Facial balance in cleft lip and palate. I. Normal development and cleft palate

Three-dimensional Analysis of Maxillary Morphology in Infants with Unilateral Cleft Lip and Palate

OBJECTIVE

To three-dimensionally (3D) analyze the maxillary morphology of infants with unilateral cleft lip and palate (UCLP) and preliminarily classify the alveolar arch to assist in personalization of sequence therapy.

DESIGN

Retrospective study.

SETTING

Patients with UCLP referred to outpatients' clinic.

PARTICIPANTS

84 nonsyndromic infants with complete UCLP were recruited (58 boys, 26 girls, mean age 29.48 days).

MAIN OUTCOME MEASURE

Morphometric analysis was conducted on 3D maxillary models. Principal component analysis (PCA) and cluster analysis were combined to classify maxillary phenotypes preliminarily. The Wilcoxon Signed Rank test and the Kruskal-Wallis test were used to compare differences between variables. A P value less than .05 was considered statistically significant.

RESULTS

The maxilla was divided into three types: narrow, homogenous and broad, accounting for 9.52%, 23.81% and 66.67% respectively. The alveolar cleft site (median value) was located in 61% of the total length of the alveolar arch. In the comparison of anterior and total alveolar lengths, the non-cleft side had longer alveolar bone than the affected side, a difference of approximately 2 mm. Pairwise comparisons of variables describing alveolar symmetry revealed significant differences in all subjects; whereas type C had poorer arch symmetry than types A and B, mainly in terms of anterior and overall symmetry.

CONCLUSIONS

In infants with UCLP, the maxillary alveolar arch was inherently asymmetrical with partially bone missing (about 2 mm). Significant differences in alveolar bone morphology and symmetry exist between different types of infants, with individuals with broad clefts (type C, the largest proportion) having the worst maxillary development.

Functional cleft palate surgery

Cleft lip and palate (CLP) as a dislocation malformation confronts parents with a malformation of their child that could not be more central and visible: the face. In addition to the stigmatizing appearance, however, in cases of a CLP, food intake, physiological breathing, speech and hearing are also affected. In this paper, the principles of morphofunctional surgical reconstruction of the cleft palate are presented. With the closure of the palate, and restoration of the anatomy, a situation is achieved enabling nasal respiration, normal or near normal speech without nasality, improved ventilation of the middle ear, normal oral functions with coordinated interaction of the tongue with the hard and soft palate important for the oral and pharyngeal phases of feeding. With the establishment of physiological function, in the early phases of the infant and toddler, these activities initiate essential growth stimulation, leading to normalisation of facial and cranial growth. If these functional considerations are disregarded during primary closure, lifelong impairment of one or more of the abovementioned processes often follows. In many cases, despite secondary surgery and revision, it might not be possible to correct and achieve the best possible outcomes, especially if critical stages of development and growth have been missed or there has been significant tissue loss due to resection of existing tissue while primary surgery. This paper describes functional surgical methods and reviews long term, over many decades, results of children with cleft palate.

Anthropometric and Physiologic Parameters in Cleft Neonates: A Hospital-Based Study

The oro-facial morphology is greatly affected in neonates with a cleft lip and palate. The initial evaluation of neonate's body and maxillary arch dimensions is important for treatment planning and predicting growth in cleft patients. The objective of this study was comparative evaluation of the anthropometric and physiologic parameters of cleft and non-cleft neonates in a hospital-based set up. This cross sectional study was conducted on 88 cleft and non-cleft neonates (n = 44 in each group) aged between 0 and 30 days after obtaining approval from the institutional ethics committee and positive written informed consent from their parents. Neonates' body weight, body length, head length, head circumference, and maxillary arch dimensions were measured. Maxillary arch dimensions were measured on dental casts with digital sliding calipers. Statistical analyses performed using the independent t-test and one-way ANOVA analysis were followed by Bonferroni correction for post-hoc comparison. The results showed statistically significant differences in birth weight (p < 0.0001), head length (p < 0.01), head circumference (p < 0.007), and maxillary arch dimensions (p < 0.0001) between cleft and non-cleft neonates. These findings suggest that cleft neonates had significant anthropometric and physiologic variations than non-cleft neonates.

Mathematical modeling of palatal suture pattern formation: morphological differences between sagittal and palatal sutures

The median palatal suture serves as a growth center for the maxilla; inadequate growth at this site causes malocclusion and dental crowding. However, the pattern formation mechanism of palatal sutures is poorly understood compared with that of calvarial sutures such as the sagittal suture. In the present study, therefore, we compared the morphological characteristics of sagittal and palatal sutures in human bone specimens. We found that palatal suture width was narrower than sagittal suture width, and the interdigitation amplitude of the palatal suture was lower than that of the sagittal suture. These tendencies were also observed in the neonatal stage. However, such differences were not observed in other animals such as chimpanzees and mice. We also used a mathematical model to reproduce the differences between palatal and sagittal sutures. After an extensive parameter search, we found two conditions that could generate the difference in interdigitation amplitude and suture width: bone differentiation threshold [Formula: see text] and growth speed c. We discuss possible biological interpretations of the observed pattern difference and its cause.

Novel Three-Dimensional Coordinate System to Analyze Alveolar Molding Effects of Pre-Surgical Nasoalveolar Molding on Infants With Non-Syndromic Unilateral Cleft Lip and Palate

The aim of this study is to establish a stable 3-dimensional (3D) coordinate system for investigating the alveolar molding effects of pre-surgical nasoalveolar molding (PNAM) on non-syndromic unilateral cleft lip and palate (UCLP) patients, basing on the Frankfort Horizontal (FH) plane.Twenty-one non-syndromic UCLP neonates who sought medical advice in the department of Orthodontics, from 2016.5 to 2017.10 were enrolled in the present study. All neonates were subjected to PNAM before the cleft lip repair. The treatment duration was 75.76 days. Silicone rubber models were obtained and scanned using a 3D laser scanner pre- and post-PNAM treatment. A 3D coordinate system based on the FH reference plane was built utilizing Rhino3D software to record the landmark 3D coordinates, to measure the distance, angle, and length variables. The Paired Student's t test and the Pearson correlation coefficient were used to calculate reproducibility and reliability of the landmark localization for repeated measurements. Changes of the measurement variables were analyzed by the Paired Student's t test.This study revealed a high reproducibility and reliability for most of the landmarks. By the end of PNAM treatment, the cleft gap was reduced with the malformation of alveolar segments aligned normally and the anterior points of both alveolar segments were rotated to the cleft side.Utilizing the FH plane to set up a rigorous and stable 3D system is meaningful. PNAM therapy is effective in reducing the severity of the maxillary deformity not only on the non-cleft side, but also on the cleft side.

The Influence of the First-Stage DO Treatment of Palate Defect on Growth of Maxilla

To study the influence of distraction osteogenesis (DO) on the maxillary growth as first-stage treatment of palatal defect. The uniform palate defect experimental animal models (21 miniature pigs) were established surgically. Then animals were randomly divided into negative control group (A, n = 6), conventional surgery group (B, n = 6), and distraction osteogenesis group (C, n = 9) respectively. The group A underwent none treatment as control group, the group B were undergoing a conventional defect repair surgery, and the group C were undergoing a distraction osteogenesis treatment. Cone beam computed tomography examination was performed monthly to analyze the growth of maxilla for 6 months. One pig of group C was randomly sacrificed at 2, 4, and 8 weeks after the completion of DO and the tissue of distraction gap was stained with hematoxylin-eosin and Masson staining. At the end of 6th months, all pigs were sacrificed and tissues of the surgical area were stained as previous described. The palate defect was repaired by the distraction osteogenesis with the successful bone formation on the distraction gap. Group A and group C kept a similar growth rate, but that of group B was relatively slow. Distraction osteogenesis is efficient and successful for closing the defect of palate and there is no significant disturbance on the subsequent growth of the maxilla.

Intraoral Premaxillary Distraction in a Patient With Maxillary Retrognathic Cleft Lip and Palate: A Case Report

Patients with cleft lip and palate sometimes have a retruded maxilla. Here, we describe the case of a young man in whom crowding of the maxillary teeth and an anteroposterior discrepancy of the maxilla were resolved by premaxillary distraction osteogenesis (DO) using 3 individual intraoral distractors. Our experience in this patient confirms that premaxillary DO with 3 intraoral distractors and preoperative simulation can achieve stable maxillary advancement and arch expansion without impairing velopharyngeal incompetence.

Midfacial Changes Through Anterior Maxillary Distraction Osteogenesis in Patients With Cleft Lip and Palate

Maxillary hypoplasia is a major issue in cleft lip and palate patients, and predictable surgical maxillary advancement is required. In the present study, the changes and stability of the maxilla and soft tissue profile achieved after the application of anterior maxillary distraction osteogenesis (AMDO) using intraoral expander in unilateral cleft lip and palate and isolated cleft palate patients were investigated by comparing to the Le Fort I osteotomy (LFI) and maxillary distraction osteogenesis (DO) with rigid external distraction (RED) system.Ten patients who underwent orthognathic treatment with AMDO were examined (AMDO group). Changes in the positions of soft and hard tissue landmarks were calculated from the lateral cephalograms taken before the distraction, at the end of the distraction, and 1 year after the surgery. They were compared with the changes in 7 other unilateral cleft lip and palate patients who underwent LFI (LFI group) and 6 others who underwent DO with RED (RED group).The mean maxillary advancement of the AMDO group was similar to that of the RED group, judged by the change of point A. During DO, the AMDO group showed less clockwise rotation of mandible compared to the RED group. The soft tissue advancement of the upper lip and nose in the AMDO group was similar to that in the RED group, which was significantly larger than that in the LFI group.Our results indicate that AMDO can be surgical option to cleft lip and palate patients with less invasive but excellent improvement in both midfacial skeletal and soft tissue similar to DO-RED.

Short-term molding effects on the upper alveolar arch following unilateral cleft lip repair with/without nasal vestibular expansion

Objective : To elucidate the various effects on maxillary growth following different procedures for vestibular expansion at the time of primary lip repair for unilateral cleft lip and palate (UCLP). Participants : Thirty patients with complete UCLP who underwent primary lip repair using a triangular-flap technique with nasal vestibular expansion (NVE; the NVE group) and 30 patients who underwent the same lip repair with closure of the nasal floor (non-NVE group) were enrolled in this study. Interventions : Serial dental casts on lip and palatal repair were scanned with a laser scanner. The three-dimensional coordinates of seven anatomical landmarks and their growth changes, the curvature radius rate between major/minor segments, and the collapse rates were compared between the two groups. Results : At the time of lip repair, the incisal point was located slightly anteriorly in the non-NVE group. At the time of palatal repair, the cleft edge of the alveolar process in the minor segment was located significantly anteriorly and laterally in the NVE group, showing the significantly forward change of the minor segment. The minor segment collapsed in the non-NVE group. The collapse rate of the NVE group (3.3%) was significantly lower than that of the non-NVE group (40.0%). Conclusions : NVE following simultaneous advancement of nasolabial components on the affected side at the time of primary lip repair for UCLP facilitates the forward molding of the maxilla, resulting in a more symmetrical alveolar arch form.

Neuroembryology and functional anatomy of craniofacial clefts

The master plan of all vertebrate embryos is based on neuroanatomy. The embryo can be anatomically divided into discrete units called neuromeres so that each carries unique genetic traits. Embryonic neural crest cells arising from each neuromere induce development of nerves and concomitant arteries and support the development of specific craniofacial tissues or developmental fields. Fields are assembled upon each other in a programmed spatiotemporal order. Abnormalities in one field can affect the shape and position of developing adjacent fields. Craniofacial clefts represent states of excess or deficiency within and between specific developmental fields. The neuromeric organization of the embryo is the common denominator for understanding normal anatomy and pathology of the head and neck. Tessier's observational cleft classification system can be redefined using neuroanatomic embryology. Reassessment of Tessier's empiric observations demonstrates a more rational rearrangement of cleft zones, particularly near the midline. Neuromeric theory is also a means to understand and define other common craniofacial problems. Cleft palate, encephaloceles, craniosynostosis and cranial base defects may be analyzed in the same way.

Nasal, septal, and turbinate anatomy and embryology

This article discusses the development and anatomy of the nasal septum and structures of the lateral nasal wall. Emphasis is placed on anatomic variations associated with surgically correctable nasal obstruction. Common variations, such as deviated nasal septum, inferior turbinate hypertrophy, paradoxic middle turbinate, and concha bullosa, are discussed. Rare developmental causes of nasal obstruction are briefly outlined.

Sagittal growth of the facial skeleton of 6-year-old children with a complete unilateral cleft of lip, alveolus and palate treated with two different protocols

OBJECTIVE

The purpose of the study was to compare sagittal growth of the facial skeleton of 6-year-old children treated in two cleft centres with different surgical protocols.

MATERIAL AND METHODS

Each group consisted of 20 consecutive non-syndromic children with complete unilateral cleft lip, alveolus and palate. They all had presurgical orthopaedics with a passive plate and external strapping until lip repair. Centre 1 had lip repair at the age of 3 months and one stage palatal closure at the age of 1 year. Closure of the alveolar cleft was planned at 9 years with bone grafting. In centre 2 lip repair was performed at the age of 6 months, soft palate repair at 12 months and hard palate repair together with mucoperiosteal closure of the alveolar cleft at the age of 30 months. At the time of investigation, the children from both centres had not received any postoperative orthodontic treatment. Sagittal growth was evaluated on lateral cephalograms using the angles SNA, SNB, ANB and SNPg. For control, Droschl standards were used. The Mann-Whitney U test was used for statistical analysis.

RESULTS

There was no statistically significant difference in SNA, SNB, ANB and SNPg between the centres at the age of 6 years. There were no children with a class III jaw relationship. The sagittal dimensions were close to the values of non-cleft control persons (Droschl standards).

CONCLUSION

There was considerable similar sagittal growth of the facial skeleton in both centres which has not been affected by the different surgical protocols so far. A final evaluation should be delayed until the growth of the facial skeleton is complete.

Functional matrix cleft repair: principles and techniques

As an application of developmental anatomy, functional matrix cleft repair has scientific value. It tests out many aspects of periosteal physiology, and it is based squarely on concepts central to orthodontics. The "molecular revolution" has melded together developmental anatomy and genetics to create a new and clinically relevant model of facial development. This article outlines the scientific rationale for cleft repair based on this model.

Neural tube programming and craniofacial cleft formation. I. The neuromeric organization of the head and neck

This review presents a brief synopsis of neuromeric theory. Neuromeres are developmental units of the nervous system with specific anatomic content. Outlying each neuromere are tissues of ectoderm, mesoderm and endoderm that bear an anatomic relationship to the neuromere in three basic ways. This relationship is physical in that motor and sensory connections exist between a given neuromeric level and its target tissues. The relationship is also developmental because the target cells exit during gastrulation precisely at that same level. Finally the relationship is chemical because the genetic definition of a neuromere is shared with those tissues with which it interacts. The model developed by Puelles and Rubenstein is used to describe the neuroanatomy of the neuromeres. Although important details of the model are currently being refined it has immediate clinical relevance for practicing clinicians because it permits us to understand many pathologic states as relationships between the brain and the surrounding tissues. Relationships between the processes of neurulation and gastrulation have been presented to demonstrate the manner in which neuromeric anatomy is established in the embryo. We are now in a position to describe in detail the static anatomic structures that result from this system. The neuromeric 'map' of craniofacial bones, dermis, dura, muscles, and fascia will be the subject of the next part of this series.

Cytophotometrical and immunohistochemical analysis of soft palate muscles of children with isolated cleft palate and combined cleft lip and palate

Palatal muscle biopsies from the cleft margin of children were subjected to cytophotometrical and immunohistochemical analysis. Muscle fiber types were classified according to the enzyme activity of myofibrillic adenosine triphosphatase, glycerol-3-phosphate-dehydrogenase and succinate dehydrogenase assessed cytophotometrically. Fiber type-related immunoreactivity of nitric oxide synthase (NOS) isoforms I, II, III, as a physiological modulator of skeletal muscle function, was related to the oxidative and glycolytic activity of the muscle fibers. Fast oxidative glycolytic fibers with high oxidative activity showed strong NOS I immunoreactivity, whereas fast glycolytic fibers with high glycolytic activity were stronger immunolabelled for NOS III. NOS II expression was similar in all fiber types. No differences in NOS immunoreactivity were found between the two investigated forms of deformity. Additionally to the usual skeletal muscle fiber types, a slow tonic fiber type was for the first time identified in cleft palate muscles. Comparison of two forms of cleft palate, isolated cleft palate and combined cleft lip and palate has shown decreased enzyme activities in muscle fibers of palatal muscles from combined cleft lip and palate. Fast oxidative glycolytic fibers were mainly effected. Cytophotometrical and immunohistochemical analysis indicated a depressed performance of the cleft palatal muscles from combined cleft lip and palate as a stronger deformity compared with isolated cleft palate.

The functional anatomy of the muscles of facial expression in humans with and without cleft lip and palate. A contribution to refine muscle reconstruction in primary cheilo- and rhinoplasties in patients with uni- and bilateral complete CLP

The great variation of primary cheiloplasty procedures in Cleft Lip and Palate (CLP) patients shows that there is disagreement regarding the embryonic development of this part of the face, the macroscopic and microscopic functional anatomy of the human muscles of facial expression and their role as a functional matrix for balanced and harmonious facial development. The purpose of this study is to present results of microsurgically dissected facial muscles, several parts of the nose and the human midface in specimens with and without cleft lip and palate. The results are compared with those of other investigations. Recommendations are presented for a standardized dissection technique of the facial muscles of expression for different types of primary cheilo- and rhinoplasty techniques.

Unilateral cleft lip repair--state of the art

OBJECTIVE

A number of surgical techniques are utilized to correct the unilateral cleft lip, including variations of the rotation-advancement technique. This attests to the variability of the original deformity and the esthetic and functional results from any one technique, especially those based on traditional geometric rearrangement of the skin and associated tissues.

RESULTS

Most recent advances in cleft lip repair have occurred in two main areas. The morphological result has been improved by functional muscular reconstruction of the lip with or without orthopedic molding. Early correction of the nasal deformity has also been readvocated based on newer principles with excellent results demonstrated.

CONCLUSION

Further work continues in these areas and improved outcomes will continue to be seen along with a clearer understanding of surgical affects on growth and development.

Three-dimensional analysis of the child cleft face

OBJECTIVE

This study examined the facial surfaces of cleft children and unaffected children aged 8-11 years with the aim of identifying and assessing differences in their facial surface morphology. The investigation was carried out using an Optical Surface Scanner, an instrument that utilizes laser light to construct and archive a three-dimensional image of the face suitable for linear measurement and direct surface comparisons.

DESIGN, SETTING, AND PATIENTS

Thirty-nine cleft lip and palate (CLP) patients and 25 unaffected subjects were voluntarily recruited from two southeast England hospitals. A range of linear facial measurements was compared. Three-dimensional differences between the cleft subgroups and the control group were visualized by superimposition of averaged cleft scans over the averaged control group images.

RESULTS

Statistically significant dimensional differences (p < or = .05) in interocular width, nose base widths, mouth widths, and nose base/mouth width ratios were found between the cleft group and the control group. Qualitative differences over the whole of the face were readily demonstrated between the groups by superimposition. Face width and submandibular area depth differed consistently between the groups, the cleft face appearing narrower with a deeper submandibular area.

CONCLUSION

Significant differences exist between the facial surface morphology of CLP patients and control subjects.

Morphologic determinants in the etiology of class III malocclusions: a review

Morphospatial disharmony of the craniomaxillary and mandibular complexes may yield apparent mandibular prognathism, but Class III malocclusions can exist with any number of aberrations of the craniofacial complex. Deficient orthocephalization of the cranial base allied with a smaller anterior cranial base component has been implicated in the etiology of Class III malocclusions. Whereas the more acute cranial base angle may affect the articulation of the condyles resulting in their forward displacement, the reduction in anterior cranial size may affect the position of the maxilla. As well, intrinsic skeletal elements of the maxillary complex may be responsible for maxillary hypoplasia that may exacerbate the anterior crossbite seen in the Class III condition. Conversely, with an orthognathic maxilla, condylar hyperplasia and anterior positioning of the condyles at the temporo-mandibular joint may produce an anterior crossbite. Aside from the skeletal components, soft tissue matrices, particularly labial pressure from the circumoral musculature, may influence the final outcome of craniofacial growth of a child skeletally predisposed to Class III conditions. Indeed, as some Asian ethnic groups demonstrate an increased prevalence of Class III malocclusions, it is likely that the skeletal components and soft tissues matrices are genetically determined. Presumably, the co-morphologies of the craniomaxillary and mandibular complexes are likely dependent upon candidate genes that undergo gene-environmental interactions to yield Class III malocclusions. The identification of such genes is a desirable step in unraveling the complexity of Class III malocclusions. With this knowledge, the clinician may elect an early course of dentofacial orthopedic and orthodontic treatments aimed at preventing the development of Class III malocclusions.

Speech outcome in children with cleft palate: aerophonoscope assessment of nasal emission

The quality of speech is an important outcome measure of the success of primary surgery for clefts of the palate. A competent velopharyngeal mechanism is essential for normal speech, and disorders of resonance and nasal airflow are significant manifestations of velopharyngeal dysfunction in cleft palate subjects. The aim of this study was to determine the level of nasal emission during speech in patients with functionally repaired clefts of the palate and compare this with age and sex-matched controls. Forty-four children between the ages of 3 and 9 years were assessed for nasal emission using an Aerophonoscope. All these patients had primary functional surgery carried out at this unit by the same surgeon, and fell into three groups; complete bilateral, complete unilateral and soft palate clefts. Nasal breathing, blowing and groups of vowels and voiceless pressure consonants were assessed. There was no nasal emission in close to, or over, 90% of the patients for these parameters. The results indicate that a highly significant percentage of children with functionally repaired clefts of the palate have normal velopharyngeal function and speech, without inappropriate nasal emission. The Aerophonoscope provides an accurate, reliable and user-friendly diagnostic aid, and indeed therapeutic adjunct, to speech management in cleft palate patients.

The influence of the muscles of facial expression on the development of the midface and the nose in cleft lip and palate patients. A reflection of functional anatomy, facial esthetics and physiology of the nose

The further improvement of well-established techniques in primary and secondary cleft surgery requires a detailed and interdisciplinary knowledge and observation of anatomical, functional and developmental problems. An investigation into the macroscopic and microscopic anatomy of the perinasal and perioral muscles and parts of the human nasal septum, as well as into the pathomorphology of ancient skulls with untreated clefts is presented. On this basis an interpretation of clinical findings in untreated newborns compared with surgically treated CLP-patients has been undertaken. The 3D-CT, superimposing photography and coloured experimental settings of nasal airflow complete the visualisation of the anatomical and functional findings.

Mid-facial growth following functional cleft surgery

The stigmata of lip and palate clefting are well recognized, but recently it has been thought that these may be exacerbated by the surgical repair. Functional repair, however, with re-establishment of muscle continuity may result in less disruption to normal facial growth. This study examines mid-facial growth in 10 consecutive children aged 6.5 years with complete unilateral cleft lip and palate who had undergone functional repair. Outcomes were compared with non-cleft children and children who had undergone non-functional surgery.

Effect of primary surgery for cleft lip and palate on mid-facial growth

Surgery for cleft lip and palate is known to have an effect on growth and development of the mid-face. This paper studies the outcomes in 34 consecutive 10-year-old patients with unilateral cleft lip and palate. Clinical observations of the importance of both surgical technique and the influence of cranial base morphology on maxillo-mandibular position are discussed.

Primary closure of the cleft alveolus: a functional approach

The growth and development of the premaxilla in both normal and cleft lip and palate subjects is described and its relevance in surgery of the cleft alveolus discussed. Embryologically, the cleft alveolus results from failure of fusion of the median nasal and maxillary processes. Consequently, ossification centres in the premaxilla and maxilla cannot migrate and unite such that normal growth and development in the territory of the premaxillary-maxillary suture cannot occur. Functional repair of the cleft lip and soft palate encourages spontaneous alignment of the alveolar segments, facilitating the introduction of vascularized periosteum across the bony defect by gingivoperiosteoplasty. Early reconstruction in the region of the premaxillary-maxillary suture encourages a more normal development of the alveolus, particularly in the bilateral cleft subject.

Functional primary closure of cleft lip

A technique of primary closure of the cleft lip is described. It is based on a complete understanding of the anatomy of the entire facial musculature such that it can be restored to normality and so encourage normal function and development.

Facial balance in cleft lip and palate. II. Cleft lip and palate and secondary deformities

The cleft abnormality is the cause of underdevelopment and subsequent loss of function. Primary cleft surgery and surgery to correct the secondary deformities of previous non-functional repair should aim to restore normal anatomy and physiology, with an emphasis on muscle reconstruction of the lip and soft palate if normal facial development is to be encouraged.