21 Clinical Trials for Various Conditions
Muscle tension dysphagia is a novel diagnostic taxonomy describing a subset of patient population with reported dysphagia who exhibit normal oropharyngeal and esophageal swallowing function as evidenced by videofluoroscopic swallow study. These patients also demonstrate abnormal supraglottic muscle tension during laryngoscopy as well as signs of laryngeal hypersensitivity and laryngopharyngeal reflux. Treatment of these patients with Proton Pump Inhibitor (PPI) therapy is a common practice however voice therapy invention targeting the unloading of the supraglottic muscle tension has been shown to be highly effective in symptom resolution per the investigators' clinical experience. The study is designed to answer efficacy of treatment being offered to patients with muscle tension dysphagia.
The purpose of this research is to determine whether treatment of voice disorders can be provided just as effectively using telemedicine as it can using on-site, traditional therapy. An exercise protocol for improving airflow with voicing has been demonstrated to be effective in a prior UAMS investigation (Protocol 107454). These exercises are used as part of the normal clinic routine at UAMS working with individuals with voice problems. The three exercises used are: gargling with and without voicing; cup bubble blowing with and without voicing; and, stretch and flow exercises, which involves the use of a piece of tissue to provide visual biofeedback on the ability to use proper airflow with voicing. The purpose of the exercises is to increase airflow and breathiness in the voice and reduce muscle tension. In addition, patients will be taught to use a "confidential voice" or gentle voice during speaking. The investigators voice patients come from all over the state and many cannot return for regular treatment. Developing a way to provide treatment to them closer to home could greatly improve quality of care and quality of life. Twenty participants will participate for 12 sessions each. All participants will be evaluated at UAMS before and after treatment as part of standard care and will, upon consent, be randomized to receive treatment via telemedicine at an AHEC site or at UAMS Medical Center. Homework will be provided along with log sheets. Results of airflow measures using an airflow-recording device (Viasys, KAY/PENTAX) pre- and post treatment will determine whether telemedicine results are equal to results of traditional, on-site treatment. The investigators hypothesize that results from treatment using telemedicine will be equivalent to results for onsite, traditional treatment.
We propose to identify patients and families for inclusion in pilot studies of the three modalities. Patients and their families will be asked to participate in these studies. Our research group has done some preliminary work with the modality of hypnotherapy, but has no experience to date with the other two modalities. The idea to try relaxation techniques was generated by the observation that there is great variation in the degree to spasticity at different times in the same patient with CP. When queried, mothers responded that they were able to get their child to relax and decrease the tension in their muscles by stroking, talking softly, and/or by playing certain types of music. The availability of hypnosis and training in self-hypnosis was presented to several families of our patients. Their understanding and acceptance of this alternate therapy was gratifying. The results of this therapy have been promising and have encouraged us to proceed with this modality and to consider making other nonconventional modalities available to our patients. We hypothesize that at least one of the two modalities will be accepted readily by patients with CP and their families, and with their acceptance compliance with the method chosen will be at levels of 80 percent or more.
The goal of this study is to evaluate if using evidence-based, standard ingredient and target codes from the Rehabilitation Treatment Specification System - Voice Therapy (RTSS-Voice) in standard of care voice therapy documentation can improve outcomes for patients with muscle tension dysphonia (MTD). The main question it aims to answer is: Since the RTSS-Voice will help clinicians think about their treatment more specifically and in relation to nine evidence-based therapies, will its adoption be associated with improved outcomes? Clinicians across five voice centers will be asked to use the RTSS-Voice to document their voice therapy sessions for patients with MTD. Researchers will compare changes in outcomes between two groups of patients: those treated during the clinician's first year using the RTSS-Voice versus those treated during the clinician's second year using the RTSS-Voice.
Primary muscle tension dysphonia is a voice disorder that involves excessive and poorly coordinated muscle activity affecting multiple subsystems that are involved in speech production, in the absence of structural or neurologic abnormalities of the larynx. Primary muscle tension dysphonia (MTD) is one of the most common forms of voice disorders, accounting for at least 40% of patients seen in voice clinics. Perceptually the voice sounds hoarse and strained, with reduced loudness and pitch range, and people with MTD find speaking very effortful and fatiguing. The physiological abnormalities that characterize MTD are considered multifactorial, and include over-activity of muscles in and around the larynx, laryngeal constriction patterns, and abnormal speech breathing patterns. However, standard treatment approaches for MTD primarily address laryngeal function, including repositioning of laryngeal structures, reducing activity in the intrinsic and extrinsic laryngeal muscles, and altering vibratory patterns. Although voice improvement may follow these treatments, many people with MTD show recurrence of voice problems after only a few months, and some do not improve with treatment. These findings highlight the need for alternative treatments that address the respiratory contributions to MTD, which directly affect the phonatory system. The goal of this project is to compare the effects of two respiratory-based training conditions in people with MTD. A randomized group design will be implemented to determine the respiratory and acoustic effects of each condition. We will determine the effects of each condition immediately after and then 3 and 6 months after training completion to assess short- and long-term training effects. We propose that respiratory training will have a positive effect on related laryngeal behavior and voice. The proposed project has the potential to substantially advance the evidence-based treatment options for MTD, providing a vital step toward reducing the debilitating effects of this disorder.
The purposes of the proposed study are: a) to determine whether Flow Phonation can decrease Laryngeal Resistance (Rlaw) in patients with Muscle Tension Dysphonia (MTD); and b)establish the relationship between changes in measures of Rlaw and phonatory airflow to endoscopic, perceptual, acoustic, and handicap assessment ratings. MTD can have a debilitating effect on individuals who rely on their voices the most-teachers, preachers,salespeople, singers-costing them time, money, and even their jobs. It can lead to vocal fatigue, pain, and complete loss of voice. While treatments have emerged with some promising effects, no treatments have proven to have long-term benefits to all patients. Our preliminary data demonstrate Flow Phonation training resulted in significant decreases in Laryngeal Resistance to phonatory airflow with associated improvements in voice quality and voice handicap ratings. Sample size for our pilot study was small; no control group was utilized; and outcome measures were limited. In the proposed investigation, a larger sample will be obtained, a control group of participants receiving only Vocal Hygiene Training will be used for comparison during the first 3 weeks, and a wider range of outcome measures will be included over a longer period of time (1 year).
This study was designed to determine whether a simple manipulative technique of relaxing the tissues of the occipito-atlantal junction in the neck had any effect on the activity of the sympathetic or parasympathetic nervous system. Subjects were dark adapted then measures of pupillary activity, reflecting autonomic nervous system activity were taken before and after treatment. The study hypothesis was that thet treatment technique would have no effect on the pupillary measures, hence indicating no effect on autonomic system activity.
Vocal hyperfunction (VH) is the most commonly treated class of voice disorders by speech-language pathologists and voice therapy is the primary curative treatment. Patients and clinicians report that generalizing improved voicing into daily life is the most significant barrier to successful therapy. We will test if extending biofeedback into the patient's daily life using ambulatory voice monitoring will significantly improve generalization during therapy and if individual patient factors, like how easily they can modify their voice and engagement during therapy, moderate the effects of the biofeedback.
The purpose of this study is to assess subjects with muscle tension dysphonia for perceived effort and acoustic effects of gargle phonation compared to baseline and a sham water swallow.
Patients with vocal hyperfunction will undergo standard of care voice therapy with ambulatory voice monitoring before therapy and after the first 3 voice therapy sessions. Biofeedback will be added to ambulatory monitoring after the 2nd voice therapy session only.
The contribution of genetic risk factors to the development of focal dystonias is evident. However, understanding of how variations in the causative gene expression lead to variations in brain abnormalities in different phenotypes of dystonia (e.g., familial, sporadic) remains limited. The research program of the investigators is set to determine the relationship between brain changes and genetic risk factors in laryngeal dystonia (or spasmodic dysphonia). The researchers use a novel approach of combined imaging genetics, next-generation DNA sequencing, and clinical-behavioral testing. The use of a cross-disciplinary approach as a tool for the discovery of the mediating neural mechanisms that bridge the gap from DNA sequence to the pathophysiology of dystonia holds a promise for the understanding of the mechanistic aspects of brain function affected by risk gene variants, which can be used reliably for the discovery of associated genes and neural integrity markers for this disorder. The expected outcome of this study may lead to better clinical management of this disorder, including its improved detection, accurate diagnosis, and assessment of the risk of developing dystonia in family members.
Current semi-occluded vocal tract therapies limit the type of vocalizations that can be produced to single vowels, which does not promote learning of the healthy voice behavior in connected speech or generalization to conversation. However, recent preliminary results using a semi-occluded mask indicate that the use of certain mask port diameters may allow for natural speech production while increasing supraglottal pressure and impedance, and thereby result in elicitation of voice with increased efficiency. In addition, the use of a semi-occluded mask provides the possibility for a better transition from phonating single phonemes in therapy to training the target therapy techniques in connected speech.
Voice therapy is the standard-of-care for many of the nearly 140 million people in the United States who suffer from voice disorders,1 yet patients claim that current therapies are ineffective at meeting their voice needs.2 Published data by our research team indicate that patients think that transfer of target voice techniques to every day voice use (i.e. conversation) is the most difficult aspect of therapy,2 and that training techniques in conversation is the most useful aspect of voice therapy.2 Unfortunately, traditional voice therapy programs spend little, if any, time training voice techniques in conversation.3 This lack of functional specificity in voice therapy may contribute to the estimated 65% attrition rate.4 Even after some form of treatment, patients are still struggling with daily conversational voice use, and voice disorders continue to cause serious disability, stress and depression, which negatively affects social functioning and job performance.5 A new voice therapy program, Conversation Training Therapy (CTT), based on published patient reports on dissatisfaction with traditional therapy, was developed by the Investigators. It was honed with recommendations from expert clinical voice-specialized speech-language pathologists, and successfully piloted in a small case series of patients with voice problems. The investigators objective in this application is to test CTT in the rehabilitation of patients with voice disorders. The investigators hypothesize that, as demonstrated in the investigators preliminary case studies, these methods will result in early treatment success, and reduce the time required to reach therapeutic goals, thereby reducing costs associated with voice treatment.
The purpose of this prospective, crossover randomized study is to explore the efficacy of two music therapy protocols on pain, anxiety, and muscle tension levels throughout the debridement process in individuals hospitalized with moderate to severe burns.
Some voice disorders are caused by uncontrolled muscle actions that affect the larynx or voice box. The purpose of this study is to understand 1) how the brain controls voice production; 2) how changes in sensation within the voice box affect brain control of the voice box; 3) how the central nervous system is affected when people have motor or sensory abnormalities that affect the voice box; and 4) whether patients with voice disorders differ from people without voice disorders in the way the brain controls the voice box. By better understanding these concepts, researchers hope to develop improved treatments for patients with voice disorders. Forty-five healthy adult volunteers and 90 patients with voice disorders will participate in this study. Participants must be between the ages of 20 and 70. The study will involve two visits to the Clinical Center. During the first visit, participants will undergo a medical history and physical exam. During the second visit, investigators will perform the following procedures on study participants: 1) look at the voice box with a nasolaryngoscope, a fine tube through the nose; 2) use MRI \[magnetic resonance imaging\] to record brain activity while participants use their voice to speak; 3) changing sensation in the voice box by dripping a topical anesthetic onto the vocal folds; and 4) using MRI to again record brain activity during speech immediately after applying the topical anesthetic. Participants will receive up to $700 in compensation for their involvement in this study.
This study will examine how dextromethorphan, a drug that alters reflexes of the larynx (voice box), might change voice symptoms in people with voice disorders due to uncontrolled laryngeal muscle spasms. These include abductor spasmodic dysphonia (breathy voice breaks), adductor spasmodic dysphonia (vowel breaks), muscular tension dysphonia (tight strained voice), and vocal tremor (tremulous voice). Dextromethorphan-one of a group of drugs called NMDA antagonists-has been used for years in over-the-counter cough suppressant medicines. In animal studies, the drug has blocked one of the reflexes in the larynx that may be associated with spasms in the laryngeal muscles. This study will compare the effects of dextromethorphan, lorazepam (a valium-type drug), and a placebo (inactive substance) in patients with the four types of voice disorders described above. Patients with spasmodic dysphonia, muscular tension dysphonia and vocal tremor may be eligible for this study. Individuals who smoke or use tobacco, who have vocal nodules or polyps, or who have a history of airway obstruction may not participate. Candidates will be screened with a medical history and physical examination, a questionnaire, voice recording (repeating sentences into a microphone), and nasolaryngoscopy (examination of the larynx with a tube advanced through the nose). For the nasolaryngoscopy, the inside of the nose is sprayed with a decongestant (to open the nasal passages) and possibly a local anesthetic. A small, flexible tube called a nasolaryngoscope is passed through the nose to look at the larynx during speech and other tasks, such as singing, whistling and prolonged vowels. Participants will be admitted to the NIH Clinical Center for each of three visits, which will last from the afternoon of one day to late afternoon of the following day. At each visit, patients will complete a questionnaire, baseline speech recording, and a test for sedation level. They will take three pills-either dextromethorphan, lorazepam, or placebo-one every 6 hours. Vital signs will be checked every 6 hours and the level of sedation during waking hours will be monitored. One to three hours after taking the third pill, speech recording, questionnaire and test of sedation will be repeated to check for possible voice changes. Patients will be given a different pill at each visit. ...
The purpose of this study is to determine if osteopathic manipulative treatment (OMT) is effective for persons with emphysema as a component of their chronic obstructive pulmonary disease.
This research study is designed to improve understanding about voice disorders that are due to uncontrolled muscle contractions affecting the voice box. The type of voice disorder depends on which muscles of the voice box are involved. Abductor spasmodic dysphonia may lead to a weak voice. Adductor spasmodic dysphonia may result in a strangled voice. Muscular tension dysphonia may lead to a strained voice. Some of the major goals of the study are to; 1. understand how sensation from the voice box affects voice and speech production 2. develop better ways to diagnose sensation abnormalities affecting the voice box 3. determine if patients with voice disorders differ from persons without voice disorders in the way they respond to sensory information from their voice box Researchers believe that by understanding better how sensations of the voice box are presented and how the muscles in the larynx respond to those sensations they will be able to develop better treatments for patients suffering from voice disorders. ...
The purpose of this study is to determine the effectiveness of treatments (massage therapy or ultrasound) directed at skeletal muscle for alleviating pain associated wtih tension headache.
Pelvic floor tension myalgia (PFTM) is increasingly noted in patients with chronic pelvic pain. Pelvic floor physical therapy is typically utilized and is at times combined with other therapies such as botox injections, trigger point injections or pudendal blocks. The investigators' study will randomize newly diagnosed patients with PFTM to weekly . Final patient assessment will be performed at 6 months to assess durability of response. Primary hypothesis: The addition of pudendal blocks to standard pelvic floor physical therapy will result in lower pain and pelvic floor muscle tension scores, lower baseline vaginal pressure and increase pelvic floor strength. Secondary hypothesis: The addition of pudendal blocks to standard pelvic floor physical therapy will result in a lower pain score in a shorter time frame, resulting in faster progress through physical therapy.
Patient Power is a patient research network and database (registry) to collect prospective information about demographics, self-reported diagnoses and medications, and willingness to participate in research from participants with rheumatoid arthritis (RA), spondyloarthritis (SpA), other musculoskeletal conditions, chronic neurological conditions like migraine, chronic pulmonary conditions like Chronic Obstructive Pulmonary Disease (COPD), asthma, autoimmune dermatological conditions such as psoriasis, and other chronic inflammatory or immune-mediated conditions. In addition, since patients with chronic conditions often have other co-morbidities like cardiovascular health and obesity-related metabolic disorders, these conditions will also be included. Participants will provide information from their smartphones or personal computers. The information will be used by researchers and clinicians to help patients and their providers make better, more informed decisions about treatment of chronic conditions.