View clinical trials related to Accessory Nerve Injuries.
Filter by:The majority of head and neck cancers develop locally and regionally. Therefore, to reduce the risk of metastasis, 90% of surgeries performed in the head and neck area include the removal of regional lymph nodes and delivery of radiotherapy. As a consequence of radical surgery affecting the lymphatic system in the neck area, there exists a risk of damage to the cervical plexus branch (C1-C4) or the accessory nerve. Patients with damage to this nerve develop disability involving limitations to the head flexion, extension, and rotation, asymmetric shoulder blades, disturbed shoulder joint abduction, flexion, and external rotation (supination). Additionally, patients often suffer from pain, numbness, swelling, and body asymmetry. Subject literature does not describe in a detailed and comprehensive way the physiotherapeutic procedures to be applied in case of a damaged accessory nerve as a complication after cancer treatment. Unfortunately, it is often related to patients' limited access to an effective therapy. Available information on the rehabilitation procedures is limited and it mostly focuses on exercise recommendations. An analysis of the subject literature does not show any information on the efficiency of applying the myofascial techniques for treating deficiencies related to the damage of the accessory nerve. In the current project the investigators plan to assess the effectiveness of a physical therapy intervention comprising myofascial techniques as compared to a set of exercises designed for performing individually in head and neck cancer patients with accessory nerve damage after surgical head and neck cancer treatment. The primary outcome will be physiotherapeutic procedures to be applied in case of a damaged accessory nerve as a complication after cancer treatment. The secondary outcomes will include the efficiency of applying the myofascial techniques for treating deficiencies related to the damage of the accessory nerve.
As the head and neck cancer (HNC) survival rate has increased and therefore, the focus of post-treatments is to improve the quality of patients' life by decreasing the side effects. Treatment of HNC leads to acute and chronic soft tissue damage, and functional loss. However, patients with HNC need having rehabilitation throughout the post-treatment phase so as to improve functional outcomes because of the long term side effects. Chronic shoulder morbidity is one of the complications after surgery due to spinal accesory nerve injury. Moreover, pain, dysphonia, and musculoskeletal impairments are observed in the individuals after the treatments and the patients also have trouble swallowing problems, loss of taste, dry mouth, trismus, nausea, vomiting, and fatigue during and after therapy. Since there is limited research on the usage of manual therapy techniques in HNC patients, this study aims to investigate muscle changes after surgery and the effectiveness of physiotherapy on muscle material behaviour from a biomechanical perspective by using shear wave elastography. In this respect, the hypothesis is: H0: Physical therapy interventions do not impact mechanical properties of muscle, pain, quality of life, cervical and shoulder functionality in HNC patients after neck dissection. H1: Physical therapy interventions will improve mechanical properties of muscle, pain, quality of life, cervical and shoulder functionality in HNC patients after neck dissection.
The purpose of this study is to determine whether Axoguard nerve protectors have a role in preventing shoulder disability and pain following spinal accessory nerve sparing neck dissections.
In recent years, the application of intraoperative recurrent laryngeal nerve monitoring in thyroid surgery has greatly reduced the complications of recurrent laryngeal nerve injury. The use of intraoperative neurological monitoring requires the reduction of the dose of neuromuscular blockade, which often leads to muscle tremors during the application of electrical energy, which affects the fine separation around the muscles. This study explored the effect of local application of lidocaine on reducing muscle tremor during surgery and its optimal dose.
The investigators will conduct a randomized controlled trial examining 12-week, 24-week and one year outcomes from a combined therapeutic and physical exercise program that aims to bridge head-and-neck cancer survivors from acute care rehabilitation services to community-based exercise programming.