Non-surgical Endodontic Retreatment of a Failed PFM-Crowned Immature Maxillary Central Incisor with Open Apex

Fig. 1

Patient History and Chief Complaint

A 14-year-old female patient was referred with a chief complaint of discolouration of the upper left central incisor and a history of recurring swelling in the same region over the preceding 12 months. No acute pain was reported at the time of presentation. Medical history was non-contributory. Dental history was significant for trauma to the upper left central incisor several years prior, followed by root canal treatment and placement of a PFM crown

Fig. 2

Clinical and Radiographic Examination

Intra-oral examination revealed tooth #21 restored with a full-coverage PFM crown with a clinically detectable and probeable open margin. The crown displayed marked yellow amber discolouration compared to the adjacent dentition. A draining sinus tract approximately 3 mm apical to the free gingival margin, traced with a gutta-percha point to confirm its endodontic origin. No deep pathological periodontal pocketing was detected, confirming an endodontic rather than primary periodontal etiology.

Periapical radiography demonstrated an open apex , over-obturation extending approximately 5–6 mm beyond the radiographic apex , and a well-defined periapical radiolucency surrounding the extruded material.

Fig. 3

Crown Removal and Rubber Dam Isolation

The defective PFM crown was sectioned along its buccal surface using a thin tapered diamond bur under constant water irrigation and removed atraumatically.

sufficient coronal tooth structure remained to accommodate a rubber dam clamp, and isolation was established.

Fig. 4

Retrieval of Over-extended Gutta-Percha

The retrieval of the over-extruded gutta-percha demanded particular technical care given the dual challenge of the open apex and the magnitude of extrusion (≈ 5–6 mm). Rotary retreatment files were used only in the coronal and middle thirds of the canal, where dentine wall thickness was adequate. For the apical portion, a manual technique using Hedström (H) files was selected as the instrument of choice.

H-files were engaged at the interface between the extruded gutta-percha and the canal wall. Radiographic confirmation was obtained at each critical stage.

Fig. 5

Chemo-mechanical Preparation

Following complete GP retrieval, the canal was carefully reshaped.

Irrigation consisted of 2.5% sodium hypochlorite (a lower concentration than standard adult protocol, appropriate for the wide-open apex and the risk of periapical irritation), activated ultrasonically; 17% EDTA for 60 seconds; and a final saline flush. Calcium hydroxide paste (UltraCal XS, Ultradent) was placed as an interappointment intracanal medicament and the tooth sealed with temporary filling.

Fig. 6

MTA Apical Plug & Coronal Obturation

This step represents the centrepiece of the entire retreatment protocol and the defining element that differentiates the management of an open-apex tooth from a conventional retreatment scenario. It was delivered to the apical 4 mm of the canal. The coronal canal space was obturated with warm vertical condensation of gutta-percha against the MTA plug, providing a dense coronal seal.

Fig. 7

Final Composite Resin Restoration

the tooth was definitively restored with a stratified direct composite resin technique. Dentine and enamel-body composite masses were applied incrementally under rubber dam isolation, finished, and polished to a high lustre.

Fig. 8

Post-operative Outcomes and Follow-up

Post-operative follow-up at 3 months revealed a clinically and radiographically favourable outcome across all treatment objectives. The patient reported no pain, swelling, or sensitivity. Critically, the sinus tract had resolved completely.

Periapical radiographs at 3 months demonstrated progressive resolution of the periapical radiolucency, with early evidence of periapical bone regeneration.