View clinical trials related to Congenital Abnormalities.
Filter by:This study aims to retrospectively collect data from routine clinical practice in order to evaluate the safety profile of the Agile intramedullary nail, used in pediatric patients according to the manufacturer Instructions For Use (IFU) in the time frame from the time of surgery until the last follow-up visit available at the hospitals.
The aim of our study is to determine the range of frontal horn sizes (both upside and downside) in healthy fetuses over gestation and to determine how far FHs are from the midline . Also to determine the range of cavum septi pellucidi and Corpus callosum sizes . Also, to determine whether the maternal body mass index (BMI) affects rates of visualized and non-visualized CSP and CC.
The goal of this observational study is to examine and confirm the clinical performance of the Fitbone Transport and Lengthening System in adult patients (21 years and older) who require lower-limb lengthening, fracture fixation and/or treatment for previous non-healing fracture. The main questions it aims to answer are: 1. Are their any unanticipated safety issues with the product when used in a real-world setting? 2. Does the product provide the anticipated clinical benefit when used in a real-world setting? Participants will have been selected by their physician to be treated with the Fitbone Transport and Lengthening System as part of treatment for their condition or injury. All procedures will be according to the physician's standard care practices. There are no study-specific procedures or requirements for participants in this study.
Delineate coronary artery anatomy and detection of coronary anomalies in children with complex cardiac anomalies by cardiac CT-angiography before total surgical correction.
Virtual Surgical Planning (VSP), Computer-Aided Surgical Simulation (CASS) for bone corrections, and the customization of implants and devices through 3D printing, known as Patient-Specific Instruments (PSI) and Graft-Specific Instruments (GSI), are assuming increasingly central roles in orthopedic clinical and surgical practice. One area witnessing notable advancement is the treatment of musculoskeletal disorders (MMS) in children, adolescents, and young adults. These disorders involve severe and rare abnormalities in skeletal formation and development across three-dimensional planes, often affecting multiple limbs. Managing such deformities is complex, challenging to standardize, and prone to unpredictable clinical, radiographic, and functional outcomes. The application of 3D modeling and printing technologies offers a deeper understanding of deformities and facilitates improved prediction, precision, reproducibility, and safety in surgical interventions. The Musculoskeletal Apparatus Network (RAMS Network) centers are equipped with advanced 3D laboratories for surgical simulation and planning, aligned with the overarching goal of improving surgery quality through "in-silico" medicine (ISM) principles. At present, numerous complex surgeries involving Virtual Surgical Planning (VSP) and sterilizable 3D-printed Patient-Specific Instruments (PSI) and/or Graft-Specific Instruments (GSI) are being simulated and performed at the Rizzoli Institute. Preliminary data from previous protocols indicate a significant reduction in surgical time with the implementation of VSP and the utilization of PSI and GSI. The aim of this study is to enhance the current process of simulating, planning, and designing surgical support tools within 3D Printing Point-of-Care (3D POC) facilities. To achieve this, it is imperative to expand case volumes and systematically organize, categorize, and standardize simulation and planning procedures.
The aim of this study is to investigate the effects of Schroth exercises and kinesiological taping on spinal deformities and serum markers in young adults with scoliosis. The study will include young adults aged 18-21 with scoliosis. A total of 57 participants will be included in the study. Out of 57 participants, 38 have scoliosis, and 19 are healthy. 38 participants will be randomly divided into 2 groups. One group (n=19) will receive only Schroth exercises, and the other group (n=19) will receive both Schroth exercises and kinesiological taping. The laboratory analyses of proteins associated with autophagy (Beclin-1, LC3, and ATG3) and bone-cartilage metabolism (COMP and MMP-3) will be conducted in the Biomedical Engineering Laboratory of our university. Trunk rotation will be assessed using the Adams Forward Bend Test with scoliometer, quality of life will be evaluated with the SRS-22 Quality of Life questionnaire and Quality of life profile for spinal deformities questionnaire, perception of deformity will be measured using the Walter Reed Visual Assessment Scale, and Cobb angles will be evaluated from anterior-posterior X-ray images.
The goal of this observational study is to study the genetic landscape in patients with Plasma Cell Disorders including MGUS, SMM, MM, and amyloidosis in Thailand. The main questions it aims to answer are: - genetic landscape in patients with Plasma Cell Disorders including MGUS, SMM, MM, and amyloidosis in Thailand who were performed FISH and/or NGS testing - genetic correlation and genetic dependency between FISH and NGS, stratified by high- and standard-risk groups based on FISH testing in Thai MM patients. - disease characteristics and response rates in MM patients with cytogenetic abnormalities detected by FISH and/or genetic mutations detected by NGS. - correlation between cytogenetic abnormalities identified by FISH and genetic mutations detected by NGS with progression-free survival in MM patients. The FISH and/or NGS testing results, disease characteristics, treatment, and treatment outcomes of patients with plasma cell disorders who underwent FISH and/or NGS testing before IRB approval will be collected through retrospective chart review. Subsequently, data will be gathered prospectively. Participants will provide approximately 12 mL of bone marrow fluid for FISH and NGS testing.
Treatment of craniofacial deformities is a significant topic in oral and maxillofacial surgery, and autologous fat grafting has become one of the main methods for treating facial concave deformities. However, the instability of its treatment effect has always been a bottleneck in this field, mainly due to the uncertain absorption rate of transplanted fat. This project aims to use advanced the 3dMD face system (3dMD) (3dMD Inc, Atlanta, Ga) technology to precisely measure the facial volume changes before and after autologous fat grafting to address this issue. By performing autologous fat grafting surgery on 100 patients with craniofacial deformities that meet the research criteria, 3dMD technology will be used for facial three-dimensional scanning preoperatively, immediately postoperatively, and at six months postoperatively to obtain facial volume data. Then, through precise data analysis, we will calculate the fat absorption rate and study the effects of individual factors on treatment outcomes through correlation regression analysis.
To investigate the safety and effectiveness of preoperative aerosol inhalation ICG solution for thoracoscopic accurate resection of congenital lung malformations in children.
The goal of this study is to present the author's thumb orthosis with a butonier deformity and its effect on hand function, strength, dexterity and pain levels in relation to patients wearing factory-made orthopedic supplies. It is planned to include about 60 people in the study (30 people each in the group with thermoplastic orthoses and 30 participants with factory-made orthoses) The main questions it aims to answer are: 1. How much improvement in dexterity will the patient wearing the orthosis get? 2. By how much will the grip strength of the whole hand and pincer grip strength improve with the orthosis? 3. How will wearing the orthosis affect the pain associated with the disease? Participants will 1. measurement of grip strength of the right and left hands with a dynamometer in an orthosis and without an orthosis, at the time of the test conducted and at the appointed times. 2. measurement of pincer grip strength with a dynamometer in an orthosis and without an orthosis, at the time of the test conducted and at the designated times. 4. completion of the DASH questionnaire 6. assessment of the NRS pain scale in relation to the period of 6 months before the start of the study 7. Likert scale - evaluation of satisfaction with the use of the orthosis 8. the Kapandji scale Researchers will compare patients with thermoplastic orthosis and patients with fabric orthosis to see which is more functional.