View clinical trials related to Cleft Palate.
Filter by:This study will consist of patients ages 6-18 who are undergoing a surgery on the hard or soft palate of the mouth (palatoplasty), with removal of bone from the front of the hip (anterior iliac bone graft harvesting). The patients will be randomized to receive either a unilateral QL block by an anesthesiologist, or local anesthetic infiltration at the surgical incision by the surgeon. The primary aim will be assessing post-operative pain in the first 48 hours after surgery. Secondary outcomes will include pain medication use in the first 48 hours after surgery, block resolution time, and evaluating any complications associated with the QL block or local anesthetic infiltration.
Achieving speech that is understandable and acceptable to others is the key outcome in cleft treatment. Therefore, speech therapy provided by a speech-language pathologist is necessary. This intervention is traditionally provided twice per week for 30 minutes for months or even years by first-line speech-language pathologists. Unfortunately, this low intensity intervention is based on a historical context rather than scientific evidence. This means that current speech therapy knows several shortcomings including poor outcomes, treatment fatigue and high costs related to year-long therapy. Because of these issues, the use of high intensity speech intervention is proposed. Even though solid proof-of-concepts exist for this model, it has not yet found its way into clinical practice. Before this intensity can be implemented and utilized in clinical practice, the effect of this novel program on a larger societal scale must be determined. This project will compare the effect of high intensity and low intensity speech intervention in children with a cleft palate in terms of speech, quality of life, and cost-utility as provided by first-line speech-language pathologists by conducting a large-scale randomized controlled trial. The final goal is to utilize this program in clinical practice and to create awareness of the benefits for children with a cleft palate among stakeholders.
The aim of this study is to evaluate the efficacy of adding nalbuphine to bupivacaine via suprazygomatic nerve block for postoperative pain control and emergence agitation management in pediatrics aged from to 1 to 7 years who were maintained on sevoflurane inhalational anesthesia and scheduled for cleft lip and palate operation.
To compare the efficacy of the pre-operative nebulization of a combination of dexmedetomidine and ketamine versus nebulization of dexmedetomidine alone for sedation and prevention of emergence delirium in children undergoing cleft palate repair surgeries.
When the soft palate does not move enough because of a cleft palate or for unknown reasons, this can lead to a speech difference called velopharyngeal insufficiency. The purpose of this research study is to test if soft palate exercises using a hand help breathing device will help improve the ability of the soft palate to close the area between the throat and nose and help improve speech.
Since the appearance of presurgical infant orthopedic (PSIO) as a treatment for patients with cleft lip and palate ( CLP) , numerous techniques have been described with the aim of aligning the displaced alveolar segments and restoring the position of the lateral cartilage, thus improving the results of primary surgery. Currently, the most used technique in the different protocols is the nasoalveolar molding (NAM) described by Grayson, from which variants and modifications have emerged in order to improve its results and provide greater comfort for both the patient and their caregivers. However, the main drawback of traditional acrylic NAM is the need for sequential addition of acrylic to reduce the size of the indentation. These weekly adjustments consume time and resources for the caregiver and the orthodontist. Likewise, it has been observed that acrylic resin can cause inflammation, irritation and gingival ulceration due to excessive pressure. PSIO treatment in newborns is a complex procedure that could benefit from simplification through digitization, providing accuracy and precision, avoiding risks such as respiratory obstruction and cyanosis that can be produced by taking impressions with alginates or silicones, most of them needing to be performed under general anesthesia. Until now, infant care has been left out of such digitization, despite the fact that the majority of babies who need early orthodontic treatment often suffer from craniofacial disorders. However, in recent years numerous advances have been made in this type of treatment, both in taking records, and in the application of more physiological, lighter and constant forces, providing greater comfort, better acceptance and less pain for the patient . These changes represent a great advance applicable to patients with CLP.
To Assess effect of intelligence on speech production on subjects with velopharyngeal incompetence Search if there is any relation between congenital Velopharyngeal incompetence and decrease IQ of patients
The tooth-borne palatal expander has limitations in the subset of patients with scarred, constricted cleft palate. At times, although posterior expansion is successful, transverse expansion of the anterior palate (near the alveolar cleft) is inadequate. Will the application of bone borne palatal expander combined with a corticotomy be more effective in the expansion of the constricted maxilla in cleft palate patients?
Does the use of low level laser (LLL) after surgical correction of cleft palate improve healing and decrease incidence of oronasal fistula?
The velopharyngeal valve is a tridimensional muscular valve that is located between the oral and nasal cavities. It consists of the lateral and posterior pharyngeal walls as well as the soft palate. The role of the velopharyngeal valve is to separate the oral and nasal cavities during speech and swallowing.