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1. Bone Marrow Concentrate

Author

Murphy, Matthew B., Atluri, Sairam, Boddu, Navneet, Navani, Annu, editor, Atluri, Sairam, editor, Sanapati, Mahendra, editor, and Manchikanti, Laxmaiah, Editor-in-Chief

Published
2024
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5. Highly Reactive Isolevuglandins Promote Atrial Fibrillation Caused by Hypertension

Author

Prinsen, Joseph K., Kannankeril, Prince J., Sidorova, Tatiana N., Yermalitskaya, Liudmila V., Boutaud, Olivier, Zagol-Ikapitte, Irene, Barnett, Joey V., Murphy, Matthew B., Subati, Tuerdi, Stark, Joshua M., Christopher, Isis L., Jafarian-Kerman, Scott R., Saleh, Mohamed A., Norlander, Allison E., Loperena, Roxana, Atkinson, James B., Fogo, Agnes B., Luther, James M., Amarnath, Venkataraman, Davies, Sean S., Kirabo, Annet, Madhur, Meena S., Harrison, David G., and Murray, Katherine T.

Published
2020
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8. LNK/SH2B3 loss of function increases susceptibility to murine and human atrial fibrillation.

Author

Murphy, Matthew B, Yang, Zhenjiang, Subati, Tuerdi, Farber-Eger, Eric, Kim, Kyungsoo, Blackwell, Daniel J, Fleming, Matthew R, Stark, Joshua M, Amburg, Joseph C Van, Woodall, Kaylen K, Beusecum, Justin P Van, Agrawal, Vineet, Smart, Charles D, Pitzer, Ashley, Atkinson, James B, Fogo, Agnes B, Bastarache, Julie A, Kirabo, Annet, Wells, Quinn S, and Madhur, Meena S

Subjects
*ATRIAL fibrillation, *ACTION potentials, *ADAPTOR proteins, *STROKE, *ATRIUMS (Architecture)
Abstract

Aims The lymphocyte adaptor protein (LNK) is a negative regulator of cytokine and growth factor signalling. The rs3184504 variant in SH2B3 reduces LNK function and is linked to cardiovascular, inflammatory, and haematologic disorders, including stroke. In mice, deletion of Lnk causes inflammation and oxidative stress. We hypothesized that Lnk−/− mice are susceptible to atrial fibrillation (AF) and that rs3184504 is associated with AF and AF-related stroke in humans. During inflammation, reactive lipid dicarbonyls are the major components of oxidative injury, and we further hypothesized that these mediators are critical drivers of the AF substrate in Lnk−/− mice. Methods and results Lnk−/− or wild-type (WT) mice were treated with vehicle or 2-hydroxybenzylamine (2-HOBA), a dicarbonyl scavenger, for 3 months. Compared with WT, Lnk−/− mice displayed increased AF duration that was prevented by 2-HOBA. In the Lnk−/− atria, action potentials were prolonged with reduced transient outward K+ current, increased late Na+ current, and reduced peak Na+ current, pro-arrhythmic effects that were inhibited by 2-HOBA. Mitochondrial dysfunction, especially for Complex I, was evident in Lnk−/− atria, while scavenging lipid dicarbonyls prevented this abnormality. Tumour necrosis factor-α (TNF-α) and interleukin-1 beta (IL-1β) were elevated in Lnk−/− plasma and atrial tissue, respectively, both of which caused electrical and bioenergetic remodelling in vitro. Inhibition of soluble TNF-α prevented electrical remodelling and AF susceptibility, while IL-1β inhibition improved mitochondrial respiration but had no effect on AF susceptibility. In a large database of genotyped patients, rs3184504 was associated with AF, as well as AF-related stroke. Conclusion These findings identify a novel role for LNK in the pathophysiology of AF in both experimental mice and humans. Moreover, reactive lipid dicarbonyls are critical to the inflammatory AF substrate in Lnk−/− mice and mediate the pro-arrhythmic effects of pro-inflammatory cytokines, primarily through electrical remodelling. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Myeloid Cell Derived IL1β Contributes to Pulmonary Hypertension in HFpEF

Author

Agrawal, Vineet, primary, Kropski, Jonathan A., additional, Gokey, Jason J., additional, Kobeck, Elizabeth, additional, Murphy, Matthew B., additional, Murray, Katherine T., additional, Fortune, Niki L., additional, Moore, Christy S., additional, Meoli, David F., additional, Monahan, Ken, additional, Ru Su, Yan, additional, Blackwell, Thomas, additional, Gupta, Deepak K., additional, Talati, Megha H., additional, Gladson, Santhi, additional, Carrier, Erica J., additional, West, James D., additional, and Hemnes, Anna R., additional

Published
2023
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11. Isolevuglandins Promote Mitochondrial Dysfunction and Electrophysiologic Abnormalities in Atrial Cardiomyocytes.

Author

Subati, Tuerdi, Yang, Zhenjiang, Murphy, Matthew B., Stark, Joshua M., Trykall, David Z., Davies, Sean S., Barnett, Joey V., and Murray, Katherine T.

Subjects
ATRIAL fibrillation, ACTION potentials, MITOCHONDRIA, ARRHYTHMIA, MITOCHONDRIAL DNA, REACTIVE oxygen species, LUMINESCENCE measurement
Abstract

Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia, yet the cellular and molecular mechanisms underlying the AF substrate remain unclear. Isolevuglandins (IsoLGs) are highly reactive lipid dicarbonyl products that mediate oxidative stress-related injury. In murine hypertension, the lipid dicarbonyl scavenger 2-hydroxybenzylamine (2-HOBA) reduced IsoLGs and AF susceptibility. We hypothesized that IsoLGs mediate detrimental pathophysiologic effects in atrial cardiomyocytes that promote the AF substrate. Using Seahorse XFp extracellular flux analysis and a luminescence assay, IsoLG exposure suppressed intracellular ATP production in atrial HL-1 cardiomyocytes. IsoLGs caused mitochondrial dysfunction, with reduced mitochondrial membrane potential, increased mitochondrial reactive oxygen species (ROS) with protein carbonylation, and mitochondrial DNA damage. Moreover, they generated cytosolic preamyloid oligomers previously shown to cause similar detrimental effects in atrial cells. In mouse atrial and HL-1 cells, patch clamp experiments demonstrated that IsoLGs rapidly altered action potentials (AP), implying a direct effect independent of oligomer formation by reducing the maximum Phase 0 upstroke slope and shortening AP duration due to ionic current modifications. IsoLG-mediated mitochondrial and electrophysiologic abnormalities were blunted or totally prevented by 2-HOBA. These findings identify IsoLGs as novel mediators of oxidative stress-dependent atrial pathophysiology and support the investigation of dicarbonyl scavengers as a novel therapeutic approach to prevent AF. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Myeloid Cell-Derived IL1β Contributes to Pulmonary Vascular Remodeling in Heart Failure with Preserved Ejection Fraction

Author

Agrawal, Vineet, primary, Kropski, Jonathan A, additional, Gokey, Jason J, additional, Kobeck, Elizabeth, additional, Murphy, Matthew B, additional, Murray, Katherine T, additional, Fortune, Niki L, additional, Moore, Christy S, additional, Meoli, David F, additional, Monahan, Kenneth, additional, Su, Yan Ru, additional, Blackwell, Thomas, additional, Gupta, Deepak K, additional, Talati, Megha H, additional, Carrier, Erica J, additional, West, James D, additional, and Hemnes, Anna R, additional

Published
2023
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24. Transitional justice and democratic consolidation in Eastern Europe

Author

Murphy, Matthew B.

Subjects
Dissertations, Academic Political science. (Discipline) UCSD, Post-communism History Germany, Transitional justice Government policy History Germany, Human rights Government policy History Germany, Democratization History Germany, Post-communism History Poland, Transitional justice Government policy History Poland, Human rights Government policy History Poland, Democratization History Poland
Abstract

The primary question in this dissertation concerns the relationship between transitional justice policies and democratic consolidation. It is often assumed that transitional justice will have a positive impact on consolidation, but this is rarely examined or empirically tested. The goals of this dissertation are twofold, to contribute to the empirical investigation of transitional justice effects and to refine our understanding of how these effects happen. Accordingly, among the aspects of transitional justice policies investigated here are initial policy choice and intensity, as well as variation in the policies' procedural characteristics. Using evidence from criminal prosecution and political screening policies in post-communist Germany and Poland, this dissertation first argues that a wide range of transitional justice policies is compatible with democratic consolidation. Second, in developing a framework for how to study the effects of transitional justice policies it assesses the roles of intensity versus procedural variables (including the criteria for evaluation and institutional capacity). Their effects are disaggregated into three categories: membership, educational, and symbolic. Evidence from Germany and Poland shows that variations in these three categories of effects were more the result of procedural factors than of the intensity of transitional justice. More specifically, high intensity of criminal trials and screening is necessary but not sufficient to produce extensive punishments and/or dismissals. Variations in intensity establish the range of potential exclusions, but the actual magnitude and distribution of membership effects is determined by the criteria used for evaluating subjects and the capacity of implementing institutions. Moreover, criteria and institutional capacity consistent with democratic rule of law norms are likely to reduce the magnitude of exclusions. Intensity is not strongly related to educational effects, in particular the release of new information about the past regime, which are shaped instead by procedural factors. Intensity is one of several possible influences on symbolic effects of transitional justice policies, but only in combination with procedural variables, particularly criteria for evaluation and institutional capacity. In short, transitional justice policies have multifaceted and indirect effects that, within broad limits set by intensity, are likely to be determined by variations in the process of implementation

Published
2012

28. CONTRIBUTORS

Author

Ahlstrom, Jon D., primary, Altschuler, Richard A., additional, Amendola, A., additional, Anderson, David J., additional, Anversa, Piero, additional, Atala, Anthony, additional, Athanasiou, Kyriacos A., additional, Auger, François A., additional, Auguste, Debra T., additional, Bearzi, Claudia, additional, Becker, Daniel, additional, Bedoya, Francisco J., additional, Bell, Eugene, additional, Bertram, Timothy, additional, Besnard, Valérie, additional, Bettinger, Christopher J., additional, Bhatia, Sangeeta N., additional, Bianco, Paolo, additional, Bishop, Anne E., additional, Blackburn, C. Clare, additional, Bohrer, Michael P., additional, Bolli, Roberto, additional, Bonassar, Lawrence J., additional, Borenstein, Jeffrey T., additional, Boulton, Michael E., additional, Bradshaw, Amy D., additional, Brewster, Luke, additional, Brey, Eric M., additional, Brittan, Mairi, additional, Brown, T., additional, Bruder, Scott P., additional, Buckwalter, Joseph A., additional, Cannizzaro, Christopher, additional, Cao, Yilin, additional, Cathey, Lamont, additional, Chang, Thomas M.S., additional, Chang, Yunchao, additional, Chapman, Robert G., additional, Chen, Alice A., additional, Chen, Faye H., additional, Chen, Una, additional, Clark, Richard A.F., additional, Colton, Clark K., additional, Cowin, Stephen C., additional, Crystal, Ronald, additional, Dagnelie, Gislin, additional, Davidson, Jeffrey M., additional, Deuel, Thomas F., additional, Deweerd, Elizabeth, additional, Dressler, Gregory R., additional, Engelmayr, George C., additional, Erickson, Carol A., additional, Eschenhagen, Thomas, additional, Falanga, Vincent, additional, Faria, Katie, additional, Faustman, Denise L., additional, Fauza, Dario O., additional, Ferreira, Lino da Silva, additional, Fong, Hanson K., additional, Fong, Peter, additional, Freed, Lisa E., additional, Freshney, R.I., additional, Furth, Mark E., additional, Geesin, Jeffrey, additional, Gerecht, Sharon, additional, Germain, Lucie, additional, Ghosh, Kaustabh, additional, Giannobile, William V., additional, Goulet, Francine, additional, Grant, Maria B., additional, Grayson, Warren, additional, Greisler, Howard P., additional, Guilak, Farshid, additional, Halberstadt, Craig, additional, Harley, Brendan, additional, Hellman, Kiki B., additional, Hmadcha, Abdelkrim, additional, Hodges, Steve J., additional, Holder, Walter D., additional, Holy, Chantal E., additional, Hosoda, Toru, additional, Hubbell, Jeffrey A., additional, Humes, H. David, additional, Ingber, Donald E., additional, Jaklenec, Ana, additional, Jun, Hee-Sook, additional, Kajstura, Jan, additional, Kane, Ravi S., additional, Karp, Jeffrey M., additional, Kay, John, additional, Khademhosseini, Ali, additional, Khetani, Salman R., additional, Kohn, Joachim, additional, Kunisaki, Shaun M., additional, Kwan, Matthew D., additional, Kyriakides, Themis R., additional, Lagasse, Eric, additional, Langer, Robert, additional, Lauffenburger, Douglas A., additional, Yong Lee, Kuen, additional, Leri, Annarosa, additional, Levine, David W., additional, Lewis, Amy S., additional, Li, Wan-Ju, additional, Liu, Wei, additional, Longaker, Michael T., additional, Luo, Ying, additional, Lysaght, Michael J., additional, Manley, Nancy Ruth, additional, Mansbridge, Jonathan, additional, Marsh, J.L., additional, Martin, David C., additional, Martin, J.A., additional, Martins-Green, Manuela, additional, Masuda, Koichi, additional, Mauck, Robert L., additional, McDonald, John W., additional, Mikos, Antonios G., additional, Miller, Josef M., additional, Mooney, David J., additional, Moore, Malcolm A.S., additional, Murphy, Matthew B., additional, Nerem, Robert M., additional, Nikovits, William, additional, Nowell, Craig Scott, additional, Obradovic, Bojana, additional, Olsen, Bjorn R., additional, Pachence, James M., additional, Park, Hyoungshin, additional, Park, Jason, additional, Petreaca, M., additional, Polak, Julia M., additional, Poole, A. Robin, additional, Potten, Christopher S., additional, Prokop, Ales, additional, Radisic, Milica, additional, Raphael, Yehoash, additional, Reddi, A. Hari, additional, Reichenspurner, Herrmann, additional, Richie, Ellen, additional, Robey, Pamela G., additional, Rota, Marcello, additional, Ruberti, Jeffrey W., additional, Russell, Alan J., additional, Sage, E. Helene, additional, Saigal, Rajiv, additional, Saltzman, W. Mark, additional, Sambanis, Athanassios, additional, Schacht, Jochen, additional, Setton, Lori A., additional, Sharma, Upma, additional, Sharpe, Paul T., additional, Slack, Jonathan M.W., additional, Smith, Anthony J., additional, Somerman, Martha J., additional, Song, Lin, additional, Soria, Bernat, additional, Stockdale, Frank E., additional, Studer, Lorenz, additional, Takayama, Shuichi, additional, Tejedo, Juan R., additional, Trinkaus-Randall, Vickery, additional, Trounson, Alan, additional, Tuan, Rocky S., additional, Underhill, Gregory H., additional, Urbanek, Konrad, additional, Vacanti, Charles A., additional, Vacanti, Joseph, additional, Volenec, F. Jerry, additional, Vunjak-Novakovic, Gordana, additional, Wahlberg, Lars U., additional, Wan, Derrick C., additional, Whitesides, George M., additional, Whitsett, Jeffrey A., additional, Wilson, James W., additional, Worgall, Stefan, additional, Wong, Mark E.K., additional, Wright, Nicholas A., additional, Yannas, Ioannis V., additional, Yoon, Ji-Won, additional, Young, Simon, additional, Zhang, Hai, additional, Zhang, Wenjie, additional, Zielinski, Beth A., additional, Zieske, James D., additional, Zimmermann, Wolfram-Hubertus, additional, and Zoloth, Laurie, additional

Published
2007
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29. Evaluation of the Effectiveness of Autologous Bone Marrow Mesenchymal Stem Cells in the Treatment of Chronic Low Back Pain Due to Severe Lumbar Spinal Degeneration: A 12-Month, Open-Label, Prospective Controlled Trial.

Author

Atluri, Sairam, Murphy, Matthew B., Dregalla, Ryan, Herrera, Jessica, Boachie-Adjei, Kwadwo, Bhati, Sachi, Manocha, Vivek, Boddu, Navneet, Yerramsetty, Pavan, Syed, Zaid, Ganjam, Meghana, Jain, Divit, Syed, Zaynab, Grandhi, Nikhil, and Manchikanti, Laxmaiah

Published
2022

31. Mechanical properties of α-tricalcium phosphate-based bone cements incorporating regenerative biomaterials for filling bone defects exposed to low mechanical loads

Author

Harrison, Reed, Criss, Zachary K., Feller, Lacie, Modi, Shan P., Hardy, John G., Schmidt, Christine E., Suggs, Laura J., and Murphy, Matthew B.

Subjects
Biomaterials, Minerals, COMPOSITE, Biodegradation, Ceramics and Composites, technology, industry, and agriculture, equipment and supplies
Abstract

Calcium phosphate-based cements with enhanced regenerative potential are promising biomaterials for the healing of bone defects. With a view to the use of such cements for low load bearing applications such as sinus augmentation or filling extraction sites, we have prepared α-tricalcium phosphate (α-TCP)-based bone cements including materials that we would expect to improve their regenerative potential, and describe the mechanical properities of the resulting formulations herein. Formulations incorporated α-TCP, hydroxyapatite, biopolymer-thickened wetting agents, sutures, and platelet poor plasma. The mechanical properties of the composites were composition dependent, and optimized formulations had clinically relevant mechanical properties. Such calcium phosphate-based cements have potential as replacements for cements such as those based on polymethylmethacrylate (PMMA).

Published
2016
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32. Increased Internal Porosity and Surface Area of Hydroxyapatite Accelerates Healing and Compensates for Low Bone Marrow Mesenchymal Stem Cell Concentrations in Critically-Sized Bone Defects.

Author

Dawson, Eileen R., Suzuki, Richard K., Samano, Melissa A., and Murphy, Matthew B.

Subjects
POROSITY, HYDROXYAPATITE, MESENCHYMAL stem cells
Abstract

Featured Application: Volume and rate of tissue regeneration may be enhanced with increased scaffold porosity as well as increased numbers of non-cultured bone marrow cells. For clinical treatment of skeletal defects, osteoinductive scaffolds must have the ability to conform to the unique geometry of the injury site without sacrificing biologically favorable properties, including porosity. This investigation seeks to combine the osteoinductive properties of porous hydroxyapatite (HA) scaffolds with the beneficial handling characteristics of granules or putties, while evaluating the effects of mesenchymal stem cell (MSC) concentration on the composite grafts' ability to regenerate bone in vivo. The results demonstrate that porous HA granules regenerate significantly larger volumes of bone compared to non-porous HA. Increased MSC concentrations in autologous bone marrow aspirate (BMA) contributed to greater bone regeneration. This effect was most predominant with non-porous HA. While the extent of bone regeneration using non-porous HA was strongly correlated with MSC concentration of the marrow, porous HA microparticles combined with autologous BMA were successful in faster treatment of critically-sized bone defects and with less dependence on the MSC concentration than non-porous HA. [ABSTRACT FROM AUTHOR]

Published
2018
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39. Tissue Engineering: Mesoporous Silicon‐PLGA Composite Microspheres for the Double Controlled Release of Biomolecules for Orthopedic Tissue Engineering (Adv. Funct. Mater. 2/2012)

Author

Fan, Dongmei, primary, De Rosa, Enrica, additional, Murphy, Matthew B., additional, Peng, Yang, additional, Smid, Christine A., additional, Chiappini, Ciro, additional, Liu, Xuewu, additional, Simmons, Paul, additional, Weiner, Bradley K., additional, Ferrari, Mauro, additional, and Tasciotti, Ennio, additional

Published
2012
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40. Mesoporous Silicon‐PLGA Composite Microspheres for the Double Controlled Release of Biomolecules for Orthopedic Tissue Engineering

Author

Fan, Dongmei, primary, De Rosa, Enrica, additional, Murphy, Matthew B., additional, Peng, Yang, additional, Smid, Christine A., additional, Chiappini, Ciro, additional, Liu, Xuewu, additional, Simmons, Paul, additional, Weiner, Bradley K., additional, Ferrari, Mauro, additional, and Tasciotti, Ennio, additional

Published
2011
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41. Dose Effect of Dual Delivery of Vascular Endothelial Growth Factor and Bone Morphogenetic Protein-2 on Bone Regeneration in a Rat Critical-Size Defect Model

Author

Young, Simon, primary, Patel, Zarana S., additional, Kretlow, James D., additional, Murphy, Matthew B., additional, Mountziaris, Paschalia M., additional, Baggett, L. Scott, additional, Ueda, Hiroki, additional, Tabata, Yasuhiko, additional, Jansen, John A., additional, Wong, Mark, additional, and Mikos, Antonios G., additional

Published
2009
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43. Percutaneous Injection of Autologous Bone Marrow Concentrate Cells Significantly Reduces Lumbar Discogenic Pain Through 12 Months.

Author

Pettine, Kenneth A., Murphy, Matthew B., Suzuki, Richard K., and Sand, Theodore T.

Subjects
INTRAMUSCULAR injections, BONE marrow, CELLULAR signal transduction, DEGENERATION (Pathology), INTERVERTEBRAL disk diseases, LUMBAR pain, VISUAL analog scale
Abstract

Degenerative disc disease (DDD) induces chronic back pain with limited nonsurgical options. In this open label pilot study, 26 patients (median age 40 years; range 18-61) received autologous bone marrow concentrate (BMC) disc injections (13 one level, 13 two levels). Pretreatment Oswestry disability index (ODI) and visual analog scale (VAS) were performed to establish baseline pain scores (average 56.5 and 79.3, respectively), while magnetic resonance imaging was independently scored according to the modified Pfirrmann scale. Approximately 1 ml of BMC was analyzed for total nucleated cell (TNC) content, colony-forming unit-fibroblast (CFU-F) frequency, differentiation potential, and phenotype characterization. The average ODI and VAS scores were reduced to 22.8 and 29.2 at 3 months, 24.4 and 26.3 at 6 months, and 25.0 and 33.2 at 12 months, respectively ( p ≤ .0001). Eight of twenty patients improved by one modified Pfirrmann grade at 1 year. The average BMC contained 121 × 106 TNC/ml with 2,713 CFU-F/ml (synonymous with mesenchymal stem cells). Although all subjects presented a substantial reduction in pain, patients receiving greater than 2,000 CFU-F/ml experienced a significantly faster and greater reduction in ODI and VAS. Subjects older than 40 years who received fewer than 2,000 CFU-F/ml experienced an average pain reduction of 33.7% (ODI) and 29.1% (VAS) at 12 months, while all other patients' average reduction was 69.5% (ODI, p = .03) and 70.6% (VAS, p = .01). This study provides evidence of safety and feasibility in the nonsurgical treatment of DDD with autologous BMC and indicates an effect of mesenchymal cell concentration on discogenic pain reduction. S tem C ells 2015;33:146-156 [ABSTRACT FROM AUTHOR]

Published
2015
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44. Stem Cell Therapy for Regenerative Medicine.

Author

BUCHANAN, RACHEL M., BLASHKI, DANIEL, and MURPHY, MATTHEW B.

Subjects
STEM cell treatment, REGENERATIVE medicine, EMBRYONIC stem cells, INDUCED pluripotent stem cells, STEM cells
Abstract

The article provides information on stem cell therapy for regenerative medicine. Topics discussed include embryonic stem cells (ESCs) and their use for the treatment of degenerative diseases, the regulation of stem cells by the U.S. Food and Drug Administration (FDA), and the success of using autologous stem cells in orthopaedic applications. Also mentioned is the impact of the unproven safety of ESCs and induced pluripotent stem (iPS) cells on investment in the industry.

Published
2014

46. Engineering a Better Way to Heal Broken Bones.

Author

Murphy, Matthew B., Blashki, Daniel, Buchanan, Rachel M., and Tasciotti, Ennio

Subjects
TISSUE engineering, SKELETON, STEM cells, BIOMEDICAL materials, ORTHOPEDICS, DISEASES
Abstract

The article focuses on the use of bone tissue engineering for the treatment of traumatic skeletal injuries. It states that bone tissue engineering provides the new formation of bones through the scaffolds and the formation of new tissues. It mentions that stem cells integration in a biomaterial substrate associates with the cells migrating to the wound site. It adds that the appropriate mixture of cells and biomaterials is the key to treat bone defects through the orthopedic tissue engineering.

Published
2010

48. Short Term Culture of Human Mesenchymal Stem Cells with Commercial Osteoconductive Carriers Provides Unique Insights into Biocompatibility.

Author

Murphy MB, Suzuki RK, Sand TT, Chaput CD, and Gregory CA

Abstract

For spinal fusions and the treatment of non-union fractures, biological substrates, scaffolds, or carriers often are applied as a graft to support regeneration of bone. The selection of an appropriate material critically influences cellular function and, ultimately, patient outcomes. Human bone marrow mesenchymal stem cells (BMSCs) are regarded as a critical component of bone healing. However, the interactions of BMSCs and commercial bone matrices are poorly reported. BMSCs were cultured with several commercially available bone substrates (allograft, demineralized bone matrix (DBM), collagen, and various forms of calcium phosphates) for 48 h to understand their response to graft materials during surgical preparation and the first days following implantation (cell retention, gene expression, pH). At 30 and 60 min, bone chips and inorganic substrates supported significantly more cell retention than other materials, while collagen-containing materials became soluble and lost their structure. At 48 h, cells bound to β-tricalcium phosphate-hydroxyapatite (βTCP-HA) and porous hydroxyapatite (HA) granules exhibited osteogenic gene expression statistically similar to bone chips. Through 24 h, the DBM strip and βTCP-collagen became mildly acidic (pH 7.1-7.3), while the DBM poloxamer-putties demonstrated acidity (pH < 5) and the bioglass-containing carrier became basic (pH > 10). The dissolution of DBM and collagen led to a loss of cells, while excessive pH changes potentially diminish cell viability and metabolism. Extracts from DBM-poloxamers induced osteogenic gene expression at 48 h. This study highlights the role that biochemical and structural properties of biomaterials play in cellular function, potentially enhancing or diminishing the efficacy of the overall therapy.

Published
2013
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49. Multi-composite bioactive osteogenic sponges featuring mesenchymal stem cells, platelet-rich plasma, nanoporous silicon enclosures, and Peptide amphiphiles for rapid bone regeneration.

Author

Murphy MB, Blashki D, Buchanan RM, Fan D, De Rosa E, Shah RN, Stupp SI, Weiner BK, Simmons PJ, Ferrari M, and Tasciotti E

Abstract

A novel bioactive sponge was created with a composite of type I collagen sponges or porous poly(e-caprolactone) (PCL) scaffolds, platelet-rich plasma (PRP), BMP2-loaded nanoporous silicon enclosure (NSE) microparticles, mineralizing peptide amphiphiles (PA), and mesenchymal stem cells (MSC). Primary MSC from cortical bone (CB)  tissue proved to form more and larger colony units, as well as produce more mineral matrix under osteogenic differentiation, than MSC from bone marrow (BM). Coating pre-treatments were optimized for maximum cell adhesion and mineralization, while a PRP-based gel carrier was created to efficiently deliver and retain MSC and  microparticles within a porous scaffold while simultaneously promoting cell recruitment, proliferation, and angiogenesis. Components and composite sponges were evaluated for osteogenic differentiation in vitro. Osteogenic sponges were loaded with MSC, PRP, PA, and NSE and implanted subcutaneously in rats to evaluate the formation of bone tissue and angiogenesis in vivo. It was found that the combination of a collagen sponge with CB MSC, PRP, PA, and the BMP2-releasing NSE formed the most bone and was most vascularized by four weeks compared to analogous composites featuring BM MSC or PCL or lacking PRP, PA, and NSE. This study indicates that CB MSC should be considered as an alternative to marrow as a source of stem cells, while the PRP-PA cell and microparticle delivery system may be utilized for diverse tissue engineering applications.

Published
2011
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