Survival, Proliferation, and Functions of Porcine Hepatocytes Encapsulated in Coated Alginate Beads: A Step Toward a Reliable Bioartificial Liver1

Joly, A; Desjardins, Jean-Fran ois; Frémond, B.; Desille, Mireille; Campion, Jean‐Pierre; Malledant, Yannick; Lebreton, Yves; Semana, Gilbert; Edwards-Lévy, Florence; Lévy, M.-C.; Clément, Bruno

doi:10.1097/00007890-199703270-00002

Cited by 101 publications

(57 citation statements)

References 27 publications

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“…Alginate has been employed to microencapsulate and entrap antibiotics and cells. [19][20][21][22] Recently, Ueng et al successfully developed a biodegradable alginate carrier system for antibiotics and MSCs in the rabbit model. 10 This study successfully transferred the MSCs to the host via an alginate carrier system, and the histology results indicated no inflammatory reaction.…”

Section: Discussionmentioning

confidence: 99%

Enhancement of posterolateral lumbar spine fusion using low‐dose rhBMP‐2 and cultured marrow stromal cells

Chen

et al. 2009

Journal Orthopaedic Research

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We tested the hypothesis that the dose of recombinant human bone morphogenetic protein-2 (rhBMP-2) required to induce spine fusion can be reduced by combination with mesenchymal stem cells (MSCs). Twenty-four adult rabbits underwent posterolateral intertransverse fusion at the L4-L5 level. The animals were divided into four groups based on the implant material: autologous iliac graft, Alginate-MSCs composite, Alginate-BMP-2-MSCs composite, and Alginate-BMP-2 composite. After 16 weeks, the rabbits were euthanized for radiographic examination, manual palpation, biomechanical testing, and histology. Radiographic union of 12 intertransverse fusion areas for the autogenous iliac graft, Alginate-MSCs, Alginate-BMP-2-MSCs, and Alginate-BMP-2 groups was 11, 8, 11, and 0, respectively. Moreover, manual palpation of six fusion segments in each subgroup found solid union to be 6, 1, 5, and 0, respectively. The average torques at failure of the first three groups were 2278 AE 135, 1943 AE 140, and 2334 AE 187 N-mm, respectively. The failure torque did not differ significantly between the autograft and Alginate-BMP-2-MSCs groups; both groups were significantly higher than the Alginate-MSCs group. The results indicate that MSCs delivered with in vitro cellular doses of rhBMP-2 are more osteoinductive than MSCs without rhBMP-2. In combination with MSCs, a low dose (2.5 mg) of rh-BMP-2 could enhance bone formation and posterolateral spine fusion success in the rabbit model. 1-4 However, limitations exist in related clinical applications, including the inconsistent fusion rate and the high cost associated with the high dosage required for osteoinductive factors.During the recent decade, numerous investigators have described techniques for isolating human and animal mesenchymal stem cells (MSCs) from bone marrow.5-7 Culturing MSCs with dexamethasone, ascorbic acid, and b-glycerophosphate directs the cells into the osteogenic lineage.6,7 Additionally, recombinant human bone morphogenetic proteins (rhBMP) were reported to enhance the osteogenic potency of MSCs. 8,9 Theoretically, low-dose rhBMP-2 can improve the osteogenic potency of preconditioned MSCs and can then be used to improve the success of spinal fusion.We tested the hypothesis that rhBMP-2 can enhance the osteogenic potency of preconditioned MSCs and that the dosage of rhBMP-2 to induce intertransverse spine fusion could be lower than previously required.

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Section: Discussionmentioning

confidence: 99%

Enhancement of posterolateral lumbar spine fusion using low‐dose rhBMP‐2 and cultured marrow stromal cells

Chen

et al. 2009

Journal Orthopaedic Research

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“…2,3 Unfortunately, this configuration has the inherent physical limitations of constrained total mass diffusion distances, limited cellular mass capacity, and nonuniform cell distributions. While the designs of encapsulation and suspension chambers can provide uniform microenvironments and ease of scaleup, [4][5][6] they can also offer poor cell stability (true for suspensions) and nutrient transport barriers (i.e., encapsulation systems). Moreover, the cells in such systems are typically exposed to higher shear forces.…”

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confidence: 99%

The Effectiveness of a Novel Cartridge-Based Bioreactor Design in Supporting Liver Cells

Niu

Hammond

Coger

2009

Tissue Engineering Part A

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There are a number of applications-ranging from temporary strategies for organ failure to pharmaceutical testing-that rely on effective bioreactor designs. The significance of these devices is that they provide an environment for maintaining cells in a way that allows them to perform key cellular and tissue functions. In the current study, a novel cartridge-based bioreactor was developed and evaluated. Its unique features include its capacity for cell support and the adaptable design of its cellular space. Specifically, it is able to accommodate functional and reasonably sized tissue (>2.0Â10 8 cells), and can be easily modified to support a range of anchorage-dependent cells. To evaluate its efficacy, it was applied to liver support in the current study. This involved evaluating the performance of rat primary hepatocytes within the unique cartridges in culture-sans bioreactor-and after being loaded within the novel bioreactor. Compared to collagen sandwich culture functional controls, hepatocytes within the unique cartridge design demonstrated significantly higher albumin production and urea secretion rates when cultured under dynamic flow conditions-reaching peak values of 170 AE 22 mg=10 6 cells=day and 195 AE 18 mg=10 6 cells=day, respectively. The bioreactor's effectiveness in supporting live and functioning primary hepatocytes is also presented. Cell viability at the end of 15 days of culture in the new bioreactor was 84 AE 18%, suggesting that the new design is effective in maintaining primary hepatocytes for at least 2 weeks in culture. Liver-specific functions of urea secretion, albumin synthesis, and cytochrome P450 activity were also assessed. The results indicate that hepatocytes are able to achieve good functional performance when cultured within the novel bioreactor. This is especially true in the case of cytochrome P450 activity, where by day 15 of culture, hepatocytes within the bioreactor reached values that were 56.6% higher than achieved by the collagen sandwich functional control cultures. The success of the novel cartridge-based bioreactor in supporting hepatocytes with good viability and functional performance suggests that it is an effective design for supporting anchorage-dependent cells.

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“…Langendorf 14 initially used a 95% oxygen mixture in his perfused heart studies, and this has remained the standard for tissue engineering for the majority of perfused membrane-type BALs, while 3D encapsulationtype BALs 8,10,26,27,40 and organoid constructs 41,42 have varied. Hepatocytes are highly aerobic, requiring high amounts of oxygen relative to other tissues.…”

Section: Discussionmentioning

confidence: 99%

Effect of Oxygen Concentration on Viability and Metabolism in a Fluidized-Bed Bioartificial Liver Using ³¹P and ¹³C NMR Spectroscopy

Jeffries

Gamcsik²,

Keshari³

et al. 2013

Tissue Engineering Part C: Methods

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Many oxygen mass-transfer modeling studies have been performed for various bioartificial liver (BAL) encapsulation types; yet, to our knowledge, there is no experimental study that directly and noninvasively measures viability and metabolism as a function of time and oxygen concentration. We report the effect of oxygen concentration on viability and metabolism in a fluidized-bed NMR-compatible BAL using in vivo 31 P and 13 C NMR spectroscopy, respectively, by monitoring nucleotide triphosphate (NTP) and 13 C-labeled nutrient metabolites, respectively. Fluidized-bed bioreactors eliminate the potential channeling that occurs with packed-bed bioreactors and serve as an ideal experimental model for homogeneous oxygen distribution. Hepatocytes were electrostatically encapsulated in alginate (avg. diameter, 500 mm; 3.5 · 10 7 cells/mL) and perfused at 3 mL/min in a 9-cm (inner diameter) cylindrical glass NMR tube. Four oxygen treatments were tested and validated by an inline oxygen electrode: (1) 95:5 oxygen:carbon dioxide (carbogen), (2) 75:20:5 nitrogen:oxygen:carbon dioxide, (3) 60:35:5 nitrogen:oxygen:carbon dioxide, and (4) 45:50:5 nitrogen:oxygen:carbon dioxide. With 20% oxygen, b-NTP steadily decreased until it was no longer detected at 11 h. The 35%, 50%, and 95% oxygen treatments resulted in steady b-NTP levels throughout the 28-h experimental period. For the 50% and 95% oxygen treatment, a 13 C NMR time course (*5 h) revealed 2-13 C-glycine and 2-13 C-glucose to be incorporated into [2-13 Cglycyl]glutathione (GSH) and 2-13 C-lactate, respectively, with 95% having a lower rate of lactate formation. 31 P and 13 C NMR spectroscopy is a noninvasive method for determining viability and metabolic rates. Modifying tissue-engineered devices to be NMR compatible is a relatively easy and inexpensive process depending on the bioreactor shape.

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Survival, Proliferation, and Functions of Porcine Hepatocytes Encapsulated in Coated Alginate Beads: A Step Toward a Reliable Bioartificial Liver1

Cited by 101 publications

References 27 publications

Enhancement of posterolateral lumbar spine fusion using low‐dose rhBMP‐2 and cultured marrow stromal cells

Enhancement of posterolateral lumbar spine fusion using low‐dose rhBMP‐2 and cultured marrow stromal cells

The Effectiveness of a Novel Cartridge-Based Bioreactor Design in Supporting Liver Cells

Effect of Oxygen Concentration on Viability and Metabolism in a Fluidized-Bed Bioartificial Liver Using ³¹P and ¹³C NMR Spectroscopy

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Survival, Proliferation, and Functions of Porcine Hepatocytes Encapsulated in Coated Alginate Beads: A Step Toward a Reliable Bioartificial Liver1

Cited by 101 publications

References 27 publications

Enhancement of posterolateral lumbar spine fusion using low‐dose rhBMP‐2 and cultured marrow stromal cells

Enhancement of posterolateral lumbar spine fusion using low‐dose rhBMP‐2 and cultured marrow stromal cells

The Effectiveness of a Novel Cartridge-Based Bioreactor Design in Supporting Liver Cells

Effect of Oxygen Concentration on Viability and Metabolism in a Fluidized-Bed Bioartificial Liver Using 31P and 13C NMR Spectroscopy

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Product

Resources

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Effect of Oxygen Concentration on Viability and Metabolism in a Fluidized-Bed Bioartificial Liver Using ³¹P and ¹³C NMR Spectroscopy