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1. Skeletogenic Capacity of Human Perivascular Stem Cells Obtained Via Magnetic-Activated Cell Sorting

Author

Meyers, Carolyn A, Xu, Jiajia, Zhang, Leititia, Chang, Leslie, Wang, Yiyun, Asatrian, Greg, Ding, Catherine, Yan, Noah, Zou, Erin, Broderick, Kristen, Lee, Min, Peault, Bruno, and James, Aaron W

Subjects
Engineering, Biomedical Engineering, Stem Cell Research - Nonembryonic - Human, Regenerative Medicine, Stem Cell Research, Adipose Tissue, Adult, Antigens, CD34, Biomarkers, Cell Differentiation, Cell Lineage, Cell Separation, Humans, Magnetic Phenomena, Osteogenesis, Skull, Stem Cells, Wound Healing, mesenchymal stromal cell, mesenchymal stem cell, bone tissue engineering, bone regeneration, magnetic activated cell sorting, MACS, Biochemistry and Cell Biology, Materials Engineering, Biomedical engineering
Abstract

Human perivascular stem/stromal cells (PSC) are a multipotent mesenchymal progenitor cell population defined by their perivascular residence. PSC are increasingly studied for their application in skeletal regenerative medicine. PSC from subcutaneous white adipose tissue are most commonly isolated via fluorescence-activated cell sorting (FACS), and defined as a bipartite population of CD146+CD34-CD31-CD45- pericytes and CD34+CD146-CD31-CD45- adventitial cells. FACS poses several challenges for clinical translation, including requirements for facilities, equipment, and personnel. The purpose of this study is to identify if magnetic-activated cell sorting (MACS) is a feasible method to derive PSC, and to determine if MACS-derived PSC are comparable to our previous experience with FACS-derived PSC. In brief, CD146+ pericytes and CD34+ adventitial cells were enriched from human lipoaspirate using a multistep column approach. Next, cell identity and purity were analyzed by flow cytometry. In vitro multilineage differentiation studies were performed with MACS-defined PSC subsets. Finally, in vivo application was performed in nonhealing calvarial bone defects in Scid mice. Results showed that human CD146+ pericytes and CD34+ adventitial cells may be enriched by MACS, with defined purity, anticipated cell surface marker expression, and capacity for multilineage differentiation. In vivo, MACS-derived PSC induce ossification of bone defects. These data document the feasibility of a MACS approach for the enrichment and application of PSC in the field of tissue engineering and regenerative medicine. Impact Statement Our findings suggest that perivascular stem/stromal cells, and in particular adventitial cells, may be isolated by magnetic-activated cell sorting and applied as an uncultured autologous stem cell therapy in a same-day setting for bone defect repair.

Published
2019

2. Rate of motor progression in Parkinson's disease: a systematic review and meta-analysis.

Author

Pauwels, Ayla, Phan, Albert L. G., Ding, Catherine, Phan, Thanh G., and Kempster, Peter A.

Subjects
PARKINSON'S disease, DOPAMINE agents, SERIAL publications, DOPA, AGE differences
Abstract

Background: The search for neuroprotective treatments for Parkinson's disease (PD) still relies largely on motor disability scales. A limitation of these tools is the strong influence of symptomatic dopaminergic treatment effects. Drawing on a wealth of published information, we conducted a systematic review and meta-analysis of motor progression in PD and its relationships with dopaminergic therapy. Methods: We searched Medline, Embase, and Central to identify 84 publications with adequate serial motor scores to calculate progression, expressed as an increase in the percentage of maximum disability. Results: A random-effects model showed motor progression at 2.0% p.a. (95% CI 1.7–2.4%). There were no significant differences by baseline age, sample size, or observation period. However, untreated patients, in 8 publications, progressed at 4.5% p.a. compared to 1.6% p.a. in 76 studies containing individuals on dopaminergic drugs (p = 0.0004, q = 0.003). This was supported by research on phenoconversion in prodromal PD, where motor progression exceeded 5% p.a. in the 2 years before diagnosis. Starting levodopa improved pre-treatment disability by 40.3 ± 15.2%. Practically defined off state measurements increase faster than on scores by a modest degree (p = 0.05). Conclusion: This survey suggests that accurate long-term measurements of motor progression to assess disease-modifying therapies can be conducted despite the sequential commencement of dopaminergic drugs and sample attrition over time. While study designs involving prodromal or untreated PD avoid confounding effects of symptomatic treatment, different assumptions about motor progression may be needed. A defined off state with the levodopa test dose method maximizes information about the medication cycle once dopaminergic therapy has begun. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Frontal Bone Healing Is Sensitive to Wnt Signaling Inhibition via Lentiviral-Encoded Beta-Catenin Short Hairpin RNA.

Author

Zhang, Lei, Chang, Leslie, Xu, Jiajia, Meyers, Carolyn Ann, Yan, Noah, Zou, Erin, Ding, Catherine, Ting, Kang, Soo, Chia, Pang, Shen, and James, Aaron W

Subjects
Wnt signaling, beta-catenin shRNA, bone healing, bone repair, calvaria, calvarial bone defect, intramembranous bone, membranous bone, osteogenesis, skull, Regenerative Medicine, Musculoskeletal, Biochemistry and Cell Biology, Biomedical Engineering, Materials Engineering
Abstract

The Wnt/β-catenin signaling pathway plays an integral role in skeletal biology, spanning from embryonic skeletal patterning through bone maintenance and bone repair. Most experimental methods to antagonize Wnt signaling in vivo are either systemic or transient, including genetic approaches, use of small-molecule inhibitors, or neutralizing antibodies. We sought to develop a novel, localized model of prolonged Wnt/β-catenin signaling blockade by the application and validation of a lentivirus encoding β-catenin short hairpin RNA (shRNA). Efficacy of lentiviral-encoded β-catenin shRNA was first confirmed in vitro using bone marrow mesenchymal stromal cells, and in vivo using an intramedullary long bone injection model in NOD SCID mice. Next, the effects of β-catenin knockdown were assessed in a calvarial bone defect model, in which the frontal bone demonstrates enhanced bone healing associated with heightened Wnt/β-catenin signaling. Lentivirus encoding either β-catenin shRNA or random sequence shRNA with enhanced green fluorescent protein (control) was injected overlying the calvaria of NOD SCID mice and bone defects were created in either the frontal or parietal bones. Among mice treated with lentivirus encoding β-catenin shRNA, frontal bone defect healing was significantly reduced by all radiographic and histologic metrics. In contrast, parietal bone healing was minimally impacted by β-catenin shRNA. In aggregate, our data document the application and validation of a lentivirus encoding β-catenin shRNA model that represents an easily replicable tool for examining the importance of locoregional Wnt/β-catenin signaling in bone biology and regeneration.

Published
2018

4. Early Immunomodulatory Effects of Implanted Human Perivascular Stromal Cells During Bone Formation.

Author

Meyers, Carolyn A, Xu, Jiajia, Zhang, Lei, Asatrian, Greg, Ding, Catherine, Yan, Noah, Broderick, Kristen, Sacks, Justin, Goyal, Raghav, Zhang, Xinli, Ting, Kang, Péault, Bruno, Soo, Chia, and James, Aaron W

Subjects
Bone Matrix, Cells, Immobilized, Mesenchymal Stem Cells, Animals, Humans, Mice, Mice, SCID, Cytokines, Mesenchymal Stem Cell Transplantation, Osteogenesis, Immunomodulation, Heterografts, MSC, PSC, immunomodulation, mesenchymal stem cell, mesenchymal stromal cell, perivascular stem cell, Regenerative Medicine, Transplantation, Stem Cell Research, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Biochemistry and Cell Biology, Biomedical Engineering, Materials Engineering
Abstract

Human perivascular stem/stromal cells (PSC) are a multipotent mesodermal progenitor cell population defined by their perivascular residence. PSC are most commonly derived from subcutaneous adipose tissue, and recent studies have demonstrated the high potential for clinical translation of this fluorescence-activated cell sorting-derived cell population for bone tissue engineering. Specifically, purified PSC induce greater bone formation than unpurified stroma taken from the same patient sample. In this study, we examined the differences in early innate immune response to human PSC or unpurified stroma (stromal vascular fraction [SVF]) during the in vivo process of bone formation. Briefly, SVF or PSC from the same patient sample were implanted intramuscularly in the hindlimb of severe combined immunodeficient (SCID) mice using an osteoinductive demineralized bone matrix carrier. Histological examination of early inflammatory infiltrates was examined by hematoxylin and eosin and immunohistochemical staining (Ly-6G, F4/80). Results showed significantly greater neutrophilic and macrophage infiltrates within and around SVF in comparison to PSC-laden implants. Differences in early postoperative inflammation among SVF-laden implants were associated with reduced osteogenic differentiation and bone formation. Similar findings were recapitulated with PSC implantation in immunocompetent mice. Exaggerated postoperative inflammation was associated with increased IL-1α, IL-1β, IFN-γ, and TNF-α gene expression among SVF samples, and conversely increased IL-6 and IL-10 expression among PSC samples. These data document a robust immunomodulatory effect of implanted PSC, and an inverse correlation between host inflammatory cell infiltration and stromal progenitor cell-mediated ossification.

Published
2018

7. The Implication of Substance P in the Development of Tendinopathy: A Case Control Study.

Author

Han, Soo-Hong, Choi, Wonchul, Song, Jiye, Kim, Jaehee, Lee, Seungyong, Choi, Youngrak, Byun, Seong-Eun, Ahn, Taekeun, Ahn, Heejung, Ding, Catherine, Baik, Lloyd, Ward, Spencer, Ting, Kang, and Lee, Soonchul

Subjects
Tendons, Cells, Cultured, Humans, Substance P, RNA, Messenger, Gene Expression Profiling, Cell Proliferation, Cell Survival, Gene Expression Regulation, Tendinopathy, Biomarkers, pathogenesis, substance P, tendinopathy, type 3 collagen, Chemical Physics, Other Chemical Sciences, Genetics, Other Biological Sciences
Abstract

It was reported that substance P had beneficial effects in the healing of acute tendon injury. However, the relationship between substance P and degenerative tendinopathy development remains unclear. The purpose of this study was to determine the role of substance P in the pathogenesis of tendinopathy. Healthy and tendinopathy tendon were harvested from human and tenocytes were cultured individually. The expression levels of genes associated with tendinopathy were compared. Next, substance P was exogenously administered to the healthy tenocyte and the effect was evaluated. The results showed that tendinopathy tenocytes had higher levels of COL3A1, MMP1, COX2, SCX, ACTA2, and substance P gene expression compared to healthy tenocytes. Next, substance P treatment on the healthy tenocyte displayed similar changes to that of the tendinopathy tenocytes. These differences between the two groups were also determined by Western blot. Additionally, cells with substance P had the tendinopathy change morphologically although cellular proliferation was significantly higher compared to that of the control group. In conclusion, substance P enhanced cellular proliferation, but concomitantly increased immature collagen (type 3 collagen). Substance P plays a crucial role in tendinopathy development and could be a future therapeutic target for treatment.

Published
2017

14. Stability of skeletal, alveolar, and dental components in microimplant-supported Midfacial Skeletal Expander (MSE) expansion

Author

Ding, Catherine

Subjects
Dentistry, expansion, MARPE, MSE, orthodontics, Stability
Abstract

Maxillary transverse deficiency is one of the most common skeletal problems in the craniofacial region. Rapid palatal expansion (RPE) has been the preferred standard treatment when transverse deficit is present, especially in young patients. While the main goal of RPE is to split the midpalatal suture, the circum-maxillary sutures are also affected and alveolar bone bending, and dental tipping are common. The desire is to produce a greater skeletal effect than dentoalveolar side-effects; however, the latter are commonly expressed in substantive magnitude. In order to assess skeletal expansion, alveolar bone bending and dental tipping after maxillary expansion, linear and angular measurements has been performed utilizing different craniofacial references. Since the expansion with Midfacial Skeletal Expander (MSE) is archial in nature, the aim of this paper is to quantify the differential components of MSE expansion using an angular measurement system described in a previous study, and assessing the stability of each component after orthodontic treatment. Methods: A total of fourteen subjects with a mean age of 20.4 � 3.5 years were treated with MSE. Pre-expansion (T0), post-expansion (T1), and post-treatment (T2) CBCT records were superimposed and compared. Based on methods in a previous study, the rotational fulcrum of the zygomaticomaxillary complex were identified and angular measurements were generated to assess changes of the zygomaticomaxillary complex (skeletal expansion), dentoalveolar bone (alveolar bone bending), and maxillary first molars (dental tipping). The stability of all three components after orthodontic treatment were also assessed by comparing measurements between post-expansion and post-treatment. Results: Immediately following MSE expansion, angular measurements showed that skeletal expansion accounted for 87.50% and 88.56% of total expansion, alveolar bone bending for 7.09% and 5.23%, and dental tipping for 5.41% and 6.21% on the right and left sides, respectively. At the end of orthodontic treatment, data showed that skeletal expansion relapsed by 11.20% and 13.28% on the right and left sides, respectively. Changes in alveolar bone bending and dental tipping between post-expansion and post-treatment varied greatly due to orthodontic dental decompensation after expansion. Conclusions: Maxillary skeletal expansion using the microimplant-supported Midfacial Skeletal Expander (MSE) produces mainly skeletal changes with insignificant dentoalveolar changes immediately after expansion. In the long term, the majority of the skeletal expansion was maintained. Long-term dentoalveolar changes were in the magnitude of 300-1500% in the opposite direction, induced by orthodontic decompensation of the pre-existing dental compensation. However, net gains in the intermolar width were maintained despite these changes due to the long-term stability of skeletal expansion.

Published
2021

30. Risk of psychosis in Yorkshire South Asians

Author

Saleem, Majid, primary, Brewin, Anita, additional, Ding, Catherine, additional, Nazar, Qadeer, additional, Robinson, Julie, additional, Hosalli, Prakash, additional, Nazari, Jamshid, additional, Garnham, Mark, additional, Inglehearn, Chris F, additional, Cardno, Alastair G, additional, and Mahmood, Tariq, additional

Published
2019
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32. Heterotopic Ossification: A Comprehensive Review

Author

Meyers, Carolyn, primary, Lisiecki, Jeffrey, additional, Miller, Sarah, additional, Levin, Adam, additional, Fayad, Laura, additional, Ding, Catherine, additional, Sono, Takashi, additional, McCarthy, Edward, additional, Levi, Benjamin, additional, and James, Aaron W, additional

Published
2019
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34. Effects of WNT3A and WNT16 on the Osteogenic and Adipogenic Differentiation of Perivascular Stem/Stromal Cells

Author

Shen, Jia, primary, Chen, Xuepeng, additional, Jia, Haichao, additional, Meyers, Carolyn A., additional, Shrestha, Swati, additional, Asatrian, Greg, additional, Ding, Catherine, additional, Tsuei, Rebecca, additional, Zhang, Xinli, additional, Peault, Bruno, additional, Ting, Kang, additional, Soo, Chia, additional, and James, Aaron W., additional

Published
2018
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37. Isolation and characterization of canine perivascular stem/stromal cells for bone tissue engineering

Author

James, Aaron W., primary, Zhang, Xinli, additional, Crisan, Mihaela, additional, Hardy, Winters R., additional, Liang, Pei, additional, Meyers, Carolyn A., additional, Lobo, Sonja, additional, Lagishetty, Venu, additional, Childers, Martin K., additional, Asatrian, Greg, additional, Ding, Catherine, additional, Yen, Yu-Hsin, additional, Zou, Erin, additional, Ting, Kang, additional, Peault, Bruno, additional, and Soo, Chia, additional

Published
2017
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41. Frontal Bone Healing Is Sensitive to Wnt Signaling Inhibition via Lentiviral-Encoded Beta-CateninShort Hairpin RNA

Author

Zhang, Lei, Chang, Leslie, Xu, Jiajia, Meyers, Carolyn Ann, Yan, Noah, Zou, Erin, Ding, Catherine, Ting, Kang, Soo, Chia, Pang, Shen, and James, Aaron W.

Abstract

The Wnt/β-catenin signaling pathway plays an integral role in skeletal biology, spanning from embryonic skeletal patterning through bone maintenance and bone repair. Most experimental methods to antagonize Wnt signaling in vivoare either systemic or transient, including genetic approaches, use of small-molecule inhibitors, or neutralizing antibodies. We sought to develop a novel, localized model of prolonged Wnt/β-catenin signaling blockade by the application and validation of a lentivirus encoding β-cateninshort hairpin RNA (shRNA). Efficacy of lentiviral-encoded β-cateninshRNA was first confirmed in vitrousing bone marrow mesenchymal stromal cells, and in vivousing an intramedullary long bone injection model in NOD SCID mice. Next, the effects of β-cateninknockdown were assessed in a calvarial bone defect model, in which the frontal bone demonstrates enhanced bone healing associated with heightened Wnt/β-catenin signaling. Lentivirus encoding either β-cateninshRNA or random sequence shRNA with enhanced green fluorescent protein (control) was injected overlying the calvaria of NOD SCID mice and bone defects were created in either the frontal or parietal bones. Among mice treated with lentivirus encoding β-cateninshRNA, frontal bone defect healing was significantly reduced by all radiographic and histologic metrics. In contrast, parietal bone healing was minimally impacted by β-cateninshRNA. In aggregate, our data document the application and validation of a lentivirus encoding β-cateninshRNA model that represents an easily replicable tool for examining the importance of locoregional Wnt/β-catenin signaling in bone biology and regeneration.

Published
2018
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44. Wearable Accelerometer and Gyroscope Sensors for Estimating the Severity of Essential Tremor.

Author

Ali SM, Arjunan SP, Peter J, Perju-Dumbrava L, Ding C, Eller M, Raghav S, Kempster P, Motin MA, Radcliffe PJ, and Kumar DK

Subjects
Humans, Tremor, Acceleration, Accelerometry, Essential Tremor diagnosis, Wearable Electronic Devices
Abstract

Background: Several validated clinical scales measure the severity of essential tremor (ET). Their assessments are subjective and can depend on familiarity and training with scoring systems., Method: We propose a multi-modal sensing using a wearable inertial measurement unit for estimating scores on the Fahn-Tolosa-Marin tremor rating scale (FTM) and determine the classification accuracy within the tremor type. 17 ET participants and 18 healthy controls were recruited for the study. Two movement disorder neurologists who were blinded to prior clinical information viewed video recordings and scored the FTM. Participants drew a guided Archimedes spiral while wearing an inertial measurement unit placed at the mid-point between the lateral epicondyle of the humerus and the anatomical snuff box. Acceleration and gyroscope recordings were analyzed. The ratio of the power spectral density between frequency bands 0.5-4 Hz and 4-12 Hz, and the sum of power spectrum density over the entire spectrum of 2-74 Hz, for both accelerometer and gyroscope data, were computed. FTM was estimated using regression model and classification using SVM was validated using the leave-one-out method., Results: Regression analysis showed a moderate to good correlation when individual features were used, while correlation was high ([Formula: see text] = 0.818) when suitable features of the gyro and accelerometer were combined. The accuracy for two-class classification of the combined features using SVM was 91.42% while for four-class it was 68.57%., Conclusion: Potential applications of this novel wearable sensing method using a wearable Inertial Measurement Unit (IMU) include monitoring of ET and clinical trials of new treatments for the disorder., (© 2023 The Authors.)

Published
2023
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45. Leuprolide acetate-induced generalized papular eruption.

Author

Burris K, Ding CY, and Lim GF

Subjects
Aged, Antineoplastic Agents, Hormonal administration & dosage, Drug Eruptions pathology, Humans, Leuprolide administration & dosage, Male, Prostatic Neoplasms drug therapy, Antineoplastic Agents, Hormonal adverse effects, Drug Eruptions etiology, Leuprolide adverse effects
Abstract

Leuprolide acetate, a gonadotropin-releasing hormone agonist, is used in the treatment of prostate cancer. We report a unique case of a disseminated papular rash following leuprolide acetate injections in a 65-year-old man that shares clinical and histopathological features of papuloerythroderma of Ofuji. Leuprolide-induced papuloerythroderma, as well as a limited number of other disseminated cutaneous eruptions caused by this drug, is extremely rare, with only one case previously reported. Our case calls attention to this uncommon side effect in a commonly used hormonal therapy.

Published
2014

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