Guided Intraradicular Hard Tissue-Inducing Post — Michael & Martin's Research Project

Overview

What it is

The device combines a superior clamping part with an inferior intraradicular hard tissue-inducing section, allowing it to be secured while guiding regeneration deep within the canal.

Hard tissue formation is directed using a main core, a bioactive layer, reinforcing rings, and elastic biocompatible rings, with an optional detachable metal core that supports electronic apex locator guidance during placement.

Technology & Mechanism

How it works

01Bioactive hard tissue-inducing layer
02Flexible biocompatible structure
03Reinforcing ring system
04Detachable metal core
05Apex locator compatibility
06Controlled degradation
07Guided tissue formation

Longitudinal cross-section of the intraradicular post showing the layered internal structure and tapered tip.

Cross-section · intraradicular section

222Main coreThe central structural spine running the full length of the post.
224Bioactive layerReleases bioactive particles to induce controlled hard tissue formation.
226Reinforcing ringsSegmented rings (226a) that hold shape while permitting flexion.
228Elastic biocompatible ringsCompliant rings (228a) that let the post adapt to curved anatomy.
320Tapered tipGuides advancement toward the apex during placement.

Figure — longitudinal section, reference numerals as filed

Key Features

What sets it apart

Feature 01

Simplifies endodontic workflow

Feature 02

Supports guided root canal closure

Feature 03

Reduces extensive instrumentation

Feature 04

Adapts to curved root canal anatomy

Feature 05

Bioactive and biocompatible design

Applications

Where it applies

Endodontic therapyVital pulp therapy researchRegenerative dentistryRoot canal closureDental biomaterial research

Development Pathway

From concept to clinic

Material study

Mechanical prototype

Degradation testing

Preclinical dental model

Clinical feasibility evaluation