Jacobs:Publications: Difference between revisions

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# Haut Donahue TL, Hull ML, Rashid MM, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=15183438 The sensitivity of tibiofemoral contact pressure to the size and shape of the lateral and medial menisci]. J Orthop Res. 2004 Jul;22(4):807-14. PMID: 15183438
# Haut Donahue TL, Hull ML, Rashid MM, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=15183438 The sensitivity of tibiofemoral contact pressure to the size and shape of the lateral and medial menisci]. J Orthop Res. 2004 Jul;22(4):807-14. PMID: 15183438
# Alford AI, Yellowley CE, Jacobs CR, Donahue HJ. [http://www.ncbi.nlm.nih.gov/pubmed?term=14624453 Increases in cytosolic calcium, but not fluid flow, affect aggrecan mRNA levels in articular chondrocytes]. J Cell Biochem. 2003 Dec 1;90(5):938-44. PMID: 14624453
# Alford AI, Yellowley CE, Jacobs CR, Donahue HJ. [http://www.ncbi.nlm.nih.gov/pubmed?term=14624453 Increases in cytosolic calcium, but not fluid flow, affect aggrecan mRNA levels in articular chondrocytes]. J Cell Biochem. 2003 Dec 1;90(5):938-44. PMID: 14624453
#Paper16 pmid=14610310
# Reilly GC, Haut TR, Yellowley CE, Donahue HJ, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=14610310 Fluid flow induced PGE2 release by bone cells is reduced by glycocalyx degradation whereas calcium signals are not]. Biorheology. 2003;40(6):591-603. PMID: 14610310
#Paper17 pmid=12919700
# Alford AI, Jacobs CR, Donahue HJ. [http://www.ncbi.nlm.nih.gov/pubmed?term=12919700 Oscillating fluid flow regulates gap junction communication in osteocytic MLO-Y4 cells by an ERK1/2 MAP kinase-dependent mechanism small star, filled]. Bone. 2003 Jul;33(1):64-70. PMID: 12919700
#Paper18 pmid=12893045
# Donahue TL, Haut TR, Yellowley CE, Donahue HJ, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=12893045 Mechanosensitivity of bone cells to oscillating fluid flow induced shear stress may be modulated by chemotransport]. J Biomech. 2003 Sep;36(9):1363-71. PMID: 12893045
#Paper19 pmid=12689677
# Saunders MM, You J, Zhou Z, Li Z, Yellowley CE, Kunze EL, Jacobs CR, Donahue HJ. [http://www.ncbi.nlm.nih.gov/pubmed?term=12689677 Fluid flow-induced prostaglandin E2 response of osteoblastic ROS 17/2.8 cells is gap junction-mediated and independent of cytosolic calcium]. Bone. 2003 Apr;32(4):350-6. PMID: 12689677
#Paper20 pmid=12485636
# Donahue SW, Donahue HJ, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=12485636 Osteoblastic cells have refractory periods for fluid-flow-induced intracellular calcium oscillations for short bouts of flow and display multiple low-magnitude oscillations during long-term flow]. J Biomech. 2003 Jan;36(1):35-43. PMID: 12485636
#Paper21 pmid=12485635
# Haut Donahue TL, Hull ML, Rashid MM, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=12485635 How the stiffness of meniscal attachments and meniscal material properties affect tibio-femoral contact pressure computed using a validated finite element model of the human knee joint]. J Biomech. 2003 Jan;36(1):19-34. PMID: 12485635
#Paper22 pmid=12376532
# You J, Jacobs CR, Steinberg TH, Donahue HJ. [http://www.ncbi.nlm.nih.gov/pubmed?term=12376532 P2Y purinoceptors are responsible for oscillatory fluid flow-induced intracellular calcium mobilization in osteoblastic cells]. J Biol Chem. 2002 Dec 13;277(50):48724-9. Epub 2002 Oct 9. PMID: 12376532
#Paper23 pmid=12071261
# Donahue TL, Hull ML, Rashid MM, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=12071261 A finite element model of the human knee joint for the study of tibio-femoral contact]. J Biomech Eng. 2002 Jun;124(3):273-80. PMID: 12071261
#Paper24 pmid=11698250
# Saunders MM, You J, Trosko JE, Yamasaki H, Li Z, Donahue HJ, Jacobs CR. [http://www.ncbi.nlm.nih.gov/pubmed?term=11698250 Gap junctions and fluid flow response in MC3T3-E1 cells]. Am J Physiol Cell Physiol. 2001 Dec;281(6):C1917-25. PMID: 11698250
#Paper25 pmid=11600427
# Donahue SW, Jacobs CR, Donahue HJ. [http://www.ncbi.nlm.nih.gov/pubmed?term=11600427 Flow-induced calcium oscillations in rat osteoblasts are age, loading frequency, and shear stress dependent]. Am J Physiol Cell Physiol. 2001 Nov;281(5):C1635-41. PMID: 11600427
#Paper26 pmid=11425081
#Paper26 pmid=11425081
#Paper27 pmid=11278573
#Paper27 pmid=11278573

Revision as of 09:43, 27 June 2011



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Publications

  1. Kwon RY, Lew AJ, and Jacobs CR. A microstructurally informed model for the mechanical response of three-dimensional actin networks. Comput Methods Biomech Biomed Engin. 2008 Aug;11(4):407-18. PMID: 18568835
  2. You L, Temiyasathit S, Lee P, Kim CH, Tummala P, Yao W, Kingery W, Malone AM, Kwon RY, and Jacobs CR. Osteocytes as mechanosensors in the inhibition of bone resportion due to mechanical loading. Bone. 2008 Jan;42(1):172-9. PMID: 17997378
  3. Sabsovich I, Clark JD, Liao G, Peltz G, Lindsey DP, Jacobs CR, Yao W, Guo TZ, and Kingery W. Bone microstructure and its associated genetic variability in 12 inbred mouse strains: microCT study and in silico genome scan. Bone. 2008 Feb;42(2):439-51. PMID: 17967568
  4. Malone AM, Anderson CT, Tummala P, Kwon RY, Johnston TR, Stearns T, and Jacobs CR. Primary cilia mediate mechanosensing in bone cells by a calcium-independent mechanism. Proc Natl Acad Sci U S A. 2007 Aug 14;104(33):13325-30. PMID: 17673554
  5. Kwon RY, and Jacobs CR. Time-dependent deformations in bone cells exposed to fluid flow in vitro: investigating the role of cellular deformation in fluid flow-induced signaling. J Biomech. 2007;40(14):3162-8. PMID: 17559856
  6. Malone AM, Batra NN, Shivaram G, Kwon RY, You L, Kim CH, Rodriguez J, Jair K, and Jacobs CR. The role of actin cytoskeleton in oscillatory fluid-flow induced signaling in MC3T3-E1 osteoblasts. Am J Physiol Cell Physiol. 2007 May;292(5):C1830-6. PMID: 17251324
  7. Godin LM, Suzuki S, Jacobs CR, Donahue HJ, and Donahue SW. Mechanically induced intracellular calcium waves in osteoblasts demonstrate calcium fingerprints in bone cell mechanotransduction. Biomech Model Mechanobiol. 2007 Nov;6(6):391-8. PMID: 17082961
  8. Kim CH, You L, Yellowley CE, Jacobs CR. Oscillatory fluid flow-induced shear stress decreases osteoclastogenesis through RANKL and OPG signaling. Bone. 2006 Nov;39(5):1043-7. PMID: 16860618
  9. Rubin J, Rubin C, Jacobs CR. Molecular pathways mediating mechanical signaling in bone. Gene. 2006 Feb 15;367:1-16. PMID: 16361069
  10. Batra NN, Li YJ, Yellowley CE, You L, Malone AM, Kim CH, Jacobs CR. Effects of short-term recovery periods on fluid-induced signaling in osteoblastic cells. J Biomech. 2005 Sep;38(9):1909-17. PMID: 16023480
  11. Li YJ, Batra NN, You L, Meier SC, Coe IA, Yellowley CE, Jacobs CR. Oscillatory fluid flow affects human marrow stromal cell proliferation and differentiation. J Orthop Res. 2004 Nov;22(6):1283-9. PMID: 15475210
  12. Haut Donahue TL, Genetos DC, Jacobs CR, Donahue HJ, Yellowley CE. Annexin V disruption impairs mechanically induced calcium signaling in osteoblastic cells. Bone. 2004 Sep;35(3):656-63. PMID: 15336601
  13. Edlich M, Yellowley CE, Jacobs CR, Donahue HJ. Cycle number and waveform of fluid flow affect bovine articular chondrocytes. Biorheology. 2004;41(3-4):315-22. PMID: 15299264
  14. Haut Donahue TL, Hull ML, Rashid MM, Jacobs CR. The sensitivity of tibiofemoral contact pressure to the size and shape of the lateral and medial menisci. J Orthop Res. 2004 Jul;22(4):807-14. PMID: 15183438
  15. Alford AI, Yellowley CE, Jacobs CR, Donahue HJ. Increases in cytosolic calcium, but not fluid flow, affect aggrecan mRNA levels in articular chondrocytes. J Cell Biochem. 2003 Dec 1;90(5):938-44. PMID: 14624453
  16. Reilly GC, Haut TR, Yellowley CE, Donahue HJ, Jacobs CR. Fluid flow induced PGE2 release by bone cells is reduced by glycocalyx degradation whereas calcium signals are not. Biorheology. 2003;40(6):591-603. PMID: 14610310
  17. Alford AI, Jacobs CR, Donahue HJ. Oscillating fluid flow regulates gap junction communication in osteocytic MLO-Y4 cells by an ERK1/2 MAP kinase-dependent mechanism small star, filled. Bone. 2003 Jul;33(1):64-70. PMID: 12919700
  18. Donahue TL, Haut TR, Yellowley CE, Donahue HJ, Jacobs CR. Mechanosensitivity of bone cells to oscillating fluid flow induced shear stress may be modulated by chemotransport. J Biomech. 2003 Sep;36(9):1363-71. PMID: 12893045
  19. Saunders MM, You J, Zhou Z, Li Z, Yellowley CE, Kunze EL, Jacobs CR, Donahue HJ. Fluid flow-induced prostaglandin E2 response of osteoblastic ROS 17/2.8 cells is gap junction-mediated and independent of cytosolic calcium. Bone. 2003 Apr;32(4):350-6. PMID: 12689677
  20. Donahue SW, Donahue HJ, Jacobs CR. Osteoblastic cells have refractory periods for fluid-flow-induced intracellular calcium oscillations for short bouts of flow and display multiple low-magnitude oscillations during long-term flow. J Biomech. 2003 Jan;36(1):35-43. PMID: 12485636
  21. Haut Donahue TL, Hull ML, Rashid MM, Jacobs CR. How the stiffness of meniscal attachments and meniscal material properties affect tibio-femoral contact pressure computed using a validated finite element model of the human knee joint. J Biomech. 2003 Jan;36(1):19-34. PMID: 12485635
  22. You J, Jacobs CR, Steinberg TH, Donahue HJ. P2Y purinoceptors are responsible for oscillatory fluid flow-induced intracellular calcium mobilization in osteoblastic cells. J Biol Chem. 2002 Dec 13;277(50):48724-9. Epub 2002 Oct 9. PMID: 12376532
  23. Donahue TL, Hull ML, Rashid MM, Jacobs CR. A finite element model of the human knee joint for the study of tibio-femoral contact. J Biomech Eng. 2002 Jun;124(3):273-80. PMID: 12071261
  24. Saunders MM, You J, Trosko JE, Yamasaki H, Li Z, Donahue HJ, Jacobs CR. Gap junctions and fluid flow response in MC3T3-E1 cells. Am J Physiol Cell Physiol. 2001 Dec;281(6):C1917-25. PMID: 11698250
  25. Donahue SW, Jacobs CR, Donahue HJ. Flow-induced calcium oscillations in rat osteoblasts are age, loading frequency, and shear stress dependent. Am J Physiol Cell Physiol. 2001 Nov;281(5):C1635-41. PMID: 11600427
  26. Paper26 pmid=11425081
  27. Paper27 pmid=11278573
  28. Paper28 pmid=11264837
  29. Paper29 pmid=11096064
  30. Paper30 pmid=11101107
  31. Paper31 pmid=11036562
  32. Paper32 pmid=10954098
  33. Paper33 pmid=10857219
  34. Paper34 pmid=10850827
  35. Paper35 pmid=10703928
  36. Paper36 pmid=10703922
  37. Paper37 pmid=10541065
  38. Paper38 pmid=10430180
  39. Paper39 pmid=10412989
  40. Paper40 pmid=10352770
  41. Paper41 pmid=10082103
  42. Paper42 pmid=9880053
  43. Paper43 pmid=9252439
  44. Paper44 pmid=9165394
  45. Paper45 pmid=7738054
  46. Paper46 pmid=3708962
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