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Items: 1 to 20 of 78

1.

Angiogenesis is required for stress fracture healing in rats.

Tomlinson RE, McKenzie JA, Schmieder AH, Wohl GR, Lanza GM, Silva MJ.

Bone. 2013 Jan;52(1):212-9. doi: 10.1016/j.bone.2012.09.035. Epub 2012 Oct 5.

2.

Antagonizing the αv β3 integrin inhibits angiogenesis and impairs woven but not lamellar bone formation induced by mechanical loading.

Tomlinson RE, Schmieder AH, Quirk JD, Lanza GM, Silva MJ.

J Bone Miner Res. 2014 Sep;29(9):1970-80. doi: 10.1002/jbmr.2223.

3.

Hedgehog signaling mediates woven bone formation and vascularization during stress fracture healing.

Kazmers NH, McKenzie JA, Shen TS, Long F, Silva MJ.

Bone. 2015 Dec;81:524-32. doi: 10.1016/j.bone.2015.09.002. Epub 2015 Sep 6.

4.
5.

Nitric oxide-mediated vasodilation increases blood flow during the early stages of stress fracture healing.

Tomlinson RE, Shoghi KI, Silva MJ.

J Appl Physiol (1985). 2014 Feb 15;116(4):416-24. doi: 10.1152/japplphysiol.00957.2013. Epub 2013 Dec 19.

6.

Skeletal self-repair: stress fracture healing by rapid formation and densification of woven bone.

Uthgenannt BA, Kramer MH, Hwu JA, Wopenka B, Silva MJ.

J Bone Miner Res. 2007 Oct;22(10):1548-56.

7.

Damaging fatigue loading stimulates increases in periosteal vascularity at sites of bone formation in the rat ulna.

Matsuzaki H, Wohl GR, Novack DV, Lynch JA, Silva MJ.

Calcif Tissue Int. 2007 Jun;80(6):391-9. Epub 2007 Jun 6.

10.
11.

Healing of non-displaced fractures produced by fatigue loading of the mouse ulna.

Martinez MD, Schmid GJ, McKenzie JA, Ornitz DM, Silva MJ.

Bone. 2010 Jun;46(6):1604-12. doi: 10.1016/j.bone.2010.02.030. Epub 2010 Mar 6.

12.
13.

Mechanical stability affects angiogenesis during early fracture healing.

Lu C, Saless N, Hu D, Wang X, Xing Z, Hou H, Williams B, Swartz HM, Colnot C, Miclau T, Marcucio RS.

J Orthop Trauma. 2011 Aug;25(8):494-9. doi: 10.1097/BOT.0b013e31822511e0.

14.

Longitudinal analysis of osteogenic and angiogenic signaling factors in healing models mimicking atrophic and hypertrophic non-unions in rats.

Minkwitz S, Faßbender M, Kronbach Z, Wildemann B.

PLoS One. 2015 Apr 24;10(4):e0124217. doi: 10.1371/journal.pone.0124217. eCollection 2015.

15.

Prevention of fracture healing in rats by an inhibitor of angiogenesis.

Hausman MR, Schaffler MB, Majeska RJ.

Bone. 2001 Dec;29(6):560-4.

PMID:
11728927
16.

In vivo skeletal imaging of 18F-fluoride with positron emission tomography reveals damage- and time-dependent responses to fatigue loading in the rat ulna.

Silva MJ, Uthgenannt BA, Rutlin JR, Wohl GR, Lewis JS, Welch MJ.

Bone. 2006 Aug;39(2):229-36. Epub 2006 Mar 13.

PMID:
16533624
17.

Rapamycin affects early fracture healing in mice.

Holstein JH, Klein M, Garcia P, Histing T, Culemann U, Pizanis A, Laschke MW, Scheuer C, Meier C, Schorr H, Pohlemann T, Menger MD.

Br J Pharmacol. 2008 Jul;154(5):1055-62. doi: 10.1038/bjp.2008.167. Epub 2008 May 5.

18.

Differential gene expression from microarray analysis distinguishes woven and lamellar bone formation in the rat ulna following mechanical loading.

McKenzie JA, Bixby EC, Silva MJ.

PLoS One. 2011;6(12):e29328. doi: 10.1371/journal.pone.0029328. Epub 2011 Dec 22.

19.

Can we enhance fracture vascularity: What is the evidence?

Pountos I, Panteli M, Panagiotopoulos E, Jones E, Giannoudis PV.

Injury. 2014 Jun;45 Suppl 2:S49-57. doi: 10.1016/j.injury.2014.04.009. Review.

PMID:
24857029
20.

The effects of local vanadium treatment on angiogenesis and chondrogenesis during fracture healing.

Paglia DN, Wey A, Park AG, Breitbart EA, Mehta SK, Bogden JD, Kemp FW, Benevenia J, O'Connor JP, Lin SS.

J Orthop Res. 2012 Dec;30(12):1971-8. doi: 10.1002/jor.22159. Epub 2012 May 31.

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