Embryologically, the cleft may affect the primary or/and secondary palate.

Anatomically, the cleft is defined according to the involvement of the hard and soft palate.

The hard palate is the bony palate, and surgical anatomy involves

Soft palate is the mobile part of the palate, and surgical anatomy involves

The Veau classification provides a clinically useful description of the cleft type according to the involvement of the alveolus, the hard palate, and the soft palate. It guides selection of the surgical treatment.

The etiology of cleft palate is multifactorial: environment, teratogen exposure (alcohol, anticonvulsants, steroids, diazepam), nutrition, maternal infections (rubella, toxoplasmosis), and genetics.

Cleft palate repair restores anatomical closure between the oral and nasal cavities.

An unrepaired cleft palate may result in impaired:

Orofacial clefting is the most common craniofacial birth defect, occurring in 1:750 live births.

In the population of children with cleft lip and/or cleft palate (CL+/-P), approximately 50% will have CLP, 30% to 35% CP, and 15% to 20% CL.

Approximately 40% of CP patients will have a syndrome, and 15% of CLP will have a syndrome.

The diagnosis of a cleft palate is made by prenatal ultrasonography or by physical examination at birth and in early infancy. A detailed assessment is made of the child’s breathing, feeding, growth, and development.

Airway assessment must exclude presence of sleep apnea and micro-/retrognathia.

Assessment of growth and weight is key to identify and monitor feeding difficulty, gastroesophageal reflux, and use of feeding aids (Haberman/Pigeon teat).

Hearing and middle ear function must be assessed and treated early by an otolaryngologist.

The plastic surgeon should define the cleft palate type according to the anatomic structures involved, the laterality, width of the palate, and presence/absence of a cleft lip.

Also, the child should be assessed for associated anomalies suggestive of a syndrome: craniofacial dysmorphism, airway compromise, cardiac defects, ocular and auricular abnormalities, and musculoskeletal anomalies. A genetics referral is suggested if suspicious of syndromic cleft palate.¹

It is very uncommon not to repair a cleft palate.

If the child is unable to undergo surgical treatment secondary to airway concerns or medical fitness, a palatal obturator may be considered.

Cleft palate repair is ideally performed between 9 and 12 months of age,² with the infant weighing greater than 8 kg.

Airway and middle ear disease assessment is performed and treated prior to or simultaneously with cleft palate repair.

Risks of the procedure are hemorrhage/hematoma, airway compromise, wound dehiscence, infection, oronasal fistula, flap necrosis, velopharyngeal insufficiency, and reduced midfacial growth.

The main objectives of the cleft palate repair are as follows:

The main steps of the procedure are (a) marking and elevation of mucoperiosteal flaps off the hard palate; (b) isolation and lengthening of pedicles (greater palatine artery) for mobilization of the oral mucoperiosteal flaps; (c) dissection and separation of the nasal mucosa, velar musculature, and oral mucosa; (d) tension-free closure of nasal mucosal layer; (e) reconstruction of the velopharyngeal sphincter with repositioning of the levator sling; (f) recreation of the uvula; and (g) closure of the oral mucosal layer.