Search Results - "Maki, Aaron J"

Multiscale osteointegration as a new paradigm for the design of calcium phosphate scaffolds for bone regeneration by Lan Levengood, Sheeny K, Polak, Samantha J, Wheeler, Matthew B, Maki, Aaron J, Clark, Sherrie G, Jamison, Russell D, Wagoner Johnson, Amy J

“…Abstract The role of macropore size (>100 μm) and geometry in synthetic scaffolds for bone regeneration has been studied extensively, but successful…”
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Analysis of the roles of microporosity and BMP-2 on multiple measures of bone regeneration and healing in calcium phosphate scaffolds by Polak, Samantha J., Levengood, Sheeny K. Lan, Wheeler, Matthew B., Maki, Aaron J., Clark, Sherrie G., Johnson, Amy J. Wagoner

“…Osteoinductive agents, such as BMP-2, are known to improve bone formation when combined with scaffolds. Microporosity (<20μm) has also been shown to influence…”
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Treatment of Extensor Tendon Disruption After Total Knee Arthroplasty: A Systematic Review by Vajapey, Sravya P., Blackwell, Ryan E., Maki, Aaron J., Miller, Timothy L.

“…Patellar or quadriceps tendon ruptures after total knee arthroplasty constitute a devastating complication with historically poor outcomes. With advances in…”
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The effect of BMP-2 on micro- and macroscale osteointegration of biphasic calcium phosphate scaffolds with multiscale porosity by Lan Levengood, Sheeny K., Polak, Samantha J., Poellmann, Michael J., Hoelzle, David J., Maki, Aaron J., Clark, Sherrie G., Wheeler, Matthew B., Wagoner Johnson, Amy J.

“…It is well established that scaffolds for applications in bone tissue engineering require interconnected pores on the order of 100μm for bone in growth and…”
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Decreased bone turnover with balanced resorption and formation prevent cortical bone loss during disuse (hibernation) in grizzly bears ( Ursus arctos horribilis ) by McGee, Meghan E, Maki, Aaron J, Johnson, Steven E, Nelson, O. Lynne, Robbins, Charles T, Donahue, Seth W

“…Abstract Disuse uncouples bone formation from resorption, leading to increased porosity, decreased bone geometrical properties, and decreased bone mineral…”
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Black bear femoral porosity decreases and mechanical properties increase with age despite annual periods of disuse (hibernation) by McGee, Meghan E., Magic, Keith W., Miller, Danielle L., Maki, Aaron J., Donahue, Seth W.

“…Inactivity causes bone loss, and a remobilization period that is 2–3 times longer than the disuse period is required to recover lost bone. Black bears (Ursus…”
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