Objective To investigate the application and curative effect ofnasoalveolar molding plate in the presurgical orthodontic treatment of completeunilateral cleft lip and palate in infants. Methods From January 2003 to March 2004, 100 infants with complete unilateral cleft lip and palate received presurgical orthopedics by using nasoalveolar molding plate. According to the age, 100 infants(aging 10 days to 3 months, including 60 males and 40 females) were divided into the test group (10 days to 1 month) and the control group (1.3 months). The widths of lip cleft and dentoalveolar cleft and the rate of satisfaction for nose wing were compared between 2 groups before treatment and after the treatment.Results The widths of cleft lip and dentoalveolar cleft before orthodontic (5.0±1.6 mm,6.9±2.6 mm) and after orthodontics (4.1±2.7 mm, 6.4±29 mm)in the test group were less than those in the controlgroup(7.5±3.1 mm, 12.5±4.0 mm and 8.3±3.0 mm,10.8±2.6 mm), being statistically different(Plt;0.05). The satisfactory rate of nose wing inthe test group (86.3%) was significantly higher than that in the control group(62.4%,Plt;0.05). Conclusion The advantagesof presurgical orthodontic treatment of complete unilateral cleft lip and palate in infants are as follows: repositioning the premaxillary segment, reducing the width of palate cleft, correcting the nasal deformities and facilitating surgical repair of cleft lip and palate.
The cleft lip and palate (CLP) is one of the most common craniofacial malformations in humans. We collected functional magnetic resonance data of 23 CLP patients before rehabilitation training (Bclp) and 23 CLP patients after rehabilitation training (Aclp), who were performing Chinese character pronunciation tasks, and performed brain activation analysis to explore the changes of brain mechanism in CLP patients after articulation disorder rehabilitation training. The study found that Aclp group had significant activation in the motor cortex, Broca area, Wernicke area and cerebellum. While the Bclp group had weak activation in the motor cortex with a small activation range. By comparing the differences and co-activated brain regions between the two groups, we found that rehabilitation training increased the activity level of negatively activated brain areas (cerebellum, left motor area, Wernicke area, etc.) to a positive level. At the same time, the activity level of weakly activated brain areas (right motor area, Broca area, etc.) was also increased. Rehabilitation training promoted the activity level of articulation-related brain regions. So that the activation intensity of articulation-related brain regions can be used as a quantifiable objective evaluation index to evaluate the effect of rehabilitation training, which is of great significance for the formulation of rehabilitation training programs.