View clinical trials related to Xerostomia Due to Radiotherapy.
Filter by:Open-label, non-randomized, dose escalation trial of AAV2hAQP1 administered via Stensen's duct to a single or both parotid glands in subjects with radiation-induced xerostomia The objectives are to evaluate the safety and identify either a maximum tolerated dose or a maximum feasible dose of a single dose of AAV2hAQP1 infused into one or both parotid glands: To evaluate subject improvement of xerostomia symptoms, to evaluate the increase in parotid gland salivary output after treatment with AAV2hAQP1, to evaluate additional efficacy outcomes.
Radiotherapy is the main treatment for locally advanced squamous cell carcinoma of the head and neck (SCCHN). Many advances regarding tumor control and patient survival have been made over the past decades. However, treatment-induced toxicity remains a crucial problem, leading to reduced quality of life and permanent impairment for many survivors. Xerostomia is up to this day the leading cause of late toxicity for these patients. Toxicity has been reduced by implementation of modern image guided radiotherapy (IGRT) and intensity-modulated radiotherapy (IMRT), but the low soft-tissue contrast of routine x-ray image guidance does not allow exact planning adaptation and daily imaging is associated with high radiation exposure. Furthermore, despite the routinely use of IMRT, rates of clinically relevant xerostomia (i.e. grade 2 or worse) are still common and reported in approximately 38%. Recently developed hybrid machines (MRidian®-CE approval since 2016), consisting of a linear accelerator and an integrated low-field MRI, could allow a) better visualization of tumor and organs at risk, such as parotid glands during patient positioning and daily treatment, b) daily imaging without additional radiation exposure, c) narrowest established safety margins for the treatment volumes, and finally d) repetitive adaptation of target volumes according to changes in patient weight and tumor anatomy during the radiotherapy course. These procedures would facilitate a high-precision treatment and help reduce dose exposure of critical structures.
A prospective study for long-term follow-up (LTFU) to evaluate safety and efficacy in subjects who participated in the Phase 1/2 randomized placebo-controlled trial MESRIX.
An investigator-initiated, non-randomized, open label study to investigate the safety, feasibility and tolerability of intraglandular injection of allogeneic mesenchymal stem/stromal cells (MSCs) into the submandibular and parotid glands of the patients with radiation-induced hyposalivation and xerostomia after radiation for a oropharyngeal squamous cell carcinoma
Phase II not controlled, open-label, prospective, single center clinical trial
This is a feasibility study that will assess the efficacy of using autologous blood to treat moderate to severe dry mouth. Dry mouth has been estimated to affect up to 64.8% of the general population (Navazesh et al., 2009) and many patients that are affected by Sjögren's syndrome or have had radiation therapy to combat head or neck cancer (Navazesh et al., 2009). The blood will be applied to the interior of the mouth by means of a mouthwash. This research poses the first potential curative treatment for dry mouth - all other current dry mouth treatments are either symptomatic or lifestyle-based. Autologous blood has been shown to be effective in treating the epithelial surface of dry eyes. This has been attributed to the analogous growth factors in the blood to that of tears - and potentially in this case, saliva - in healing the oral epithelial surface (Herbst et al., 2004).
The proposed study is an attempt to improve patient xerostomia (dry mouth) after definitive radiation therapy treatment for head and neck cancer. Xerostomia is a frequently experienced symptom for those receiving radiation therapies to the head and neck that persists after treatment, potentially indefinitely. It has been shown that stem/progenitor cells preferentially reside in large ducts of salivary glands and that these cells have the ability to repair radiation induced salivary damage. Current practice does not specifically attempt to spare these regions and considers the entire salivary gland to have equal importance and function. This study will involve the acquisition of pre-treatment MRI sialogram images which enable visualization of salivary ducts (using saliva itself as a contrast agent) that can then be avoided during radiation treatment planning. Saliva samples will also be collected at this time to quantify baseline saliva secretion and saliva characteristics. The primary objective will be to obtain patient reported outcomes (PRO) measure of xerostomia related symptoms for comparison with a historical cohort. Xerostomia symptom information will be obtained by use of a patient reported quality of life survey administered prior to treatment and at 6, 12, 18, and 24 months after treatment. The secondary objectives will be to quantitatively assess post-treatment changes in saliva secretion, salivary gland volume, and ductal visibility using MRI sialograms. The target sample size for this study is 40 patients. The investigator hypothesizes that reducing the dose to these stem cell containing salivary ducts will facilitate improvements in patient reported symptoms as well as improved recovery of salivary secretion, salivary gland volume, and intra-glandular ductal visibility using MRI sialograms.