Amnion Chorion Membrane Research Articles

Synergistic effects of antimicrobial components of the human-derived composite amnion-chorion membrane on bacterial growth.

The human-derived amnion-chorion membrane (ACM) has endogenous antimicrobial properties, which are important for preventing the colonization and survival of oral bacteria on exposed membranes. This project aimed to decipher the underlying mechanism by identifying the components of ACM that confer antibacterial properties. In addition, the antimicrobial efficacy of these identified components on oral bacteria was assessed. Four antimicrobial proteins, histone H2A/H2B, cathelicidin LL-37, lactoferrin, and lysozyme, were identified via mass spectrometry in ACM. These proteins were then assessed for their efficacy in killing Streptococcus gordonii Challis. Log-phased bacterial cells were cultured with the commercially available proteins that were identified in ACM, either individually or in combination, at different concentrations. After incubation for 8 or 24 hours, the bacteria were stained with a live/dead viability kit and analyzed via confocal microscopy. The combination of these proteins effectively killed S. gordonii in a dose-dependent fashion after 8 or 24 hours of incubation. When each protein was tested individually, it killed S. gordonii at a much lower efficacy relative to the combinations. The synergistic effects of the antimicrobial protein combinations were also observed in both the viable cell count recovery and minimum inhibitory concentration assays. By shedding light on the mechanisms in the ACM's antimicrobial property, this study may raise more awareness of the potential benefit of utilization of a membrane with endogenous antimicrobial properties in regeneration surgeries.

Human amniotic membrane modulates collagen production and deposition in vitro

Pathological fibrosis is a significant complication of surgical procedures resulting from the accumulation of excess collagen at the site of repair which can compromise the tissue architecture and severely impede the function of the affected tissue. Few prophylactic treatments exist to counteract this process; however, the use of amniotic membrane allografts has demonstrated promising clinical outcomes. This study aimed to identify the underlying mechanism of action by utilizing relevant models that accurately represent the pathophysiology of the disease state. This study employed a pro-fibrotic in vitro system using TGFβ1 stimulation and macromolecular crowding techniques to evaluate the mechanism by which amniotic membrane allografts regulate collagen biosynthesis and deposition. Following treatment with dehydrated human amnion chorion membrane (DHACM), subsequent RNA sequencing and functional enrichment with Reactome pathway analysis indicated that amniotic membranes are indeed capable of regulating genes associated with the composition and function of the extracellular matrix. Furthermore, macromolecular crowding was used in vitro to expand the evaluation to include both the effects of DHACM and a lyophilized human amnion/chorion membrane (LHACM). DHACM and LHACM regulate the TGFβ pathway and myofibroblast differentiation. Additionally, both DHACM and LHACM modulate the production, secretion, and deposition of collagen type I, a primary target for pathological fibrosis. These observations support the hypothesis that amniotic membranes may interrupt pathological fibrosis by regulating collagen biosynthesis and associated pathways.

Harnessing the power of amnion-chorion membrane in periodontal therapy: A comprehensive review

Amnion-chorion membrane (ACM) has emerged as a versatile biomaterial with immense potential in various medical and dental applications, including periodontal therapy. ACM possesses unique properties, including a bioactive matrix rich in growth factors, anti-inflammatory and antibacterial attributes, and a remarkably thin, self-adherent structure. These characteristics make ACM well suited for various periodontal applications, such as intrabony defect treatment, gingival recession management, socket preservation, papillary preservation, and sinus membrane repair. This review offers comprehensive details of the properties, applications, and implications of ACM membranes in the realm of periodontal treatment.

Dehydrated Amnion Chorion Membrane versus standard of care for diabetic foot ulcers: a randomised controlled trial.

Diabetic foot ulcers (DFUs) continue to challenge wound care practitioners. This prospective, multicentre, randomised controlled trial (RCT) evaluated the effectiveness of a dehydrated Amnion Chorion Membrane (dACM) (Organogenesis Inc., US) versus standard of care (SoC) alone in complex DFUs in a challenging patient population. Subjects with a DFU extending into dermis, subcutaneous tissue, tendon, capsule, bone or joint were enrolled in a 12-week trial. They were allocated equally to two treatment groups: dACM (plus SoC); or SoC alone. The primary endpoint was frequency of wound closure determined by a Cox analysis that adjusted for duration and wound area. Kaplan-Meier analysis was used to determine median time to complete wound closure (CWC). The cohort comprised 218 patients, and these were split equally between the two treatment groups with 109 patients in each. A Cox analysis showed that the estimated frequency of wound closure for the dACM plus SoC group was statistically superior to the SoC alone group at week 4 (12% versus 8%), week 6 (22% versus 11%), week 8 (31% versus 21%), week 10 (42% versus 27%) and week 12 (50% versus 35%), respectively (p=0.04). The computed hazard ratio (1.48 (confidence interval: 0.95, 2.29) showed a 48% greater probability of wound closure in favour of the dACM group. Median time to wound closure for dACM-treated ulcers was 84 days compared to 'not achieved' in the SoC-treated group (i.e., ≥50% of SoC-treated DFUs failed to heal by week 12; p=0.04). In an adequately powered DFU RCT, dACM increased the frequency, decreased the median time, and improved the probability of CWC when compared with SoC alone. dACM demonstrated beneficial effects in DFUs in a complex patient population. This study was funded by Organogenesis Inc., US. JC serves as a consultant and speaker for Organogenesis. RDD serves as a speaker for Organogenesis. OMA and MLS serve as consultants for Organogenesis. The authors have no other conflicts of interest to declare.

PURION® processed human amnion chorion membrane allografts retain material and biological properties supportive of soft tissue repair.

The reparative properties of amniotic membrane allografts are well-suited for a broad spectrum of specialties. Further enhancement of their utility can be achieved by designing to the needs of each application through the development of novel processing techniques and tissue configurations. As such, this study evaluated the material characteristics and biological properties of two PURION® processed amniotic membrane products, a lyophilized human amnion, intermediate layer, and chorion membrane (LHACM) and a dehydrated human amnion, chorion membrane (DHACM). LHACM is thicker; therefore, its handling properties are ideal for deep, soft tissue deficits; whereas DHACM is more similar to a film-like overlay and may be used for shallow defects or surgical on-lays. Characterization of the similarities and differences between LHACM and DHACM was conducted through a series of in vitro and in vivo studies relevant to the healing cascade. Compositional analysis was performed through histological staining along with assessment of barrier membrane properties through equilibrium dialysis. In vitro cellular response was assessed in fibroblasts and endothelial cells using cell proliferation, migration, and metabolic assays. The in vivo cellular response was assessed in an athymic nude mouse subcutaneous implantation model. The results indicated the PURION® process preserved the native membrane structure, nonviable cells and collagen distributed in the individual layers of both products. Although, LHACM is thicker than DHACM, a similar composition of growth factors, cytokines, chemokines and proteases is retained and consequently elicit comparable in vitro and in vivo cellular responses. In culture, both treatments behaved as potent mitogens, chemoattractants and stimulants, which translated to the promotion of cellular infiltration, neocollagen deposition and angiogenesis in a murine model. PURION® processed LHACM and DHACM differ in physical properties but possess similar in vitro and in vivo activities highlighting the impact of processing method on the versatility of clinical use of amniotic membrane allografts.

Cost effectiveness analysis for commonly used human cell and tissue products in the management of diabetic foot ulcers.

This study considers the cost-effectiveness of commonly used cellular, acellular, and matrix‑like products (CAMPs) of human origin also known as human cell and tissue products (HCT/Ps) in the management of diabetic foot ulcers. We developed a 1-year economic model assessing six CAMPs [cryopreserved placental membrane with viable cells (vCPM), bioengineered bilayered living cellular construct (BLCC), human fibroblast dermal substitute (hFDS), dehydrated human amnion chorion membrane (dHACM), hypothermically stored amniotic membrane (HSAM) and human amnion membrane allograft (HAMA) which had randomized controlled trial evidence compared with standard of care (SoC). CAMPs were compared indirectly and ranked in order of cost-effectiveness using SoC as the baseline, from a CMS/Medicare's perspective. The mean cost, healed wounds (hw) and QALYs per patient for vCPM is $10,907 (0.914 hw, 0.783 QALYs), for HAMA $11,470 (0.903 hw, 0.780 QALYs), for dHACM $15,862 (0.828 hw, 0.764 QALYs), for BLCC $18,430 (0.816 hw, 0.763 QALYs), for hFDS $19,498 (0.775 hw, 0.757 QALYs), for SoC $19,862 (0.601 hw, 0.732 QALYs) and $24, 214 (0.829, 0.763 QALYs) for HSAM respectively. Over 1 year, vCPM results in cheaper costs overall and better clinical outcomes compared to other CAMPs. Following probabilistic sensitivity analysis, vCPM has a 60%, HAMA 40% probability of being cost-effective then dHACM, hFDS, BLCC, and lastly HSAM using a $100,000/healed wound or QALY threshold. All CAMPs were shown to be cost-effective when compared to SoC in managing DFUs. However, vCPM appears to be the most cost-effective CAMP over the modelled 52 weeks followed by HAMA, dHACM, hFDS, BLCC, and HSAM. We urge caution in interpreting the results because we currently lack head-to-head evidence comparing all these CAMPs and therefore suggest that this analysis be updated when more direct evidence of CAMPs becomes available.

Clinico-radiological outcome of Arthroscopic Anterior Cruciate Ligament Reconstruction with Augmentation of Dehydrated Human Amnion Chorion Allograft Membrane using Peroneus Longus Autograft.

For many sportsmen, anterior cruciate ligament (ACL) tears are unfortunate but common injuries. Several growth factors, cytokine, chemokine, and protease inhibitors functions in stimulation of paracrine reactions in fibroblast, endothelial, and stem cells thereby promoting the tissue restorative processes. Augmented with dehydrated Human Amnion Chorion Membrane (dHACM) allograft reinforces the reconstructed ligament and aids in effective restoration. In this case control study 15 patients undertaking ACL reconstruction with tripled peroneus augmented dHACM (G1) were prospectively monitored up for a period of 8 months along with 15 control patients (G2) without dHACM augmentation. Clinical and radiological outcomes were analysed and assessed about effect of augmenting the peroneus longus graft using dHACM. Clinical analysis included pre-operative two, four, six, and eight months post-operative Tegnor-Lysholm score, and radiological analysis included the 6th month postoperative MRI signal-to-noise ratio (SNR) measurements by mean signal-value at femoral insertion, midsubstance and tibial insertion of ACL graft. Clinically, as a mean Lysholm score of all patients, they were revealed to be consecutively high in G1 than in Group 2 at four, six, and eight months. The signal-to-noise ratio from the MRI results showed majority having good healing in G1 group. Based on 6-month MRI, an effective ligamentization (SNR<75) was noticed in 53.33% of patients in the dHACM allograft enhanced group on comparison with 33% in the controls. The overall results show that the augmentation of dHACM allograft to ACL reconstruction yields in good patient outcomes at post-operative follow-up.

Dehydrated human amnion chorion membrane to treat venous leg ulcers: a cost-effectiveness analysis.

Dehydrated human amnion chorion membrane to treat venous leg ulcers: a cost-effectiveness analysis.

Evaluation of amnion chorion membrane for socket preservation after the extraction of maxillary single rooted teeth: A randomized controlled clinical trial

Introduction: The aim of this study was to assess the efficiency of using dehydrated de-epithelial ized amnion chorion membrane (ddACM) on socket preservation in the anterior region, clinically and radiographically. Methods: 26 unrestorable maxillary anterior or single rooted premolars, with buccal fenestration, were selected. The socket was filled with allograft material and covered with ddACM for the test group, and allograft material with a collagen membrane for the control group divided equally. Clinical parameters including gingival healing and tissue thickness was assessed. Volumetric bone change was measured 4 months later using a CBCT. Results: Test group showed clinical statistically significant results than the control group (P-value = 0.020, effect size = 0.574) along with a radiographic higher mean bone width measurement than control group after four months (P-value = 0.372, Effect size = 0.357). Conclusion: As compared to collagen membrane, intentionally exposed ACM is similarly successful in ridge preservation. Moreover, the use of ACM may help to reduce postoperative VAS ratings and may result in excellent bone quality available for implant placement.

Periodontal Regeneration with Amnion-Chorion Membrane on Root Surface: A Retrospective Case Series.

This retrospective case series investigated the clinical and radiographic outcomes in 19 intrabony defects treated with periodontal regenerative therapy utilizing a combined approach. Placing an amnion-chorion membrane (ACM) as a biologic modifier on the root surface of the periodontally diseased tooth, combined with bone substitutes and an additional ACM as a barrier membrane, the treated sites were examined 8 to 24 months after the therapy. The preoperative (baseline) mean probing pocket depth (PPD) was 7.21 ± 1.08 mm, and the mean clinical attachment level (CAL) was 7.68 ± 1.49 mm. A mean PPD reduction of 4.05 ± 1.22 mm, CAL gain of 3.68 ± 1.34 mm, and 73.91% ± 22.02% of bone fill were recorded postoperatively. Without any adverse events, root-surface application of ACM as a biologic material in periodontal regenerative therapy could be a safe and cost-effective approach.

Evaluation on the efficacy of processed hydrated and dehydrated amnion chorion membrane on the proliferation of periodontal ligament fibroblasts.

The purpose of the present study was to process and assess the effect of hydrated amnion chorion membrane and dehydrated amnion chorion membrane on proliferation of periodontal ligament(PDL) fibroblast cells. The amnion chorion membrane(ACM) from placenta of 18 systemically healthy patients was obtained from the Department of Obstetrics and Gynaecology. Theywere processed as hydrated and dehydrated based on different processing methods. ThePeriodontal ligament cells were obtainedfrom periodontal ligament offreshly extracted premolars of systemically healthy patients, due to orthodontic reasons. The PDL cells werefurthercultured in laboratory and were exposed to hydrated and dehydrated amnion chorion membrane.The MTT assay was performed to assess the proliferation of PDL fibroblast cells after 24and 48 h. The hydrated and dehydrated amnion chorion membrane showed proliferation of PDL fibroblasts after 24 and 48h. The proliferation of PDL fibroblasts in hydrated (p = 0.043) and dehydrated (p = 0.050) amnion chorion membrane was statistically significant at the end of 24 and 48h respectively.On inter-groupcomparison dehydrated ACM showed significant proliferation of PDL fibroblasts after 24 (p=0.014)and 48 h (p=0.019).Withinthe limits of the present study, it can be concluded: both hydrated and dehydrated amnion chorion membrane showed proliferationof PDL fibroblast cells. However, dehydrated ACM showed significant proliferation of PDL fibroblasts.

Dehydrated Human Amnion-Chorion Membrane Extracts Can Ameliorate Interstitial Cystitis in Rats by Down-Regulating Inflammatory Cytokines and Protein Coding Genes: A Preclinical Study.

The study aimed to investigate the therapeutic impact of intravesical instillation of dehydrated human amnion-chorion membrane (HACM) extracts based on the primary pathological feature of interstitial cystitis (IC). We divided 15 female Sprague-Dawley rats into three groups: sham control, IC, and treatment group. IC was induced by 400-µL lipopolysaccharide (1 µg/µL), and it was replaced with normal saline in the sham control group. After IC induction, 300 µL dehydrated HACM extracts (3 mg/kg) were instilled into rats' urinary bladder weekly for 3 weeks. General histology, inflammatory cytokines, NF-κB, oxidative markers, and western blots results were examined. The urothelial denudation, mast-cell infiltration, and tissues fibrosis were all ameliorated. The elevated TNF-α, IL-1β, IL-6, IL-8, and NF-κB were all down-regulated by dehydrated HACM extracts (p &lt; 0.05). For reactive oxygen species, increased malondialdehyde, decreased superoxide dismutase, and decreased glutathione peroxidase were all reversed (p &lt; 0.05). In apoptosis of IC, elevated Bax and suppressed Bcl-2 were improved (p &lt; 0.05) after instillation. In fibrosis, dysregulated TGFβ/R-Smads/Snail was corrected by the instillation of dehydrated HACM (p &lt; 0.05). In conclusion, dehydrated HACM extracts could be a powerful remedy in treating IC by reconstructing the damaged urothelium, reducing mast-cell infiltration and inflammatory reactions, and ameliorating fibrotic changes.

Biological Evaluation of a Native Amniotic Membrane Allograft

Category: Basic Sciences/Biologics; Other Introduction/Purpose: Placental tissue allografts have long been used as effective wound dressings for hard to heal wounds and are demonstrating increasing utility in the field of foot and ankle surgeries. Previous observations of the PURION-processed dehydrated amnion/chorion membrane (dHACM) demonstrated retention of regulatory proteins inherent to amniotic tissues and preservation of the bioactivity to stimulate cellular activities. Novel and patent-pending processing techniques have been developed to introduce a thicker and more robust allograft, as compared to dHACM. Lyophilized human amnion chorion membrane (LHACM) will confer versatility to clinicians with improved handling while maintaining the natural tissue composition and intrinsic biological activities. This study characterizes the biological properties of LHACM which may support the healing cascade. Methods: LHACM was processed using a modified PURION process which incorporates an optimized cleansing process, enabling retention of the intermediate layer, and lyophilization. Tissue architecture was visualized with hematoxylin and eosin staining. The hygroscopic contribution of the intermediate layer was appraised with absorbency measurements. Cleansing efficiency was determined through quantification of residual hemin remaining in the tissue. Regulatory proteins were quantified using a multiplex ELISA. The cellular response to LHACM treatment was assessed using multiple in vitro assays targeting cellular proliferation and analysis of signaling pathways. Adult dermal fibroblasts (HDFs) cultured over a 3-day period in LHACM eluates were assessed for cellular proliferation. In vitro models were developed to assess the regulation of relevant signaling pathways, including TGF-β1 and Wnt/β-catenin for fibrotic and proliferative processes, respectively. Cellular responses were evaluated through quantitative PCR and cell reporter lines. Results: Histological evaluation showed that processing maintains the tissue structure. Absorption testing demonstrated LHACM is more hygroscopic than dHACM. Hemin analysis demonstrated low levels of residual hemin which were comparable for LHACM and dHACM allografts. Screening for regulatory proteins indicate that LHACM contains a diverse array of regulatory proteins, inherent to amniotic membranes. In vitro treatment of primary cells with LHACM eluates promoted dermal fibroblast proliferation as well as regulation of elevated TGFβ- and Wnt/β-catenin signaling. Conclusion: The processing method of LHACM maintains the intrinsic properties of amniotic membranes with similar levels of biological activity as compared to dHACM, while providing an option for a thicker allograft with alternative handling characteristics. LHACM represents a novel product concept which increases versatility of amniotic membrane application in varied outpatient and surgical uses.

Dehydrated Human Amnion/Chorion Membrane Allografts as an Adjunct Wound Healing Therapy in Diabetic Rats.

Chronic, non-healing wounds pose a serious public health issue and the need for new treatment methods is paramount. Dehydrated human amnion/chorion membrane has potential wound healing properties, due to the enrichment of growth factors and anti-inflammatory properties. However, its auxiliary advantage on diabetic wounds with demonstrated safety and efficacy in animal models has not been extensively documented. This study aimed at evincing the wound-healing property of dehydrated human amnion chorion membrane in diabetic and non-diabetic rats. An excisional wound model was developed in 36 male Sprague-Dawley rats that were randomly classified into six groups for two experiments. The non-diabetic rat group included non-diabetic control (G1), dHACM treatment (G2), and dHACM dressing + saline-treatment (G3); (n = 6). Similarly, the diabetic group included diabetic control (G4), dHACM treatment (G5), and dHACM dressing + saline-treatment (G6); (n = 6). The results of wound contractility rate, re-epithelialization, grading of granulation tissue, and collagen deposition from histopathological observation demonstrated that in comparison with the other groups (G1, G2, G4, and G5), the animal groups treated with dHACM dressing + saline-treatment (G3 and G6) had superior regenerative effects in excisional wound model. Also, in the animals of G5 and G6 of the diabetic group, there was no statistically significant difference (P > 0.05) in the levels of glucose, urea, creatinine, aspartate aminotransferase (AST), alanine aminotransferase (ALT), and alkaline phosphate (ALP), when compared to G4 animals during the experiment. It is evident from this study that dHACM could be applied as a potential wound healing biomaterial, especially in diabetic conditions.

GUIDED TISSUE REGENERATION IN ESTHETIC ZONE BY WHALE'S TAIL FLAP DESIGN USING INDIGENOUSLY PREPARED DFDBA AND AMNIOTIC MEMBRANE: A CASE REPORT

Anticipation of complete reconstruction of lost periodontal tissues destroyed by periodontal disease is still a major challenge. Flap design in periodontal regeneration procedure should be such that to preserve maximum tissue and allow complete stabilization of the graft placed. Bone grafts are used in the treatment of various maxillomandibular bone defects, including Intrabony defects and Furcation defects. Allografts such as DFDBA, FDBA, amnion membrane, chorion membrane and amnion-chorion membrane are processed and stored according to standard protocols in central tissue bank, MAIDS New Delhi. The purpose of this case report is to describe and evaluate the efcacy of the “whale's tail” technique that was designed for the treatment of wide intrabony defects in the esthetic zone. Indigenously prepared DFDBA bone allograft and amniotic membrane used in the regeneration of osseous defect shows radiographic bone ll and pocket reduction from 7mm to 3 mm 18 months postoperatively

The Effect of the Amnion-Chorion or Collagen Membrane as a Matrix on the Microenvironment During a Regenerative Endodontic Procedure

IntroductionDuring regenerative endodontic procedures, the microenvironment of the canal is formed by the degree of disinfection and release of ions from the applied materials onto the top surface. This study aimed to characterize the effects of amnion-chorion membrane and collagen membrane on pulp-dentin regeneration compared to calcium silicate cements (CSCs), focusing on cell migration, mineralization potential, anti-inflammation, and angiogenesis. MethodsTwo CSCs and 2 membranes were used: ProRoot MTA (Dentsply, Tulsa, OK, USA), RetroMTA (BioMTA, Seoul, Korea), Collagen Membrane (Genoss, Suwon, Korea), and BioXclude (amnion-chorion membrane; Snoasis Medical, Colorado, USA). Transwell and scratch assays were used to evaluate cell migration and wound healing. Mineralization potential was evaluated using alkaline phosphatase activity, Alizarin red S staining, and quantitative real-time polymerase chain reaction for the expression of marker genes. Quantitative real-time polymerase chain reaction was used to measure the levels of angiogenic genes and inflammatory mediators. An endothelial tube formation assay was used to assess angiogenesis. ResultsThe membranes showed superior migration and wound healing compared with CSCs. Except for RetroMTA, ProRoot MTA and the 2 membranes showed high alkaline phosphatase activity and mineralization nodule formation and upregulated mRNA expression of markers for mineralization. Membranes upregulated the mRNA of angiogenesis genes and increased the capillary tube formation of endothelial cells compared to CSCs. Furthermore, the membrane matrix decreased the expression of inflammatory genes. ConclusionsCollagen membrane and Amnion-chorion membrane showed prominent cell migration, angiogenesis, and healing effects against inflammation, as well as comparable mineralization potential compared to CSCs, recommending the use of membrane as a matrix.

Oncologic outcomes with and without amniotic membranes in robotic-assisted radical prostatectomy: A propensity score matched analysis

ObjectivePlacement of human placenta derived grafts during robotic-assisted radical prostatectomy (RARP) hastens the return of continence and potency. The long-term impact on the oncologic outcomes remains to be investigated. Our objective was to determine the oncologic outcomes of patients with dehydrated human amnion chorion membrane (dHACM) at RARP compared to a matched cohort. MethodsIn a referral centre, from August 2013 to October 2019, 599 patients used dHACM in bilateral nerve-sparing RARP. We excluded patients with less than 12 months follow-up, simple prostatectomy, and unilateral nerve-sparing. Patients with dHACM (amnio group) were 529, and were propensity score matched 1:1 to 2465 patients without dHACM (non-amnio group) and a minimum follow-up of 36 months. At the time of RARP, dHACM was placed around the neurovascular bundle in the amnio group. Continuous and categorical variables in matched groups was tested by two-sample Kolmogorov-Smirnov test and Fisher's exact test respectively. Outcomes measured were biochemical recurrence (BCR), adjuvant and salvage therapy rates. ResultsPropensity score matching resulted in two groups of 444 patients. Cumulative incidence functions for BCR did not show a difference between the groups (p=0.3). Patients in the non-amnio group required salvage therapy more frequently than the amnio group, particularly after partial nerve-sparing RARP (6.3% vs. 2.3%, p=0.001). Limitations are the absence of prospective randomization. ConclusionThe data suggest that using dHACM does not have a negative impact on BCR in patients. Outcomes of cancer specific and overall survival will require follow-up study to increase our understanding of these grafts’ impact on prostate cancer biology.

Investigating the Effects of Dehydrated Human Amnion-Chorion Membrane on Periodontal Healing.

Each growth factor (GF) has different effects and targets, and plays a critical role in periodontal healing. Dehydrated human amnion-chorion membrane (dHACM) contains various GFs and has been used to enhance wound healing. The purpose of this study was to evaluate the effects of dHACM on periodontal healing, using in vitro and in vivo experimental approaches. Standardized periodontal defects were created in rats. The defects were randomly divided into three groups: Unfilled, filled with hydroxypropyl cellulose (HPC), and dHACM+HPC. At 2 and 4 weeks postoperatively, periodontal healing was analyzed by microcomputed tomography (micro-CT), and histological and immunohistochemical analyses. In vitro, periodontal ligament-derived cells (PDLCs) isolated from rat incisors were incubated with dHACM extract. Cell proliferation and migration were evaluated by WST-1 and wound healing assay. In vivo, micro-CT examination at 2 weeks revealed enhanced formation of new bone in the dHACM+HPC group. At 4 weeks, the proportions of vascular endothelial growth factor (VEGF)-positive cells and α-smooth muscle actin (α-SMA)-positive blood vessels in the dHACM+HPC group were significantly greater than those in the Unfilled group. In vitro, dHACM extracts at 100 µg/mL significantly increased cell proliferation and migration compared with control. These findings suggest that GFs contained in dHACM promote proliferation and migration of PDLCs and angiogenesis, which lead to enhanced periodontal healing.

Role of Placental Extracts in Periodontal Regeneration: A Literature Review.

Periodontium is a specialized tissue surrounding the teeth. It is made up of the gingiva, periodontal ligament, cementum, and alveolar bone. The healing of periodontal tissues when infected occurs through repair and regeneration. The central dogma of regenerative periodontics is to stimulate a cascade of healing events that, if coordinated well, can lead to proper tissue synthesis which in turn would play a very important part in managing periodontitis and preventing tooth loss.Many regenerative procedures are being followed in periodontics using newer and modified barrier membranes. Placental membranes like amnion, chorion and amnion-chorion membranes are one among these that serve the purpose because of their active components and therapeutic effects. This literature review highlights the benefits of placental extracts in regenerative periodontal therapy.

A0029 - Dehydrated human amnion-chorion membranes can ameliorate interstitial cystitis in rats by down-regulating inflammatory cytokines and protein coding genes

A0029 - Dehydrated human amnion-chorion membranes can ameliorate interstitial cystitis in rats by down-regulating inflammatory cytokines and protein coding genes