GTR in PERIODONTOLOGY

[Anonymous]

Conventional treatment of destructive periodontal (gum) disease arrests the disease but does not usually regain the bone support or connective tissue lost in the disease process. Guided tissue regeneration (GTR) is a surgical procedure that specifically aims to regenerate the periodontal tissues when the disease is advanced and could overcome some of the limitations of conventional therapy.

Objectives
To assess the efficacy of GTR in the treatment of periodontal infra-bony defects measured against conventional surgery (open flap debridement (OFD)) and factors affecting outcomes.

GTR has a greater effect on probing measures of periodontal treatment than open flap debridement, including improved attachment gain, reduced pocket depth, less increase in gingival recession and more gain in hard tissue probing at re-entry surgery. However there is marked variability between studies and the clinical relevance of these changes is unknown. As a result, it is difficult to draw general conclusions about the clinical benefit of GTR. Whilst there is evidence that GTR can demonstrate a significant improvement over conventional open flap surgery, the factors affecting outcomes are unclear from the literature and these might include study conduct issues such as bias. Therefore, patients and health professionals need to consider the predictability of the technique compared with other methods of treatment before making final decisions on use. Since trial reports were often incomplete, we recommend that future trials should follow the CONSORT statement both in their conduct and reporting.

There is therefore little value in future research repeating simple, small efficacy studies. The priority should be to identify factors associated with improved outcomes as well as investigating outcomes relevant to patients. Types of research might include large observational studies to generate hypotheses for testing in clinical trials, qualitative studies on patient-centred outcomes and trials exploring innovative analytic methods such as multilevel modelling. Open flap surgery should remain the control comparison in these studies.

        

[Anonymous]

images for reference

        

[tirath]

The development of biomimetic bone matrices is one of the major goals in the bone-regeneration and tissue-engineering fields. Nanocomposites consisting of a natural polymer and hydroxyapatite (HA) nanocrystals, which mimic the human bone matrix, are thus regarded as promising bone regenerative materials. Herein, we developed a biomimetic nanocomposite with a novel nanofibrous structure by employing an electrospinning (ES) method. The HA precipitate/gelatin matrix nanocomposites are lyophilized and dissolved in an organic solvent, and then electrospun under controlled conditions. With this process, we can successfully generate a continuous fiber with a diameter of the order of hundreds of nanometers. The internal structure of the nanofiber features a typical nanocomposite, i.e., HA nanocrystals well distributed within a gelatin matrix. These nanocomposite fibers improve the bone-derived cellular activity significantly when compared to the pure gelatin equivalent. This method of generating a nanofiber of the biomimetic nanocomposite was effective in producing a biomedical membrane with a composition gradient, which is potentially applicable in the field of guided tissue regeneration (GTR).

        

[tonyshori.perio]

it is a procedure which was introduced by Melcher it works on the three principles
1 Provides space so that the cells from the pdl will migrate into the defect.
2 Does not allow the formation of long junctional epithelium.

        

[sushantpatel_doc]

The Inion GTR Membrane is the first-ever membrane that is soft when applied but becomes rigid, once fixed in position. The key advantage of this is the ability to maintain space between soft tissue and bone, thus allowing for a large bone volume to be regenerated. Pre-clinical studies suggest a bioactive agent in the membrane may facilitate faster bone regeneration. The agent elutes out following implantation.

Vendor- Citagenix, Inc.
Item – Inion GTR Membrane
Dimensions- Inquire
Material Type – Polylactic and Polyglycolic Co-polymers
Quantity per package- Inquire
Item Number- MBR-2000
Time Length until Resorbtion- 8-12 weeks
List Price- Inquire

        

[Anonymous]

I wanted to know if the GTR procedure has any limitations in terms of the number of teeth on which the procedure can be used at a single time

        

[tonyshori.perio]

The use of GTR in larger defects Such as 1 1/2 wall it may collapse and main problem encountered with gtr is that the cementum formed is of cellular type. cellular cementum is not good for ancourage of the collagen fibres. we need acellular cementum which is possible with the help of EMDOGAIN ( Enamel matrix derivative)

        

[Payal]

There is no limitation in absolute terms in no of teeth. However you must have enough soft tissue to close over your membrane around all sites. Limitations or rather indications are defined only per tooth site in defining the no. of walls, depth of defect and angulation of defect.

        

[Anonymous]

If anyone has documented cases of a GTR procedure please upload the case details and pictures

        

[tonyshori.perio]

Which one of the GTR is the best Enzymatic or hydrolytic degradation one

        

[Author]

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