View clinical trials related to Lumbar Degenerative Disease.
Filter by:Lumbar degenerative diseases such as lumbar disc herniation (LDH) and lumbar spinal stenosis (LSSS) are common and frequently encountered in orthopaedics. With the acceleration of the aging process of society, their incidence rate increases year by year. At present, conservative treatment is the preferred choice for this type of disease, and surgical treatment is feasible in cases where conservative treatment is ineffective. The main surgical methods include simple laminectomy and nucleus pulposus removal, intervertebral fusion and internal fixation, intervertebral disc replacement, and non fusion surgery. Simple nucleus pulposus removal surgery has drawbacks such as loss of intervertebral height and foramen height, which can affect spinal stability; Intervertebral fusion and internal fixation surgery has the problem of accelerating adjacent segment degeneration; The current therapeutic effect of lumbar disc replacement is not yet clear, and the technology is not yet mature. In response to the shortcomings of the above surgical methods, the advancement of science and technology has driven the development of spinal surgery, and a new surgical concept has emerged - spinal non fusion fixation technology. The INTRA-Spine dynamic stability system between vertebral lamina is one of the non fusion technologies of the spine. The core concept of this technology is to provide dynamic fixation on the basis of sufficient decompression of nerves, with the rotation center located between the vertebral lamina, which is closer to the normal movement center of the lumbar spine. It simulates the normal physiological structure of the lumbar spine with minimal damage and trauma, and maximizes the preservation of surgical segment mobility while maintaining spinal stability, Reducing stress concentration in adjacent segments caused by local fusion, thereby reducing the acceleration of adjacent segment degeneration, theoretically has good clinical and imaging efficacy.
Lumbar degenerative disease surgery has been a routine clinical operation, and has good treatment effects. Although the patient's neurological symptoms improve after surgery, many patients still have postoperative muscle soreness. The postoperative rehabilitation intervention for the patients receiving traditional lumbar surgery has been confirmed to effectively improve pain and disability. However, in recent years, minimally invasive lumbar spinal surgery has gradually replaced traditional surgery, postoperative pain has been greatly reduced. Therefore, patients have the opportunity to receive early intervention in rehabilitation, but there is no standardization process for rehabilitation of minimally invasive lumbar spine surgery. Therefore, this study aims to establish a health education program for patients receiving minimally invasive lumbar spinal surgery, and conduct clinical trials to test its effectiveness.
Background: Shared decision making (SDM) is a patient-centered and evidence-based model of clinical decision making. The feature of SDM is that clinicians work together with patients to plan the most appropriate and practical treatment for patients based on the patients' preferences and values. Recently, SDM has been implemented throughout the world to improve patients' health literacy and to have a better understanding of the treatment options, thereby improving patient-doctor communication and promoting the quality of care. Lumbar degenerative disease is a critical public health issue in the aging society. SDM now becomes an important process because there is no consensus of evidence-based practice guidelines among the multiple complex treatment options for patients with lumbar degenerative disease. In addition, there is a lack of evidence to support the effect of patient decision aids (PDAs) to promote the quality of healthcare for patients with lumbar degenerative disease in Taiwan. Purposes: This project has two purposes. The first purpose is to develop a multimedia interactive patient doctor communication system called the Taiwan Shared Decision Making for Lumbar Spine Treatment (Taiwan SDM LumST). The second and ultimate purpose is to conduct a cluster randomized controlled trial (cRCT) for the validation of the integrated SDM model and the effectiveness of SDM related outcome indicators. Methods: In the first year of the 3-year project, investigators will develop the SDM communication teaching materials, PDAs, as well as the computerized platform of Taiwan SDM LumST through focus groups and consensus meetings. In the second to third year, investigators will recruit 130 patients with lumbar degenerative disease to participate in double blind cRCT in the affiliated hospitals of Taipei Medical University. Investigators will use structural equation modeling to validate the factors of the SDM model and adopt generalized linear regression models with generalized estimating equations to examine the immediate, short-term, and long-term benefits of the Taiwan SDM LumST in implementing the SDM model among patients with lumbar degenerative disease. Expected results: Investigators expect that the implementation of the Taiwan SDM LumST system will significantly improve the patients' decision preference, health literacy in the care of lumbar degenerative disease, and self-efficacy in SDM. It will also promote the health care quality and health outcomes (e.g., participation in SDM, quality of decisions, regret in decisions, health outcomes, and quality-of-life) in patients with lumbar degenerative disease. Expected impacts on the society, economy, and academic developments: The Taiwan SDM LumST will be an efficient and effective way to facilitate patient doctor communication and thereby, promote health outcomes and improve the quality of decisions made by patients with lumbar degenerative disease. No computerized interactive PDA of SDM system for patients with lumbar degenerative disease exists in Taiwan yet. Thus, our system would be the first in Taiwan for the lumbar degenerative population. Investigators hope that the Taiwan SDM LumST will not only contribute to academic research, but also facilitate SDM between patients and healthcare professionals in order to improve patient safety and enhance the quality of care in Taiwan.
Clinician directed use of bone morphogenetic proteins (BMPs) in ways other than FDA approved, has increased recently due to the morbidity associated with harvest of iliac crest bone graft in spinal arthrodesis procedures. FDA approved for the use in anterior lumbar fusions with LT Cage, other clinical applications of these proteins is becoming widely adopted due to their effectiveness in forming bone and facilitating fusion. Clinicians have realized while these proteins are potent stimulators of bone formation there have been anecdotal reports of increased rates of radicular pain in the postoperative period when used in interbody arthrodesis procedures. Speculation as to the mechanism of this radiculitis is postulated to be due to the inflammatory effects of these proteins. Excess bone overgrowth around the spinal nerves in proximity to the fusion cage has been reported. No prospective studies have been performed assessing the incidence and etiology of this complication. The investigators propose a prospective study evaluating the incidence of this complication as well as postoperative imaging studies to help determine whether bony overgrowth is indeed occurring adjacent to the effected spinal nerves.