Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT05981352 |
| Other study ID # |
Pulpotomy of Primary Molars |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
October 2023 |
| Est. completion date |
October 1, 2024 |
Study information
| Verified date |
May 2023 |
| Source |
Ain Shams University |
| Contact |
eman Ib Abdel Masoud, doctor |
| Phone |
01555682322 |
| Email |
eman.abdelmaksoud[@]dent.asu.edu.eg |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The aim of the current study is to evaluate and compare clinical and radiographic success and
antibacterial effect of Hyaluronic Acid and Amniotic membrane pulpotomy in primary molars in
comparison with MTA pulpotomy (Randomized Clinical Trial and In Vitro Study).
Description:
Pulpotomy is one of the most used frequently treatment for pulp involved in primary teeth.
Pulpotomy is performed in a primary tooth with extensive caries but without evidence of
radicular pathology when caries removal results in a carious or mechanical pulp exposure. It
is a conservative therapy performed to remove the inflamed coronal pulp tissues followed by
application of an effective and compatible bactericidal medicament.
Many different compounds have been suggested include glutaraldehyde, electrosurgery, calcium
hydroxide, ferric sulfate, freeze-dried bone, bone morphogenic proteins (BMP), mineral
trioxide aggregate (MTA) and Bio dentine (Tricalcium Silicate Cement) as replacement for Form
cresol in pulpotomy procedure however.
Pulpotomy has been broadly classified as devitalization, preservation, and regeneration of
the remaining pulp tissue. Other materials that has shown immense potential for regeneration
like mineral trioxide aggregate (MTA). It is a biocompatible and bio inductive material that
has been investigated for endodontic.
Hyaluronic acid (HA) has recently emerged as a material of choice in preserving the vitality
of the pulp. It is a natural mucopolysaccharide, carbohydrate polymer from the group of
glycosaminoglycans. HA is synthetized on the cytoplasmic surface of plasma membranes and is
common in humans and other vertebrates. It is the major component of the inner-cell cement of
the capillary wall, and of the extracellular matrix of the connective tissue. Deposition of
HA significantly increases during development, morphogenesis, wound repair and regeneration,
malignancy, and inflammation.
Hyaluronic acid (HA) or hyaluronan is a hydrated anionic polysaccharide plentiful in the
extracellular matrix with a molecular weight of 4000-20,000,000 Da that is found in a variety
of tissues including skin, synovial fluid, cartilage, tendons, eyes and embryonic mesenchyme
. It is comprised of repeating disaccharides d-glucuronic acid and N-acetyl-d-glucosamine,
which are joined together by alternating β-1,4 and β-1,3 glycoside bonding. During bone
repair, it encourages the undifferentiated mesenchymal cells to migrate, adhere, and
proliferate into osteoblastic cells. Due to its non-toxicity, biocompatibility,
biodegradability and non-immunogenicity, and used in ophthalmology and orthopedics as an
anti-inflammatory agent and anti bacterial agent.
The use of a hyaluronic acid to cover a dentin defect, stimulated a cell-rich rearrangement
of pulp tissue with few inflammatory cells, as well as being an acceptable and biocompatible
scaffold for regenerating the dental pulp. Because of its high molecular weight when
dissolved in water, hyaluronic acid's viscoelasticity increases, making it simpler to use as
an injectable scaffold. Moreover, advantageous characteristics are related to the hyaluronic
acid scaffolds as bioactivity, biocompatibility, biodegradability, in addition to serving as
a reservoir for growth factors..
It is important to propose new biologically based therapeutics directed at preserving pulp
vitality , forming biological tissue and neutralizing the side effects of previously used
synthetically based biomaterials .
Recently, novel biologically based materials have been developed from the placenta or other
gestational tissues like the umbilical cord with highly rich stem cell reservoirs . Amniotic
membrane (AM) is a fetes membranous sac forming the innermost layer of the placenta. It is a
bi-layered membrane consists of amnion and chorion. Amnion consists of 3 distinct thin
layers: an epithelial monolayer (closest to the fetes),a basement membrane and avascular
mesenchymal stromal matrix (containing mesenchymal stem cells) that composed of 3 adjacent
but distinct layers: outermost spongy, middle fibroblastic and inner compact.
Although it is a thin membrane (70-180 μm thick), it is remarkably elastic and strong natural
biological barricade protecting the fetus from trauma and bacterial infection . In contrast,
the chorion is 3-4 times thicker than amnion and consists of a reticular, basement membrane,
and trophoblastic layers. Both membranes play important roles in embryo's overall
development, embryo's nourishment and breathing .
Amniotic membrane matrix contains plenteous growth factors (GFs) including basic-fibroblast
growth factor (b-FGF), nidogen growth factor (NGF), keratinocyte growth factor (KGF),
epidermal derived growth factor (EDGF), and transforming GF-beta growth factor (TGF-β) which
promote tissue regeneration . These GFs mimic the stem cell niche for ex vivo growth and
provide a natural healing environment. It acts as a structural scaffold supporting
proliferation, differentiation, and regeneration due to presence of fibronectin, laminins,
proteoglycans, collagen types I, III, IV, V and VI, elastin, nidogen, and hyaluronic acid in
its stromal layer, and act as an excellent candidature for a native scaffold in tissue
engineering .
Furthermore, it secretes nutrient factors , promotes cell migration, adhesion,
differentiation, and suppresses the semi allogenic immune response against the foetus . In
addition, it has a biological, anti-inflammatory (similar to cortisone and steroids shots),
anti-fibrotic, anti-microbial (including beta-defensins), anti-scarring, anti-angiogenic and
analgesic properties that make it a unique therapy for wound care and ideal substrate for
supporting the growth of mesenchymal progenitor cells via prolonging their lifespan
It is used in allotransplant due to its ability to promote cellular growth and attachment
with the lack of its immunogenicity and toxicity; it was first reported by Davis since 1910
in skin transplantation. Also, it has been used successfully for over a decade in a wide
range of surgical application, biological wound dressing, ophthalmic reconstructive surgery,
an adhesion barrier in the spine, and in-ear and orthopedic surgery. It is easily obtained,
processed, transported, and prepared in different forms for clinical use like fresh, dried,
frozen, freeze derived irradiated, stabilized amniotic and cryopreserved membranes .
Amnion-based products have a proven rate of success in the field of dentistry since 1990s,
when first demonstrated safety and efficacy in pre-and clinical studies . The dehydrated or
cryopreserved membrane is used for retaining the majority of the natural (fibrillar and
membranous) collagens, maintaining the composition of GFs and bioactive molecules found in
natural and unprocessed placental tissues, and increasing stability and shelf life of the
product .
