Objective To study the method to prepare the animal model of goat cleft palate by injection of anabasine and the effect of the malformation on the development of the facial mid-part. Methods A total of 40 female boer hybrid goats were selected, aging 8-12 months and weighing 35-55 kg. The mating day was 0 day, and at 30 days the goats assured pregnant byB type ultrasonic test were divided into 4 groups (n=10) according to intramuscular injection of 10 (experimental group 1), 15 (experimental group 2), 20 (experimental group 3) mg/ d, and no injection (control group), respectively, from the 31st to 42nd day. At pregnant 120 days and 1 month after birth, 5 fetal goats of each group were used for three dimensional reconstruction ofskull with CT scan. The maxillary bone width named as PPMM and the maxillary bone length named as APMM were measured then the hard palate general observation was performed and dry skull of goats was harvested to observe the development of maxillary. Results After injection, all pregnant lambs aborted in experimental group 3; 2 pregnant lambs aborted and 8lambs maintained pregnancy in experimental group 2. At 120 days of pregnant, no cleft palate was observed in 5 fetal lambs of experimental group 1 and control group, respectively; cleft palate and maxillary dysplasia occurred in 3 fetal lambs of experimental group 2. Among 11 newborn lambs of experimental group 1 and 8 newborn lambs of control group, no cleft palate was observed;among 7 newborn lambs of experimental group 2, cleft palate occurred in 5 with obvious maxillary dysplasia and eating difficultly. General observation of hard palate and dry skull showed obvious hypoplasia of maxillary in experimental group 2. There were significant differences in PPMM and APMM between the experimental group 2 and the control group at pregnant 120 days and 1 month after birth (P lt; 0.05). Five lambs with cleft palates of experimental group 2 survived for 1-2 months. Conclusion The animal models of goat cleft palate can established by intramuscular injection of anabasine at a dose of 15 mg/d from the 31st to 42nd day of pregnant. The facial character of the induced cleft palate goat is similar to that of human cleft palate.
Objective To study the mid-facial development characteristics of the goats with cleft palate after in-utero surgical repair at different stages. Methods Twenty-four Boer hybrid female goats were selected, aged from 8 to 12 months and weighing from 35 to 55 kg. The mating day was designated for 0 day. At 30 days, pregnant was confirmed by B-ultrasound test, and the goats were divided into 5 groups (experimental groups 1, 2, 3, 4, and normal control group). Twenty pregnant goats of 4 experimental groups (n=5) were injected DL-anabasine (15 mg/day) from 31 to 42 days to establish cleft palate model of fetal lamb, 4 pregnant goats of normal control group used as controls without injection. At pregnant 65, 90, and 120 days, cleft palate was repaired in the uterus in experimental groups 1, 2, and 3, while cleft palate was not repaired in experimental group 4. After 1 month of birth, the maxillary bone width (posterior premolar morphological measurement, PPMM) and the maxillary bone length (anterior premolar morphological measurement, APMM) were measured with CT scanning. The dry skull of goats were harvested for gross observation. Results There was no significant difference in PPMM and APMM between experimental group 1 and the normal control group (P gt; 0.05), but there were significant differences between experimental groups 1 and 4 (P lt; 0.05) at 1 month after birth. Significant differences were oberved in PPMM and APMM between experimental group 2 and normal control group, experimental group 4 (P lt; 0.05). There were significant differences in PPMM between experimental group 3 and normal control group, experimental group 4 (P lt; 0.05), in APMM between experimental group 3 and normal control group (P lt; 0.05). Five goats with cleft palate in experimental group 4 died at 1-2 months after birth. Conclusion At pregnant 65 days, in-utero surgical repair of cleft palate has less influences on mid-facial development. The earlier repair is performed, the higher risk of miscarriage was.
Objective To investigate the effect of cleft palate on the development of the mid-part of the face so as to provide an optimum animal model for the fetal cleft repair. Methods Twenty female Boer hybrid goats were selected, aging from 8 to 12 months and weighing from 35 to 55 kg. The mating day was identified as 0 day of pregnancy. The goats werediagnosed with pregnancy by the B-ultrasound examination at 30 days, and were allocated into experimental group (n=14) and control group (n=6). In experimental group, uterine cavitory operation was performed at 65 days of pregnancy to form cleft palate which was a fissure between oral and nasal cavity; no treatment was given as the control group. At 120 days of pregnancy, and after 1 month and 3 months of birth, the gross observation and 3-dimensional skull CT reconstruction were performed; and the maxillary bone width named as PPMM and the maxillary bone length named as APMM were measured. Results After operation, 2 goats died of infection, miscarriage occurred in 3 goats; 9 goats were included into the experiment. The operation success rate was 64.3%. In experimental group, maxillary dysplasia occurred in all the fetal goats at 120 days of pregnancy, and more obvious maxillary dysplasia was observed at 1 month and 3 months after birth; no maxillary dysplasia occurred in control group. There were significant differences in PPMM and APMM between 2 groups at different time points (P lt; 0.05). In experimental group, the lambs had poor chewing function, and died of pulmonary infection after aspiration at 1-4 months after birth. Conclusion The surgical procedure for partial ablation of secondary primitive palate in the midl ine could make the model of cleft palate.
Objective To explore the feasibility of combining high level Le Fort Ⅰ osteotomy with bone grafting in the same operation for correction of secondary midface deformities in cleft patients. Methods From January 2002 to January 2005, 10 patients suffering from secondary midface deformities were treated. There were 4 males and 6 females, aged from 16 to 32 years. The unilateral cleft was involved in 8 patients and the bilateral cleft in2 patients. All patients received combining high level Le Fort Ⅰ osteotomy with bone grafting in the same operation. The horizontal corticotomy of high level Le Fort Ⅰosteotomy on anterior wall of maxillary bone is higher than that of traditionalLe Fort Ⅰ osteotomy, it is only 5 mm close to infraorbital foramen. Results All 10 patients were satisfied with their appearances after operation. Dental articulation was improved greatly in 9 patients. With an X-ray re-examination, maxillary was returned to normal position in all patients. After a follow up from 6months to 2 years, dental arch had good appearance. The X-ray films showed no obvious bone absorption. The density of grafting bone was approximation to the normal bone.Conclusion High level Le Fort Ⅰ osteotomy can make notonly maxillary advance, but also regions of lateral and floor of nose and partial infraorbital region advance. Combining with bone grafting in the same operation can decrease the frequency of operation, save the treatment expense and obtain an ideal effect. So it is an effective method for correction of the secondary midface deformities in cleft patients.
Objective To investigate the relationship between velopharyngeal functions and factors such as age at operation , cleft type, performing procedure.Methods FFT technique and velopharyngeal X-ray examination were used to evaluate the velopharyngeal functions of 82 patients. The relatively important factors affecting velopharyngeal functions were searched out through regression analyse and pearson correlation. Results A significant positive correlation was confirmed between AAO(age at operation) and A1/A2(velopharyngeal incompetence), Plt;0.001. AAO also showed linear regression with A1/A2. Model was significant, Plt;0.001. Quotation: A1/A2(velopharyngeal incompetence)=0.005 852×AAO+0.961. Conclusion AAOwas an important affecting factor on velopharyngeal functions. The earlier the cleft is repaired, the more normal velopharyngeal functions will be obtained.
ObjectiveTo explore the application value of Furlow palatoplasty in reconstruction of velopharyngeal insufficiency (VPI) after cleft palate surgery.MethodsBetween August 2015 and January 2017, 48 patients with VPI after cleft palate surgery were treated with Furlow palatoplasty. There were 29 males and 19 females, aged from 4 to 17 years (mean, 6.1 years). There were 16 cases of incomplete cleft palate and 32 cases of complete cleft palate; and 16 cases of soft cleft palate and 32 cases of soft and hard cleft palate. The interval between first cleft palate surgery and Furlow palatoplasty was 3 to 13 years (mean, 5.9 years). The patients were accompanied by significant open rhinolalia and nasal leakage. The degree of velopharyngeal closure assessed by electronic nasopharyngeal fiberoptic endoscopy was grade Ⅲ. The operation time and intraoperative blood loss were recorded. The total length of palate, the length of soft palate, the depth of pharyngeal cavity, and the width of pharynx and palate arch were measured before operation and at immediate after operation, and the change of the above indexes before and after operation was calculated. According to the results of clinical assessment, the patients were allocated into three groups: velopharyngeal competence (VPC) group, marginal velopharyngeal inadequacy (MVPI) group, and VPI group. The relationship between the soft palate and the posterior pharyngeal wall was evaluated by lateral cephalometric radiographs at 3 months after operation, and the patients were allocated into complete contact group, point contact group, and non-contact group. The velopharyngeal closure was evaluated by electronic nasopharyngeal fiberoptic endoscopy (grade Ⅰ, Ⅱ, Ⅲ). Spearman analysis was used to analyze the correlation between the changes of the total length of palate, the length of soft palate, the depth of pharyngeal cavity, and the width of pharynx and palate arch before and after operation. The contact degree of soft palate and posterior pharyngeal wall and the closure degree of pharynx and palate were grouped separately, and the above indexes were analyzed statistically.ResultsThe operation time was 35-64 minutes (mean, 41 minutes); the intraoperative blood loss was 3-10 mL (mean, 6 mL). All patients were followed up 3 months. After 3 months of operation, the clinical evaluation results were 34 cases of VPC, 7 cases of MVPI, and 7 cases of VPI. Lateral cephalometric radiographs showed that 30 cases had complete contact with the posterior pharyngeal wall, 11 cases had point contact, and 7 cases had no contact. Electronic nasopharyngeal fiberoptic endoscopy showed that the pharyngeal closure function was improved to varying degrees, 29 cases of grade Ⅰ, 12 cases of grade Ⅱ, and 7 cases of grade Ⅲ. There were significant differences in the total length of palate, the length of soft palate, the depth of pharyngeal cavity, and the width of pharynx and palate arch between pre- and post-operation (P<0.05). Spearman correlation analysis showed a correlation between the change in the total length of palate before and after operation and the change in the length of soft palate (r=0.448, P=0.001). There were significant differences in the changes of total length of palate, the length soft palate, and the depth of pharyngeal cavity before and after operation between VPC, MVPI, and VPI groups (P<0.05); and there was no significant difference in the change of the width of pharynx and palate arch before and after operation between groups (P>0.05). There were significant differences in the changes of total length of palate and the length soft palate before and after operation between complete contact, point contact, and non-contact groups (P<0.05); and there was no significant difference in the change of the depth of pharyngeal cavity and the width of pharynx and palate arch before and after operation between groups (P>0.05).ConclusionFurlow palatoplasty can restore the VPI after cleft palate surgery, which can effectively prolong the soft palate and reduce the depth of the pharynx. It can cover the physiological and anatomical morphology of velopharyngeal closure significantly and improve the velopharyngeal function.