Browsing by Subject "hydroxyapatite"

Now showing 1 - 4 of 4
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    Effect of HA-coating and HF etching on experemental zirconia implant evaluation using in vivo rabbit model
    (2010) Huang, Sung-En; Chu, Tien-Min Gabriel; John, Vanchit (Vanchit Kurien), 1965-; Kowolik, Michael J.; Zunt, Susan L., 1951-; Blanchard, Steven B.
    The objective of this study was to evaluate the in vivo performance of the hydroxyapatite (HA) coating and hydrofluoric acid (HF) etching zirconia (ZrO) implants and to compare the result with titanium (Ti) implants treated in a similar manner. A total of four different implant types were tested in this study. Threaded zirconia implants with HA coating (Test 1) and zirconia implants with HF-treated surfaces (Test 2) were used to compare to the same size of titanium implants treated in identical fashion (control 1 and control 2). All implants measured about 3.5 mm at the thread diameter and 7.0 mm in total length. Each rabbit received two zirconia and two titanium implants treated in the same manner (either HA-coated or HF-etched). The samples were implanted into the rabbit tibias and retrieved at 6 weeks. Upon retrieval, 24 specimens (6 samples for each group) were fixed and dehydrated. The samples were then embedded undecalcified in PMMA for histomorphometry to quantify the bone-to-implant contact (BIC). Another 24 samples were kept in 0.9% saline and were evaluated using removal torque (RT) analysis to assess the strength of the implant-to-bone interface. The histomorphometric examination demonstrated direct bone-to-implant contact for all four groups. HA particle separation from the implants surface was seen in a majority of the HA-coated samples. No signs of inflammation or foreign body reaction were found during examination. Due to the HA particle smear contamination in the ZrO-HA group, no data was collected in this group. The mean BIC at the first three threads of the Ti-HA, Ti-HF and ZrO-HF were 57.78±18.22%, 46.41±14.55% and 47.41±14.05%, respectively. No statistically significant difference was found pair-wise among these three groups. When comparing the BIC data with the machined-surface implants, a statistically significant difference was found between the Ti-HA versus Ti implant group and the Ti-HF versus Ti implant group. The mean bone area (BA) at the first three threads for Ti-HA, Ti-HF and ZrO-HF showed statistically significant difference (p<0.05) between the ZrO-HF and Ti-HA groups, favoring the ZrO-HF group. The value of the peak removal force could only be collected from the Ti-HA group during the removal torque test. The mean RT value for the Ti-HA group was 24.39±2.58 Ncm. When comparing the RT result with our pilot study using machined-surface implants, the Ti-HA group showed statistically significant (p<0.05) higher values than the machined-surface Ti implants. The result of this study proves the in vivo biocompatibility of all four implant types tested. In the three measurable implant groups, the histomorphologic analysis showed comparable osseointegration properties in this animal model.
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    The Effects of Nano-Hydroxyapatite in a Double Antibiotic Paste-Loaded Methycellulose Carrier on Dental Pulp Stem Cells
    (2019) Everhart, Adam R.; Spolnik, Kenneth J.; Bruzzaniti, Angela; Bringas, Josef S.; Ehrlich, Ygal; Gregory, Richard L.
    The effects of hydroxyapatite in a DAP-loaded MC carrier on dental pulp stem cells Introduction: Regenerative endodontic procedures (REP) require disinfection techniques to eliminate bacteria from the infected immature root canal system and promote new growth of the pulp-dentin complex. Double antibiotic paste (DAP), a mixture of ciprofloxacin and metronidazole, has shown efficacy in doing so while minimizing cytotoxicity on dental pulp stem cells (DPSC). Stem cells, scaffolding, and growth factors are necessary in the maturation, proliferation, and differentiation of mesenchymal stem cells into the root canal system. Nano-hydroxyapatite (n-HA) has a history of biocompatibility and, in addition, has shown promising effects as a tissue bioengineering material. Objective: The aim of this in vitro study was to investigate the proliferation and mineralization of DPSC in the presence of 1% DAP and methylcellulose (MC) with varying concentrations of nano-hydroxyapatite. Materials and Methods: DPSC were plated in 24-well plates containing culture media. The next day, semi-permeable 0.1 mm Transwell chambers were inserted into the wells to separate the reservoirs for medicaments. Treatment paste composed of methylcellulose containing 1% DAP with either 0.25%, 0.50%, or 1.0% nano-hydroxyapatite was added along with culture media. Methylcellulose alone and calcium hydroxide (Ultracal) were used as control groups. After 3 days, cells were evaluated for cytotoxic effects using an MTS proliferation assay (n = 10, in triplicate). DPSCs were also cultured with these medicaments for 7 days in osteogenic media and evaluated for alkaline phosphatase (ALP) activity and mineralization activity (n = 13, in triplicate). Comparisons between groups for differences in mineralization, BSA, and ALP activity were performed using analysis of variance (ANOVA), with different variances allowed for each group and a random effect included in the model to account for correlation within each of the three trials. A simulation-based model was used to adjust for multiple comparisons. Results: Addition of n-HA treatment groups increased mineralization significantly greater than calcium hydroxide, with MC alone and MC+DAP+0.5% HA providing the greatest effect. Regarding ALP, all HA concentrations performed significantly greater than MC and DAP concentrations. Proliferation demonstrated similar metabolic activity in all experimental groups with few comparisons significant. Conclusion: The challenge in REPs is to maintain survival, and preferably promote the proliferation and development of DPSCs into the pulp-dentin complex with a consistent treatment outcome. The combination of DAP with hydroxyapatite may allow for both disinfection and improved mineralization and cellular differentiation. This contribution has shown significant ability to increase stem cell differentiation into an osteogenic lineage as well as calcium deposition, indicating end goal results of regenerative procedures.
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    Idiopathic hypercalciuria and formation of calcium renal stones
    (Nature Publishing group, 2016-09) Coe, Fredric L.; Worcester, Elaine M.; Evan, Andrew P.; Anatomy and Cell Biology, School of Medicine
    The most common presentation of nephrolithiasis is idiopathic calcium stones in patients without systemic disease. Most stones are primarily composed of calcium oxalate and form on a base of interstitial apatite deposits, known as Randall’s plaque. By contrast some stones are composed largely of calcium phosphate, as either hydroxyapatite or brushite (calcium monohydrogen phosphate), and are usually accompanied by deposits of calcium phosphate in the Bellini ducts. These deposits result in local tissue damage and might serve as a site of mineral overgrowth. Stone formation is driven by supersaturation of urine with calcium oxalate and brushite. The level of supersaturation is related to fluid intake as well as to the levels of urinary citrate and calcium. Risk of stone formation is increased when urine citrate excretion is <400 mg per day, and treatment with potassium citrate has been used to prevent stones. Urine calcium levels >200 mg per day also increase stone risk and often result in negative calcium balance. Reduced renal calcium reabsorption has a role in idiopathic hypercalciuria. Low sodium diets and thiazide-type diuretics lower urine calcium levels and potentially reduce the risk of stone recurrence and bone diseas
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    The impact of hydroxyapatite on alkaline phosphatase activity and mineral deposition of dental pulp stem cells using a double antibiotic paste loaded methylcellulose carrier
    (2020) Fischer, Benjamin I.; Bruzzaniti, Angela; Spolnik, Kenneth; Ehrlich, Ygal; Bringas, Josef; Gregory, Richard
    Introduction: Regenerative endodontic procedures (REPs) are a type of endodontic treatment aimed at replacing damaged tooth structures, including dentin and root structures, as well as cells of the pulp-dentin complex. Double antibiotic paste (DAP) has been shown to be efficacious in achieving disinfection of the root canal system while minimizing cytotoxicity to dental pulp stem cells (DPSCs). Hydroxyapatite (HA) is an extracellular, mineralized component of bone that has shown much promise as a scaffold in the field of regenerative medicine. Objective: The objective of this study was to evaluate the effects of HA in a DAP loaded methylcellulose (MC) carrier on the differentiation and mineral deposition of DPSC over time. Materials and Methods: DPSCs were plated in 24-well plates with culture media. The following day, semi-permeable 0.1 m chambers were inserted into the wells to separate the reservoirs and permit delivery of medicaments. 100 L treatment paste composed of MC with 1% DAP and either 0.5% or 1.0% nano-HA was added, followed by additional culture media. After 3 days of treatment, medicaments were removed and DPSCs were cultured for an additional 9 days with replacement of media every 3-4 days. At Day 12, DPSCs were evaluated for alkaline phosphatase (ALP) activity using a biochemical assay and mineral deposition using an Alizarin Red S Ca2+ staining assay (4 wells/group). Comparisons between groups were performed using one-way analysis of variance (ANOVA) with a 5% significance level used for all tests. Results: A trend towards increased ALP and mineral deposition activity was noted among the groups with HA added to DAP with MC. Although these trends were not statistically significant, a trend towards increased ALP and mineral deposition was observed after 3-day medicament exposure. The results were similar to previous findings using 7-day medicament treatments. Conclusion: The addition of HA showed a trend towards improved differentiation and mineral deposition of DPSCs compared to DAP with MC. Although additional studies are required, these results showed suggest that even with a shortened treatment time, increased differentiation and mineral deposition of DPSCs may be possible. This study provides additional support that low concentration DAP in a MC carrier has potential application in regenerative endodontic procedures. The novel addition of HA may provide additional osteogenic potential.