Periodontal Pocket Clinical Trial
Official title:
Periodontal Tissue Regeneration Using Autologous Periodontal Ligament Stem Cells: Randomized Controlled Clinical Trial
The purpose of this clinical trial is to both clarify the efficiency of autologous periodontal ligament (PDL) stem cells to regenerate periodontal tissue in periodontitis patients with deep intraosseous defects (>5 mm) and to confirm the safety of using autologous stem cells in clinical periodontal regenerative medicine. This is a single-centre, randomized, placebo-controlled study. This study has been approved by the ethical committees of School of Stomatology, Fourth Military Medical University. The study will be conducted according to the Declaration of Helsinki.
Periodontitis is an inflammatory disease that causes pathological alterations in the
tooth-supporting tissues, potentially leading to tooth loss. National surveys have shown that
the majority of adults in the population suffer from moderate periodontitis, with up to 15%
of the population being affected by severe generalized periodontitis at some stage in their
lives. The significant burden of periodontal disease and its impact on general health and
patient quality of life point to the clinical need for effective management of this
condition. The ultimate goal of periodontal therapy is predictably regeneration of a
functional attachment apparatus destroyed by peridontitis, which involves the formation of a
new cementum, periodontal ligament (PDL), and alveolar bone. To date, several therapeutic
procedures have been attempted to achieve this ambitious purpose, including root surface
conditioning, bone graft placement, guided tissue regeneration (GTR) and the use of enamel
matrix-derived proteins or growth factors. However, current regenerative techniques that are
used either alone or in combination have limitations in attaining complete and predicable
regeneration, especially in advanced periodontal defects, where deep intraosseous defects
have been shown to be high-risk sites for progression of periodontitis.
According to histologic evidence, the GTR technique combined with bone graft is the most
predictable regenerative procedure in the treatment of such periodontal defects, although
basically, current available GTR-based therapies are still crude and of poor clinical
predictability. During periodontal regenerative procedures, the remaining healthy periodontal
ligament (PDL) plays a key role in the regeneration of new compartments, and the cells of PDL
tissues are the only cells that seem to have the capacity to form new attachment apparatus..
The regenerative capacity of the PDL itself is attributed to a few progenitor cells
maintaining their proliferation and differentiation potential in the periodontium. Recent
advances in stem cell biology and regenerative medicine have presented opportunities for
tissue engineering in periodontal therapy. To date, a large number of studies have reported
that stem cells, in conjunction with different physical matrices and growth factors, have the
capacity to regenerate periodontal tissues in vivo.
It has been demonstrated that PDL-derived progenitors are committed to several developmental
lineages, i.e., osteoblastic, fibroblastic and cementoblastic. This property determines the
PDL cells as a desirable cell population capable of regenerating a functional periodontal
attachment apparatus. It has been shown that PDL cells may prevent ankylosis and root
resorption and may possibly also produce a new PDL inserted into the tooth and adjacent bone.
Moreover, roots covered with alveolar bone cells induce a cementum-like tissue formation,
suggesting that cementoblast and osteoblast precursors commonly originate from the alveolar
bone. Thus, PDL-derived cell sources are one of the most promising candidates for cell-based
therapies and tissue-engineering-associated periodontal regeneration, and positive
pre-clinical results have already been achieved both in vitro and in vivo. Taken together,
the results of these investigations demonstrate that PDL cells are capable of preventing
epithelial down-growth and root resorption, with the periodontal healing pattern being
characterized by connective tissue adaptation involving parallel bundles resting on root
dentin. The formation of new bone and cementum varies from a complete absence to coverage of
parts of the debrided root surfaces mainly at the borders of the defects, to a thin layer of
newly formed cementum with complete new bone formation covering the entire previously denuded
root surface. The heterogeneity of results obtained may be explained by the small number of
specimens used, the different types of periodontal defects observed and the stability of the
carriers utilized to deliver the cells (i.e., hyaluronic acid and blood clots). In addition,
one may speculate that PDL cell differentiation is highly sensitive to differences in the
microenvironment, resulting in different types of periodontal healing. However, the clinical
application of autologous PDL-derived cells are currently lacking.
All over the world, periodontitis remains highly prevalent, can lead loss of the affected
teeth, and thus threaten quality of life for middle-aged population as far as oral functions
are concerned. Unfortunately in clinic, no current periodontal treatments can, at best, heal
the scar in the affected region and ever regenerate lost periodontal tissue or normal
structure and functionality. Considering that the "mouth" and "teeth" have various aesthetic
and functional roles to play, establishing a brand-new treatment that enables the
regeneration of periodontal tissue is very important. It is clear that there is both a
clinical need for such treatments and a vast patient resource. Interestingly, there is
mounting data that demonstrates the induction of periodontal tissue regeneration by PDL stem
cells in animal models. In particular, a number of studies show that topical administration
of PDL stem cells enhances periodontal tissue regeneration in models of artificial loss of
periodontal tissue in beagles and non-human primates. This suggests that PDL stem cells may
be safe and effective in the regeneration of periodontal tissues in periodontitis patients.
In the phase I clinical trial for 20 healthy male volunteers by local administration of
autologous PDL stem cells, neither adverse reactions nor rise of any antibody were observed
(unpublished data). Importantly, several groups have commenced small-scale pilot/feasibility
studies, leading sufficient information to move cell-based therapy into the clinical arena.
It is therefore we established this clinical protocol to further test the efficiency and
safety of stem cells in the treatment of periodontal deep intraosseous defects.
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