The present study is a human, prospective, single centre, single blind randomised controlled clinical tria conducted to explore the feasibility and efficacy of self-inflating hydrogel expander (Osmed®) to gain keratinised tissue around the dentulous area. The trial is in accordance to the Consolidated Standards of Reporting Trials (CONSORT) criteria, 2010.
Ten healthy individuals satisfying the inclusion and exclusion criteria were recruited for the study. A detailed, thorough medical and dental history was obtained and each patient was subjected to comprehensive clinical and radiological examination. All patients were informed about the nature of the study, surgical procedure involved, potential benefits and risks associated with the surgical procedure and a written informed consent was obtained from all patients. All the patients were implanted with self-inflating hydrogel expander (Osmed®) in subperiosteal positions using the pouch technique in the mandibular anterior region. The clinical parameters were recorded at baseline, two weeks post expander retrieval, three months and six months post-operatively.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
10
Under local anaesthesia, a small vertical incision, adapted to the diameter of the Osmed® sself-inflating hydrogel expander, was made with #15 scalpel blade at the mesial line angle of the adjacent tooth which started below the gingival margin extending from the keratinized tissue above the MGJ to the non-keratinized tissue beyond the MGJ. A minimally invasive preparation of a subperiosteal pouch was performed with KPA tunnelling knife. Size of the pouch was controlled with the specific surgical template to ensure the device easily fits into the prepared pouch without tension. Expanders were secured in the correct position with a bone fixation screw, at the flat end, which does not possess an expansion capability. The wound was closed with 3-0 silk suture using simple interrupted sutures.
Keratinized tissue width (KTW)
measured from the most apical gingival margin to the mucogingival junction (MGJ), with the MGJ location determined using the visual method (Schiller's potassium iodide solution).
Time frame: 6 months
Keratinized tissue thickness (KTT)
measured at the mid-buccal aspect of the study tooth just below the marginal gingiva using an endodontic file.
Time frame: 6 months
Optical scanning for analysis of tissue thickness
alginate impressions were made at the baseline prior to expander placement, immediately after the removal of expander and 6 months post-augmentation. The prepared casts were assessed for soft tissue changes by optical scan using 3D camera (Intellidenta AG, Basel, Switzerland). The obtained digital images of the casts reflecting the different treatment time were then superimposed and matched in one common coordinate system. The buccal surfaces of the study teeth were used as a reference point for the superimposition of different images. Subsequently, a defined area of interest at each site were measured and the difference in the linear distance between the time points were calculated.
Time frame: 6 months
Gingival recession depth (GRD)
measured at the mid-buccal aspect of the study tooth from the CEJ to the most apical extension of gingival margin (using UNC-15 probe)
Time frame: 6 months
Vestibular depth (VD)
measured from cemento-enamel junction (CEJ) to the deepest part of vestibular mucosa. Measurements were taken with the UNC-15 probe while exerting a firm facial pull on the lip or cheek at a 90° angle to the surface of the teeth.
Time frame: 6 months
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Color and texture match to the surrounding tissue
binary ratings of "equal or not equal to surrounding native tissue" assigned upon clinical examination
Time frame: 6 months