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Orthodontic Pain clinical trials

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NCT ID: NCT04836234 Recruiting - Orthodontic Pain Clinical Trials

Chewing Gum Effect in Reducing Orthodontic Pain After Separator and Initial Arch Wire Placement

Start date: March 6, 2019
Phase: N/A
Study type: Interventional

Pain is the most claimed complaint from orthodontic treatment. Fear of pain has contributed to patients' avoidance of seeking orthodontic treatment, affects patients' compliance to treatment and even becomes the main reason for discontinuing orthodontic treatment. For years, orthodontic patients have reported using analgesics during orthodontic treatment to ease the pain. However, analgesics have many side effects such as allergic reactions, bleeding disorders, gastric ulcers, liver toxicity and their potential influence in slowing down tooth movement. This study aimed to investigate the effectiveness of chewing gums in pain reduction in Malaysian multi-ethnic orthodontic patients and to explore the possibility of chewing gum to be recommended as a suitable substitute for analgesics in our future practice.

NCT ID: NCT04834466 Recruiting - Pain Clinical Trials

Factors Associated With Pain Level Experience in Orthodontic Treatment

Start date: February 4, 2021
Phase:
Study type: Observational

Orthodontic pain has been the primary concern from all patients who requires orthodontic treatment. The design of the study will help us comprehend how patient experienced and managed pain during their orthodontic treatment, average pain level in different orthodontic appliances and factors that could affect pain level experience during treatment, including gender, age, brackets types, hygiene level and habitude.

NCT ID: NCT03816943 Recruiting - Orthodontic Pain Clinical Trials

The Influence of Communication After Placement of Orthodontic Fixed Appliances on Pain, Anxiety and Oral Health Quality of Life Among Malaysian Population

Start date: May 16, 2018
Phase: N/A
Study type: Interventional

Assessing the influence of a telephone call or Whatsapp instant text message post bond up of fixed appliances on Pain Visual Analogue Scores, State-Trait Anxiety and Oral Health Quality of Life

NCT ID: NCT03755622 Recruiting - Orthodontic Pain Clinical Trials

Comparing Clinical Application of Innovatedly Made Transpalatal Arch (TPA) From 3D Reconstructed Model and Conventionally Made TPA

Start date: June 11, 2017
Phase: N/A
Study type: Interventional

Trans-palatal Arch or TPA is an intra oral device that is occasionally used in conjunction of orthodontic fixed appliance treatment. It has two main types, the fixed or removable TPA. The purpose of this appliance is to maintain upper jaw's arch width and preventing upper molar teeth from moving forward. It holds the upper molar teeth in their original position so that if any upper teeth are extracted to make room for the others to straighten, the upper molars will not move into the extraction spaces. It comprises of a stainless steel wire with a central semi loop that fits comfortably across but not touching the palate. On each side, it is attached with metal bands around each of the two upper molar teeth. The construction of TPA requires at least three appointments that take up one to three weeks time. Firstly, an elastic "doughnut" like rubbery separators will be placed between the upper molar teeth using a special tool. Slight tightness is usually felt when the separators are inserted. The whole procedure takes less than a couple of minutes. Patients will be sent away for up to 14 days with the separators in place. For the second appointment, the separators will be removed with dental probe. The correct size metal bands are then selected for the upper molar teeth. Once a correctly fitting band has been chosen, an impression (mould) of the upper teeth with the bands in place will be taken. The impression, together with the bands will be sent to the laboratory for construction of the TPA. Separators will be placed again until patients come back to have TPA fitted. If the mould of the teeth is scanned and printed out using three dimensions (3D) technology, the number of appointments could be reduced. The second appointment which requires molar bands selection, impression and replacement of separators of upper teeth could be skipped. Molar bands selection can be carried out outside the mouth and straight away sent to the laboratory for TPA construction. All parties involved, patients, clinicians and dental technologists will benefit the innovation by reduction of time spent for TPA related procedure. However, the study that compares innovated TPA from 3D reconstructed models and conventional method has never been done and related similar studies are very scarce.