, usefulness, and desirability. Frequency of each tool's use will be assessed with a questionnaire at the time of the interview and a daily Run-Use survey tool. Musculoskeletal injury data due to patient handling tasks during the 12 month follow-up period will be compared with injury data from the three-year period prior to study initiation. The final product of this work will provide the important evidence needed to widely promote the adoption of the ergonomic tools within the LiftKit, in order to reduce MSD injury risk to EMS providers associated with common patient handling tasks.

NCT ID: NCT04954612 Enrolling by invitation - Children Clinical Trials

Musculoskeletal Problems in School Children During the COVID-19 Pandemic

Start date: May 1, 2021
Phase:
Study type: Observational

During COVID-19 pandemic, in the lockdown period, reduced physical activity and obesity were reported in children. In Turkey, face to face education was ceased after March 16, till the end of the previous academic year and education was tried to be substituted remotely. A temporary lockdown was implemented for children and young people under the age of 20, between April 3 and June 5 2020. At 45 days following the lockdown of children, 72% of the parents with children aged 6-13 years stated that their screen time had increased to a mean of 6.4 hours per day. Engaging more time in physical activity, and less in sedentary and leisure screen time was found to be associated with less anxiety during pandemic. Before 2020-2021 academic year, government and educators increased their preparedness for the second and third waves and improved the technological infrastructure. Depending on grades, preferences of the family, primary education continued remotely between November 2020 and July 2021. The aim of this study is to investigate whether musculoskeletal complaints are increased in school-age children during the pandemics and whether there is a relationship between the decreased level of physical activity, increased screen time, poor posture and musculoskeletal complaints.