Dental management of patients with X-linked hypophosphatemia

Hypophosphatemic vitamin D-resistant rickets is a metabolic disorder involving decreased levels of calcium and potassium phosphate due to the abnormal excretion of phosphate from the kidneys. It is the most common heritable form of rickets.1, 2 The various forms of hereditary hypophosphatemic rickets are distinguished by patterns of inheritance and the genetic cause, and autosomal dominant, autosomal recessive, and X-linked dominant forms have been identified.3 The X-linked dominant form is the most common.4

Untreated X-linked hypophosphatemia (XLH) is associated with growth retardation and skeletal deformities. The signs and symptoms of XLH include bowed legs due to the body load, immature skeletal bone calcification, elevated risk of bone fractures, enlargement of the costal cartilage, compression of the spinal cord (spinal stenosis), short stature, thickening of the wrists and ankles, beading of the ribs known as rachitic rosary, and thickening of the frontal and parietal bones, which produces frontal bossing that leads to a square-shaped head.5, 6

Dental alterations and delays in eruption are found in both the deciduous and permanent teeth of XLH patients. On radiographs, XLH is associated with osseous structure deformities, such as a thin bony trabecular pattern and the complete or partial absence of the lamina dura.7 The teeth show shortened roots, enlarged pulp chambers, and prominent pulp horns.8, 9 Histological examinations show slightly hypoplastic enamel morphology.10, 11 Large tubular clefts or lacunae extending up to the dentinoenamel junction are detected in histological studies of the dentin. Dentin mineralization is a process of growth and fusion of calcospherites. The lack of fusion of calcospherites in the circumpulpal dentin results in a large interglobular space filled with non-mineralized organic matrix in hypophosphatemic patients.2, 3, 10, 12, 13 Invasion of bacteria into the pulp is facilitated even in the absence of dentin matrix destruction, resulting in spontaneous dental abscesses. Periapical abscesses without caries or a history of traumatic injuries are considered a characteristic dental finding in XLH patients.2 This article describes the problems and limitations of dental treatment in XLH patients.

XLH is the most common heritable form of vitamin-D resistant rickets. XLH is a disorder of the kidney, in which renal defects lead to reduced phosphate reabsorption in the glomerular filtration system of the proximal renal tubules. This deficiency leads to hypophosphatemia and hyperphosphaturia, resulting in in bone and dental abnormalities.7, 13 The phosphate-regulating gene with homologies to endopeptidases on the X chromosome (PHEX), located on Xp22.1, has been identified as the gene defective in XLH.14, 15 PHEX is expressed in osteoblasts, osteocytes, odontoblasts, and the parathyroid gland. Inactivating mutations in PHEX activity may be involved in skeletal and dental abnormalities.11

In case 1, the patient's teeth had large pulp chambers and thin dentinal walls, but a generally normal tooth structure. The first symptom of this patient appeared at the age of 14 years, when he underwent orthodontic treatment for a dentinal cleft. It was thought that the cause of abscesses on the lower right first molar was excessive contact with the orthodontic appliance. Once he stopped wearing the orthodontic appliance, no further symptoms occurred in that molar. However, changing the orthodontic appliance led to symptoms in different teeth. It is believed that this symptom was caused by traumatic forces to the teeth due to excessive contact with the orthodontic appliance. These symptoms are thought to have resulted from the following sequence of events: undesired heavy forces → pulp hyperemia → pulpitis → transient apical breakdown with periapical lesion (still reversible through revitalization) → pulp necrosis → apical periodontitis. Therefore, for a patient with this condition, the prevention of trauma is extremely important.

The patient in case 1 had received neutral phosphate as a medication since the age of 1 year. However, the patient in the case 2 had stopped taking medication due to pregnancy and breastfeeding. She stated that the upper right and central incisor were extracted due to hypermobility of the teeth and discomfort during pregnancy, and then implants were placed after giving birth. When she presented to the Department of Conservative Dentistry at Chonnam National University Dental Hospital due to discomfort in the upper right second premolar, she was not taking any medication due to breastfeeding. Although it is common to complete the final prosthetic restoration between 6 months and 1 year, the implants showed consistent hypermobility 1 year and 6 months after implant installation. The hypermobility of several teeth in this patient may have been due to the interruption of medication.

Perforation is very likely in teeth with thin and weak dentinal walls. Preparation and instrumentation should be performed carefully during endodontic treatment. In addition, chemical irrigation is preferred to mechanical instrumentation.4 Implant installation is not absolutely contraindicated for patients with XLH. A case study of successful implant installation with guided bone regeneration in XLH patients has been reported.16 However, uncertain prognoses are possible, as in the patient in case 2 who underwent implant installation after extraction. Some studies have reported that the interruption of medication in XLH patients may have a negative influence on bone healing.17, 18 Blood calcium and phosphate concentrations in XLH patients should be monitored carefully before periodontal surgery.

Patients with XLH may frequently experience dental caries or attrition, and bacteria can easily invade the dental pulp through defects in the enamel and dentin, resulting in pulpitis. Consequently, to prevent dental abscesses, the early treatment of disease and the preventive treatment of caries and attrition are essential. In the deciduous dentition, prefabricated metal or polycarbonate crowns have been suggested to be useful in the prevention of attrition and enamel cracks.19, 20 However, not all the pulp is infected, and iatrogenic pulp infection could take place during tooth preparation, so this preventive treatment should not be performed in all patients with XLH. In patients with XLH, it is important to maintain good oral hygiene with professional dental care.21 Dentists are recommended to provide information about the dental signs and symptoms of XLH to pediatricians. Both dentists and pediatricians should recognize the dental features of XLH, so that early preventive interventions can help avoid serious and invasive dental procedures.

XLH patients have many problems and limitations in their dental treatment. Therefore, early diagnosis, periodic examinations, and communication with the patient's pediatrician are important in the dental management of patients with XLH.