164 research outputs found

    Insulin, Ascorbate, and Glucose Have a Much Greater Influence Than Transferrin and Selenous Acid on the In Vitro Growth of Engineered Cartilage in Chondrogenic Media

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    The primary goal of this study was to characterize the response of chondrocyte-seeded agarose constructs to varying concentrations of several key nutrients in a chondrogenic medium, within the overall context of optimizing the key nutrients and the placement of nutrient channels for successful growth of cartilage tissue constructs large enough to be clinically relevant in the treatment of osteoarthritis (OA). To this end, chondrocyte-agarose constructs (phi4x2.34 mm, 30x106 cells/mL) were subjected to varying supplementation levels of insulin (0× to 30× relative to standard supplementation), transferrin (0x to 30x), selenous acid (0x to 10x), ascorbate (0x to 30x), and glucose (0x to 3x). The quality of resulting engineered tissue constructs was evaluated by their compressive modulus (E-Y), tensile modulus (E+Y), hydraulic permeability (k), and content of sulfated glycosaminoglycans (sGAG) and collagen (COL); DNA content was also quantified. Three control groups from two separate castings of constructs (1x concentrations of all medium constituents) were used. After 42 days of culture, values in each of these controls were, respectively, E-Y=518 plus or minus 78, 401 plus or minus 113, 236 plus or minus 67 kPa; E+Y=1420 plus or minus 430, 1140 plus or minus 490, 1240 plus or minus 280 kPa; k=2.3 plus or minus 0.8x10-3, 5.4 plus or minus 7.0x10-3, 3.3 plus or minus 1.3x10-3 mm4/N times s; sGAG=7.8 plus or minus 0.3, 6.3 plus or minus 0.4, 4.1 plus or minus 0.5%/ww; COL=1.3 plus or minus 0.2, 1.1 plus or minus 0.3, 1.4 plus or minus 0.4%/ww; and DNA=11.5 plus or minus 2.2, 12.1 plus or minus 0.6, 5.2 plus or minus 2.8 μg/disk. The presence of insulin and ascorbate was essential, but their concentrations may drop as low as 0.3x without detrimental effects on any of the measured properties; excessive supplementation of ascorbate (up to 30x) was detrimental to E-Y, and 30x insulin was detrimental to both E+Y and E-Y. The presence of glucose was similarly essential, and matrix elaboration was significantly dependent on its concentration (p less than 10-6), with loss of functional properties, composition, and cellularity observed at less than or equal to 0.3x; excessive glucose supplementation (up to 3x) showed no detrimental effects. In contrast, transferrin and selenous acid had no influence on matrix elaboration. These findings suggest that adequate distributions of insulin, ascorbate, and glucose, but not necessarily of transferrin and selenous acid, must be ensured within large engineered cartilage constructs to produce a viable substitute for joint tissue lost due to OA

    Resection of the liver for colorectal carcinoma metastases - A multi-institutional study of long-term survivors

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    In this review of a collected series of patients undergoing hepatic resection for colorectal metastases, 100 patients were found to have survived greater than five years from the time of resection. Of these 100 long-term survivors, 71 remain disease-free through the last follow-up, 19 recurred prior to five years, and ten recurred after five years. Patient characteristics that may have contributed to survival were examined. Procedures performed included five trisegmentectomies, 32 lobectomies, 16 left lateral segmentectomies, and 45 wedge resections. The margin of resection was recorded in 27 patients, one of whom had a positive margin, nine of whom had a less than or equal to 1-cm margin, and 17 of whom had a greater than 1-cm margin. Eighty-one patients had a solitary metastasis to the liver, 11 patients had two metastases, one patient had three metastases, and four patients had four metastases. Thirty patients had Stage C primary carcinoma, 40 had Stage B primary carcinoma, and one had Stage A primarycarcinoma. The disease-free interval from the time of colon resection to the time of liver resection was less than one year in 65 patients, and greater than one year in 34 patients. Three patients had bilobar metastases. Four of the patients had extrahepatic disease resected simultaneously with the liver resection. Though several contraindications to hepatic resection have been proposed in the past, five-year survival has been found in patients with extrahepatic disease resected simultaneously, patients with bilobar metastases, patients with multiple metastases, and patients with positive margins. Five-year disease-free survivors are also present in each of these subsets. It is concluded that five-year survival is possible in the presence of reported contraindications to resection, and therefore that the decision to resect the liver must be individualized. © 1988 American Society of Colon and Rectal Surgeons

    Emerging evidence of a link between the polycystins and the mTOR pathways

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    Autosomal dominant polycystic kidney disease (ADPKD) is a genetic disease characterized by the formation of renal cysts. This disease can be caused by mutations in two genes, PKD1 and PKD2, which encode polycystin-1 (PC-1) and -2 (PC-2), respectively

    Tension stimulation drives tissue formation in scaffold-free systems

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    Scaffold-free systems have emerged as viable approaches for engineering load-bearing tissues. However, the tensile properties of engineered tissues have remained far below the values for native tissue. Here, by using self-assembled articular cartilage as a model to examine the effects of intermittent and continuous tension stimulation on tissue formation, we show that the application of tension alone, or in combination with matrix remodelling and synthesis agents, leads to neocartilage with tensile properties approaching those of native tissue. Implantation of tension-stimulated tissues results in neotissues that are morphologically reminiscent of native cartilage. We also show that tension stimulation can be translated to a human cell source to generate anisotropic human neocartilage with enhanced tensile properties. Tension stimulation, which results in nearly sixfold improvements in tensile properties over unstimulated controls, may allow the engineering of mechanically robust biological replacements of native tissue
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