18 Clinical Trials for Various Conditions
Intranasal nasal steroid sprays are the mainstay of treatment for chronic Eustachian tube dysfunction despite having little supportive evidence in the literature. A novel, commercially available nasal spray delivery system is available now for fluticasone that improves its delivery to the nasopharynx. The hypothesis of this study is that fluticasone using the novel spray system is effective for Eustachian tube dysfunction (ETD).
This study aims to test the safety, efficacy and potential mechanism of action of the SinuSonic device on adults with eustachian tube dysfunction (ETD) or facial pain/pressure. SinuSonic is a medical device that utilizes sound and pressure combined with normal breathing. The study will have 3 aims. Aim 1 will examine healthy controls with no signs of upper respiratory infection, inflammation, or ETD to determine if exhaled nasal Nitric Oxide is increased. Nitric Oxide is a compound in the body that acts as a blood vessel relaxant. Acoustic energy (humming) has been shown to increase nasal Nitric Oxide dramatically, thus equalization of gas pressures between the middle ear, the paranasal sinuses and the nasal cavity may very well explain any efficacy noted. Aim 2 will be performed to examine therapeutic efficacy for ETD. Aim 3 will be performed to examine therapeutic efficacy for sinus pain/pressure.
The purpose of this study is to investigate the relationship between ear fullness, pressure, and/or pain and laryngopharyngeal reflux, in order to focus medical therapy and improve therapeutic outcomes in this patient population.
This study evaluates the usefulness and safety of using a balloon to dilate (make larger) the Eustachian tube in adults who have middle-ear disease due to Eustachian tube dysfunction.
The aim of this study is to determine which of the many Eustachian tube function tests (or combination of tests) is most helpful in finding out what is causing ear problems in children and adult patients with middle-ear diseases thought to be due to poor Eustachian tube function. The Eustachian tube is a biological tube that connects the middle ear to the back of the nose and throat. When the Eustachian tube works normally, it opens and closes to help keep the pressure in the middle ear the same as room air-pressure (atmospheric pressure). When the Eustachian tube does not work well, the pressure in the middle ear can increase or decrease and feel like a blocked ear or cause ear pain. Poor Eustachian tube function can be associated with distressing middle-ear symptoms, predispose to middle-ear problems under conditions of rapidly changing air pressures such as occur during airflight and diving, and cause certain middle-ear diseases such as otitis media with effusion. It is also known that the results for the most commonly used Eustachian tube function tests in adults and children with various middle-ear diseases are poorer when compared to children and adults without middle-ear diseases. However, knowing that there is a difference in test results between groups with and without disease does not mean that any of those tests provide information useful in the management of individual patients with diseases due to Eustachian tube function. To be useful clinically, a test(s) that can accurately identify patients with a level of poor Eustachian tube function sufficient to cause middle-ear symptoms and signs and/or cause middle-ear disease is needed. To be very useful, tests should be able to diagnose the cause of any observed Eustachian tube problem so that treatment for that problem could be begun. The investigators would also want tests that could predict whether or not the ear disease will resolve with (or without) treatment and whether or not certain surgical procedures for middle-ear problems will be successful. Here, a number of Eustachian tube function tests are being used to diagnose and characterize the cause of Eustachian tube dysfunction in children and adults presenting to the research clinic with suspected poor Eustachian tube function and/or a recent history of middle-ear disease that can be caused by poor Eustachian tube function. After the testing, medical records will be periodically reviewed for 2 years and study participants will be contacted by phone to obtain information on their middle-ear disease, the response of the disease to any treatments and the success/failure of any surgical procedures used to fix middle-ear problems. Because this study focuses on evaluating the potential usefulness of Eustachian tube function testing for the diagnosis of Eustachian tube dysfunction and, if present, its cause, no specific treatments or surgical interventions are included in this study or recommended by the investigators. These decisions are left to the subject-patient in consultation with their doctor. To further evaluate the Eustachian function tests, a control group of healthy adults without a history of middle-ear problems will undergo testing at two separate sessions; these subjects will have no further follow-up.
The purpose of this study is to evaluate the benefit of treatment of refractory Eustachian tube dysfunction with standard treatment for endolymphatic hydrops. Eustachian tube dysfunction is a common diagnosis made in otolaryngology related to abnormal pressure equalization of the middle ear space related to a swollen, inflamed, or occluded Eustachian tube. The symptoms of this include perceived hearing loss, a feeling of fullness in the affected ear/ears, ear pain, ear popping, and occasionally imbalance. These symptoms overlap with a more rare and difficult to diagnose condition known as endolymphatic hydrops, or an overproduction to fluid in the inner ear. The treatment for these two conditions are distinct and traditionally, patients are treated for Eustachian tube dysfunction first as it is much more common and there are several treatments, namely nasal steroids, antihistamines, and pressure equalization tubes. For patients who do not improve with these treatments, they are often treated with diuretics and a low salt diet to treat for supposed endolymphatic hydrops. There has never been a study to investigate the utility of these treatments in patients with refractory Eustachian tube dysfunction. There is also reason to believe that chronic ETD with effusion can lead to both inner and middle ear dysfunction. Thus, this study aims to determine the benefit of standard endolymphatic hydrops treatment on patient with refractory Eustachian tube dysfunction symptoms in a prospective fashion. Hypothesis: Patients with refractory Eustachian tube dysfunction (patients with no or minimal symptom improvement despite nasal steroid and antihistamine treatment followed by myringotomy tube placement) have an element of endolymphatic hydrops and these patient's symptoms will improve with a low sodium diet and diuretic.
This study is designed to measure the effects of a chewable Simethicone tablet taken by mouth on middle-ear pressure in adults with a common cold and evidence of abnormal middle-ear pressure. In children and adults, middle-ear diseases such as otitis media (the buildup of fluid within the middle ear) and a form of temporary hearing loss occur if the Eustachian tube does not open, does not open often enough or is always open. Simethicone, available over-the-counter under several brand names including Gas-X, may help break up the bubbles that may block the opening of the Eustachian tube in the back of the nose during a cold, allowing air to pass between the nose and middle ear. This study requires a single visit to the Middle Ear Physiology Laboratory in the Oakland section of Pittsburgh. If eligible for the study, Eustachian tube function testing will be done; the Simethicone tablet or placebo (a tablet that looks and tastes like the Simethicone tablet but has no active ingredient) will be given and Eustachian tube function testing repeated.
This research study measures how well the Eustachian tube works and looks directly at the anatomy of the Eustachian tube in adults who have had tympanostomy tubes surgically inserted into their eardrums because they have been diagnosed as having either "otitis media" or "poor Eustachian tube function". The Eustachian tube is a biologic tube that connects the back of the nose to the middle ear (the airspace located behind your eardrum). That tube is usually closed, but can be opened by swallowing and other activities. Periodic openings of the Eustachian tube allow air to flow between the nose and middle ear which keeps the pressure of gas in the middle ear at the same level as that of the atmosphere, a condition required for good hearing. In children and adults, middle-ear diseases such as otitis media with effusion (the buildup of fluid within the middle ear) and a form of temporary hearing loss (conductive hearing loss) occur if the Eustachian tube does not open, does not open frequently enough or is always open (called a patulous Eustachian tube). A diagnosis of these different conditions can be made using standard, clinical tests of Eustachian tube function and the Eustachian tube can be visualized where it enters the back of the nose using a specialized telescope called an endoscope. Some scientific reports suggest that the cause of poor Eustachian tube function in an individual can be determined by studying the anatomy of the Eustachian tube at the back of the nose and the movements of the Eustachian tube in that area during swallowing, talking and other activities using an endoscope. In this study, the investigators plan to explore the relationship between the results of the standard Eustachian tube function tests and those for the anatomy and function of the Eustachian tube in adults with a disease condition likely to be caused by poor Eustachian tube function. Also, there are a number other disease conditions (examples: nasal allergy, acid reflux disease) that are related to poor Eustachian tube function and it is possible that these conditions and their effect on Eustachian tube function can be treated with medicines. Therefore, the investigators also plan to evaluate enrolled persons for those conditions. It is expected that if the results of the standard Eustachian tube function tests can be explained by the anatomy of the back of the nose and Eustachian tube, the functional anatomy (movements during swallowing etc) of the Eustachian tube or the presence of allergy and or/acid reflux disease, new medical and/or surgical treatments can be developed to improve Eustachian tube function and "cure" or treat the associated middle-ear diseases.
We hypothesize that intranasal steroid application will have a beneficial therapeutic effect in adults with regard to resolution of serous otitis media and/or negative middle ear pressure, as compared to placebo. We further hypothesize that the rate of spontaneous short-term resolution of otitis media wit effusion in adults treated with placebo will be relatively low (minority of patients).
Eustachian tube dysfunction (ETD) and middle ear barotrauma (MEB) are common reported complications during hyperbaric oxygen treatment. The Phase I study data was the first to demonstrate a statistically significant decrease in the occurrence of symptomatic ETD and middle ear barotrauma (MEB). The Phase I Trial suggested the total time interval and rate (slope) of compression (ROC) may be a determining factor in ETD and MEB. This Phase II study investigates an optimal total time interval and rate of compression to reduce ETD and MEB when considering each multiplace treatment (with multiple patients) as the unit of observation collectively as a group, rather than for each individual patient. Data will be collected prospectively on group patient-treatment exposures. The investigators randomly assigned patient-treatment group exposures to four different time interval and rate (slope) of compression. These total time intervals of compression and rates (slopes) of compression are identical to those used in the Phase I trial. All patients experiencing symptoms of ETD and MEB requiring compression stops will be evaluated post treatment to confirm the presence of ETD and MEB using the O'Neill Grading System (OGS). Data will be analyzed using the IBM-SPSS statistical software program. The number of compression holds observed in each of the 4 compression schedules, similar to ther Phase I trial will be recorded. Patients who are symptomatic and require compression stops (as in the Phase I trial) using a United States Navy Treatment Table 9 (USN-TTN9) during elective hyperbaric oxygen treatments in a Class A multiplace hyperbaric chamber will be analyzed. Analysis using descriptive and inferential statistics will be applied to the patients requiring first stops in the 4 compression profiles. This Phase II study increases the sample size of treatments and they will be combined with the total number of treatments used in the original phase I study. This will increase power to facilitate detailed descriptive analysis and to determine if the findings are robust in the phase I study.
A prospective, multicenter, registry of patients undergoing balloon dilation of the Eustachian tubes (ET).
The Eustachian tube (ET) is a biological tube that links the middle ear to the back of the nose and throat. It has several functions, of which the most important is to maintain optimal middle-ear health. Eustachian tube dysfunction (ETD) can result in pain or a popping sensation in the ears when flying in an airplane or going up a tall building in an elevator. Many people with ETD also suffer from ear problems such as repeated middle-ear infections or fluid in the ears. However, there are very few easily-administered tests to measure and assess Eustachian tube function (ETF). Tubomanometry is one of these tests, however it is expensive and used to measure ETF only in research settings. In this study, the investigators propose that using a combination of two readily available devices, the EarPopper and a tympanometer, will work in a manner similar to a Tubomanometer to test ET function.
Study to assess the safety and efficacy of the XprESS device for transnasal Eustachian tube dilation.
The objective of this study is to determine whether Eustachian tube dilation in conjunction with medical management or medical management alone is effective for treating Eustachian tube dysfunction.
Eustachian tube dysfunction (ETD) and middle ear barotrauma (MEB) are common reported complications during hyperbaric oxygen treatment. The Phase I study data was the first to demonstrate a statistically significant decrease in the occurrence of symptomatic ETD and middle ear barotrauma (MEB). The Phase I Trial suggested the total time interval and rate (slope) of compression (ROC) may be a determining factor in ETD and MEB. This Phase II study investigates an optimal total time interval and rate of compression to reduce ETD and MEB when considering each multiplace treatment (with multiple patients) as the unit of observation collectively as a group, rather than for each individual patient. Data will be collected prospectively on group patient-treatment exposures. Our investigators randomly assign patient-treatment group exposures to two different rates (slopes) of compression. These are limited to the linear versus the non-linear rates (slopes) of compression identical to two of four compression profiles used in the Phase I and Phase II trials. All patients experiencing symptoms of ETD and MEB requiring compression stops will be evaluated post treatment to confirm the presence of ETD and MEB using the O'Neill Grading System (OGS). Data will be analyzed using the IBM-SPSS statistical software program. The number of compression holds observed in each of the compression schedules/compression profiles using an identical 15-minute total time interval of compression but varying in the rate (slope) of compression will be recorded as in the Phase I and II studies. Symptomatic patients who required compression stops (as in the Phase I trial) using a USN TT 9 during elective hyperbaric oxygen treatments in a Class A multiplace hyperbaric chamber will be compared. Statistical analysis using descriptive and Inferential statistics will be applied to the patients requiring first stops in the compression profiles. This will be used to further evaluate the data restricted to the rate of compression (linear vs. non-linear) and whether this is associated with the number of compression holds. The 15-minute total time interval of compression will be identical in both compression profiles studied since this was found to be the total time interval of compression with the least number of treatment stops/holds in the phase I and phase II studies.
A prospective, multicenter study to evaluate effectiveness and safety of Tymbion iontophoresis and tympanostomy tube placement using the Tula iontophoresis and tube delivery systems for adults in an office setting. This study cohort is called Group B and includes tube placement. Protocol CPR007003 also included a first study group ('A', without tube placement) that was completed and described in a separate registration (NCT03119181).
Elevation of the soft palate (the soft part of the roof of the mouth) during swallowing helps the Eustachian tube to open and keep the ear healthy. (The Eustachian tube is the normal tube running from the middle ear to the back of the nose and throat). When the soft palate does not move enough (due to a history of cleft palate or for unknown reasons), this can lead to speech problems. Also, because the Eustachian tube is not opening enough, fluid can accumulate in the middle ear, which requires treatment with ear tubes. The goal of this research study is to determine if soft palate exercises will help improve the ability of the soft palate to close the area between the throat and nose, like it is supposed to during speech and swallowing, and if this improves Eustachian tube opening.
This study is an investigation into the effect that CPAP has on the pressure in the middle ear. It will evaluate the middle ear pressure and ear drum appearance at multiple levels of CPAP pressure delivered via a full face mask. These measurements will be used to determine optimal levels of CPAP to affect individual's middle ear pressure, particularly those with negative middle ear pressure due to Eustachian tube dysfunction.