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Items: 1 to 20 of 96

1.

Effects of different swimming exercise intensities on bone tissue composition in mice: a Raman spectroscopy study.

da Silva FF, de Souza RA, Pacheco MT, Ribeiro W, da Silva MA, Miranda H, Salgado MA, de Melo Castilho JC, Silveira L Jr.

Photomed Laser Surg. 2011 Apr;29(4):217-25. doi: 10.1089/pho.2010.2784. Epub 2010 Dec 23.

PMID:
21182452
2.

Raman ratios on the repair of grafted surgical bone defects irradiated or not with laser (λ780 nm) or LED (λ850 nm).

Pinheiro AL, Soares LG, Marques AM, Aciole JM, de Souza RA, Silveira L Jr.

J Photochem Photobiol B. 2014 Sep 5;138:146-54. doi: 10.1016/j.jphotobiol.2014.05.022. Epub 2014 Jun 6.

PMID:
24935415
3.

Identifying chemical changes in subchondral bone taken from murine knee joints using Raman spectroscopy.

Dehring KA, Crane NJ, Smukler AR, McHugh JB, Roessler BJ, Morris MD.

Appl Spectrosc. 2006 Oct;60(10):1134-41.

PMID:
17059665
4.

Differential diagnosis between experimental endophthalmitis and uveitis in vitreous with Raman spectroscopy and principal components analysis.

Rossi EE, Pinheiro AL, Baltatu OC, Pacheco MT, Silveira L Jr.

J Photochem Photobiol B. 2012 Feb 6;107:73-8. doi: 10.1016/j.jphotobiol.2011.12.001. Epub 2011 Dec 13.

PMID:
22209031
5.

Molecular structure of the bony tissue after experimental trauma to the mandibular region followed by laser therapy.

Rochkind S, Kogan G, Luger EG, Salame K, Karp E, Graif M, Weiss J.

Photomed Laser Surg. 2004 Jun;22(3):249-53.

PMID:
15315733
6.

The Orientation of Nanoscale Apatite Platelets in Relation to Osteoblastic-Osteocyte Lacunae on Trabecular Bone Surface.

Shah FA, Zanghellini E, Matic A, Thomsen P, Palmquist A.

Calcif Tissue Int. 2016 Feb;98(2):193-205. doi: 10.1007/s00223-015-0072-8. Epub 2015 Oct 15.

PMID:
26472430
7.

Differentiating normal and basal cell carcinoma human skin tissues in vitro using dispersive Raman spectroscopy: a comparison between principal components analysis and simplified biochemical models.

Bodanese B, Silveira L Jr, Albertini R, Zângaro RA, Pacheco MT.

Photomed Laser Surg. 2010 Aug;28 Suppl 1:S119-27. doi: 10.1089/pho.2009.2565.

PMID:
20649423
8.

Cortical bone composition and orientation as a function of animal and tissue age in mice by Raman spectroscopy.

Gamsjaeger S, Masic A, Roschger P, Kazanci M, Dunlop JW, Klaushofer K, Paschalis EP, Fratzl P.

Bone. 2010 Aug;47(2):392-9. doi: 10.1016/j.bone.2010.04.608. Epub 2010 May 5.

PMID:
20450992
9.

Effects of different exercise modes on mineralization, structure, and biomechanical properties of growing bone.

Huang TH, Lin SC, Chang FL, Hsieh SS, Liu SH, Yang RS.

J Appl Physiol (1985). 2003 Jul;95(1):300-7. Epub 2003 Feb 28.

10.

Bone density and mechanical properties in femoral bone of swim loaded aged mice.

Hoshi A, Watanabe H, Chiba M, Inaba Y.

Biomed Environ Sci. 1998 Sep;11(3):243-50.

PMID:
9861483
11.

Comparison between infrared and Raman spectroscopic analysis of maturing rabbit cortical bone.

Turunen MJ, Saarakkala S, Rieppo L, Helminen HJ, Jurvelin JS, Isaksson H.

Appl Spectrosc. 2011 Jun;65(6):595-603. doi: 10.1366/10-06193.

PMID:
21639980
12.

Early detection of dental fluorosis using Raman spectroscopy and principal component analysis.

González-Solís JL, Martínez-Cano E, Magaña-López Y.

Lasers Med Sci. 2015 Aug;30(6):1675-81. doi: 10.1007/s10103-014-1638-9. Epub 2014 Aug 14.

PMID:
25118662
13.

Determination of composition and structure of spongy bone tissue in human head of femur by Raman spectral mapping.

Kozielski M, Buchwald T, Szybowicz M, Błaszczak Z, Piotrowski A, Ciesielczyk B.

J Mater Sci Mater Med. 2011 Jul;22(7):1653-61. doi: 10.1007/s10856-011-4353-0. Epub 2011 May 31.

14.

Raman spectroscopy demonstrates Amifostine induced preservation of bone mineralization patterns in the irradiated murine mandible.

Tchanque-Fossuo CN, Gong B, Poushanchi B, Donneys A, Sarhaddi D, Gallagher KK, Deshpande SS, Goldstein SA, Morris MD, Buchman SR.

Bone. 2013 Feb;52(2):712-7. doi: 10.1016/j.bone.2012.07.029. Epub 2012 Aug 3.

15.

Raman spectroscopy demonstrates prolonged alteration of bone chemical composition following extremity localized irradiation.

Gong B, Oest ME, Mann KA, Damron TA, Morris MD.

Bone. 2013 Nov;57(1):252-8. doi: 10.1016/j.bone.2013.08.014. Epub 2013 Aug 23.

16.

Composition of bone and apatitic biomaterials as revealed by intravital Raman microspectroscopy.

Penel G, Delfosse C, Descamps M, Leroy G.

Bone. 2005 May;36(5):893-901. Epub 2005 Apr 7.

PMID:
15814305
17.

Raman assessment of bone quality.

Morris MD, Mandair GS.

Clin Orthop Relat Res. 2011 Aug;469(8):2160-9. doi: 10.1007/s11999-010-1692-y. Review.

18.

Raman and mechanical properties correlate at whole bone- and tissue-levels in a genetic mouse model.

Bi X, Patil CA, Lynch CC, Pharr GM, Mahadevan-Jansen A, Nyman JS.

J Biomech. 2011 Jan 11;44(2):297-303. doi: 10.1016/j.jbiomech.2010.10.009. Epub 2010 Oct 28.

19.

Biochemical changes on the repair of surgical bone defects grafted with biphasic synthetic micro-granular HA + β-tricalcium phosphate induced by laser and LED phototherapies and assessed by Raman spectroscopy.

Pinheiro AL, Soares LG, Marques AM, Cangussú MC, Pacheco MT, Silveira L Jr.

Lasers Med Sci. 2017 Apr;32(3):663-672. doi: 10.1007/s10103-017-2165-2. Epub 2017 Feb 10.

PMID:
28188497
20.

Could the bone mineral density (T-score) be correlated with the Raman spectral features of keratin from women's nails and be used to predict osteoporosis?

Mussatto JC, Perez MC, de Souza RA, Pacheco MT, Zângaro RA, Silveira L Jr.

Lasers Med Sci. 2015 Jan;30(1):287-94. doi: 10.1007/s10103-014-1647-8. Epub 2014 Sep 21.

PMID:
25240387

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