Khanh Bui scite author profile

IntroductionAdipose-derived stem cells (ADSCs) have been isolated, expanded, and applied in the treatment of many diseases. ADSCs have also been used to treat injured articular cartilage. However, there is controversy regarding the treatment efficiency. We considered that ADSC transplantation with activated platelet-rich plasma (PRP) may improve injured articular cartilage compared with that of ADSC transplantation alone. In this study, we determined the role of PRP in ADSC transplantation to improve the treatment efficiency.MethodsADSCs were isolated and expanded from human adipose tissue. PRP was collected and activated from human peripheral blood. The effects of PRP were evaluated in vitro and in ADSC transplantation in vivo. In vitro, the effects of PRP on ADSC proliferation, differentiation into chondrogenic cells, and inhibition of angiogenic factors were investigated at three concentrations of PRP (10%, 15% and 20%). In vivo, ADSCs pretreated with or without PRP were transplanted into murine models of injured articular cartilage.ResultsPRP promoted ADSC proliferation and differentiation into chondrogenic cells that strongly expressed collagen II, Sox9 and aggrecan. Moreover, PRP inhibited expression of the angiogenic factor vascular endothelial growth factor. As a result, PRP-pretreated ADSCs improved healing of injured articular cartilage in murine models compared with that of untreated ADSCs.ConclusionPretreatment of ADSCs with PRP is a simple method to efficiently apply ADSCs in cartilage regeneration. This study provides an important step toward the use of autologous ADSCs in the treatment of injured articular cartilage.

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Adjunctive Lanicemine (AZD6765) in Patients with Major Depressive Disorder and History of Inadequate Response to Antidepressants: A Randomized, Placebo-Controlled Study

Sanacora

Johnson²,

Khan

et al. 2016

Neuropsychopharmacol

106

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The objective of this study was to investigate the efficacy and safety of adjunctive lanicemine (NMDA channel blocker) in the treatment of major depressive disorder (MDD) over 12 weeks. This phase IIb, randomized, parallel-arm, double-blind, placebo-controlled study was conducted at 49 centers in four countries between December 2011 and August 2013 in 302 patients aged 18–70 years, meeting criteria for single episode or recurrent MDD and with a history of inadequate treatment response. Patients were required to be taking an allowed antidepressant for at least four weeks prior to screening. Patients were randomized equally to receive 15 double-blind intravenous infusions of adjunctive lanicemine 50 mg, lanicemine 100 mg, or saline over a 12-week course, in addition to ongoing antidepressant. The primary efficacy end point was change in Montgomery-Åsberg Depression Rating Scale (MADRS) total score from baseline to week 6. Secondary efficacy outcome variables included change in MADRS score from baseline to week 12, response and remission rates, and changes in Clinical Global Impression scale, Quick Inventory of Depressive Symptomology Self-Report score, and Sheehan Disability Scale score. Of 302 randomized patients, 240 (79.5%) completed treatment. Although lanicemine was generally well tolerated, neither dose was superior to placebo in reducing depressive symptoms on the primary end point or any secondary measures. There was no significant difference between lanicemine and placebo treatment on any outcome measures related to MDD. Post hoc analyses were performed to explore the possible effects of trial design and patient characteristics in accounting for the contrasting results with a previously reported trial.

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Conditions that promote primary human skeletal myoblast culture and muscle differentiation in vitro

Cheng

El-Abd

Bui

et al. 2014

American Journal of Physiology-Cell Physiology

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Conditions under which skeletal myoblasts are cultured in vitro are critical to growth and differentiation of these cells into mature skeletal myofibers. We examined several culture conditions that promoted human skeletal myoblast (HSkM) culture and examined the effect of microRNAs and mechanical stimulation on differentiation. Culture conditions for HSkM are different from those that enable rapid C2C12 myoblast differentiation. Culture on a growth factor-reduced Matrigel (GFR-MG)-coated surface in 2% equine serum-supplemented differentiation medium to promote HSkM differentiation under static conditions was compared with culture conditions used for C2C12 cell differentiation. Such conditions led to a Ͼ20-fold increase in myogenic miR-1, miR-133a, and miR-206 expression, a Ͼ2-fold increase in myogenic transcription factor Mef-2C expression, and an increase in sarcomeric ␣-actinin protein. Imposing Ϯ10% cyclic stretch at 0.5 Hz for 1 h followed by 5 h of rest over 2 wk produced a Ͼ20% increase in miR-1, miR-133a, and miR-206 expression in 8% equine serum and a Ͼ35% decrease in 2% equine serum relative to static conditions. HSkM differentiation was accelerated in vitro by inhibition of proliferationpromoting miR-133a: immunofluorescence for sarcomeric ␣-actinin exhibited accelerated development of striations compared with the corresponding negative control, and Western blotting showed 30% more ␣-actinin at day 6 postdifferentiation. This study showed that 100 g/ml GFR-MG coating and 2% equine serum-supplemented differentiation medium enhanced HSkM differentiation and myogenic miR expression and that addition of antisense miR-133a alone can accelerate primary human skeletal muscle differentiation in vitro. skeletal muscle; microRNA; myogenesis; differentiation; tissue engineering THE DYNAMICS OF PRIMARY HUMAN skeletal myoblast (HSkM) growth and differentiation into mature myofibers are critical to their use for applications in regenerative medicine, such as repair of severe muscle injuries, congenital defects, and muscular dystrophy. Most studies have focused on rodent myoblasts, and the bulk of the research has been carried out with the widely used immortalized murine C2C12 myoblast line, which is used for ease of culture, differentiation potential, and accessibility (7). Culture conditions for these cells have been optimized to ensure rapid growth and effective differentiation in vitro. These cells do not require protein-coated substrates and differentiate well in a range of equine serum-supplemented differentiation media (DM) (14,24,28,29,32). While C2C12 cells have provided invaluable information about key mechanistic steps in differentiation (31), extensive in vitro cultivation may lead to deviations from normal biological processes that are important for differentiation of myoblasts in a normal in vivo environment. Less is known about the dynamics of key differentiation factors in primary human myoblasts and how culture conditions affect the changes in these factors (3).In vitro, rodent myoblast differentiati...

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Development of physiologically based pharmacokinetic model to evaluate the relative systemic exposure to quetiapine after administration of IR and XR formulations to adults, children and adolescents

Johnson

Zhou

Bui

2014

Biopharm & Drug Disp

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Quetiapine is an atypical antipsychotic drug with a high permeability, moderate solubility and defined as a Biopharmaceutics Classification System class ll compound. The pharmacokinetics (PK) of the quetiapine immediate-release (IR) formulation has been studied in both adults and children, but the quetiapine extended-release (XR) formulation has only been conducted in adults. The purpose of the current study was to use physiologically based pharmacokinetic modeling (PBPK) quantitatively to predict the PK of the XR formulation in children and adolescents. Using a 'learn and confirm' approach, PBPK models were developed employing in vitro ADME and physicochemical data, clinical PK data of quetiapine IR/XR in adults and clinical PK data of quetiapine IR in children. These models can predict well the effects of CYP3A4 inhibition and induction on the PK of quetiapine, the PK profile of quetiapine IR in children and adults, and the PK profile of quetiapine XR in adults. The AUC and Cmax ratios (children vs adults) for the different age groups were in reasonable agreement with the observed ratios. In addition, the PBPK model predicted that children and adolescents are likely to achieve a similar exposure following administration of either the XR formulation once daily or the IR formulation twice daily at similar total daily doses. The results from the study can help inform dosing regimens in pediatrics using the quetiapine XR formulation.

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Khanh Bui

Activated platelet-rich plasma improves adipose-derived stem cell transplantation efficiency in injured articular cartilage

Adjunctive Lanicemine (AZD6765) in Patients with Major Depressive Disorder and History of Inadequate Response to Antidepressants: A Randomized, Placebo-Controlled Study

Conditions that promote primary human skeletal myoblast culture and muscle differentiation in vitro

Development of physiologically based pharmacokinetic model to evaluate the relative systemic exposure to quetiapine after administration of IR and XR formulations to adults, children and adolescents

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