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Items: 1 to 20 of 53

1.

Comparison of the immature sheep spine and the growing human spine: a spondylometric database for growth modulating research.

Hasler C, Sprecher CM, Milz S.

Spine (Phila Pa 1976). 2010 Nov 1;35(23):E1262-72. doi: 10.1097/BRS.0b013e3181e24196.

PMID:
20938392
2.

Comparative morphometry of L4 vertebrae: comparison of large animal models for the human lumbar spine.

McLain RF, Yerby SA, Moseley TA.

Spine (Phila Pa 1976). 2002 Apr 15;27(8):E200-6.

PMID:
11935119
3.

Anatomy of the sheep spine and its comparison to the human spine.

Wilke HJ, Kettler A, Wenger KH, Claes LE.

Anat Rec. 1997 Apr;247(4):542-55.

PMID:
9096794
4.

Histological evaluation of the sheep's cervical spine segment 3/4--a histomorphological and histomorphometrical study.

Koch C, Kandziora F, Huenigen H, Plendl J.

Anat Histol Embryol. 2008 Jun;37(3):200-4. Epub 2007 Dec 19.

PMID:
18162094
6.

Immature sheep spines are more flexible than mature spines: an in vitro biomechanical study.

Clarke EC, Appleyard RC, Bilston LE.

Spine (Phila Pa 1976). 2007 Dec 15;32(26):2970-9.

PMID:
18091489
7.

Are sheep spines a valid biomechanical model for human spines?

Wilke HJ, Kettler A, Claes LE.

Spine (Phila Pa 1976). 1997 Oct 15;22(20):2365-74.

PMID:
9355217
8.

Are the spines of calf, pig and sheep suitable models for pre-clinical implant tests?

Kettler A, Liakos L, Haegele B, Wilke HJ.

Eur Spine J. 2007 Dec;16(12):2186-92. Epub 2007 Aug 25.

9.
10.

Anatomy of deer spine and its comparison to the human spine.

Kumar N, Kukreti S, Ishaque M, Mulholland R.

Anat Rec. 2000 Oct 1;260(2):189-203.

PMID:
10993955
11.

Glucocorticoid treatment of ovariectomized sheep affects mineral density, structure, and mechanical properties of cancellous bone.

Schorlemmer S, Gohl C, Iwabu S, Ignatius A, Claes L, Augat P.

J Bone Miner Res. 2003 Nov;18(11):2010-5.

13.

The effect of dilation of immature pedicles on pullout strength of the screws: Part 2: In vivo study.

Yilmaz G, Demirkiran G, Ozkan C, Daglioglu K, Pekmezci M, Alanay A, Yazici M.

Spine (Phila Pa 1976). 2009 Oct 15;34(22):2378-83. doi: 10.1097/BRS.0b013e3181b0bb9b.

PMID:
19829250
15.

An animal model to study ACL reconstruction during growth.

Meller R, Haasper C, Westhoff J, Brand J, Knobloch K, Hankemeier S, Hesse E, Krettek C, Jagodzinski M.

Technol Health Care. 2009;17(5-6):403-10. doi: 10.3233/THC-2009-0561.

PMID:
20051620
16.

Functional anatomy of the deer spine: an appropriate biomechanical model for the human spine?

Kumar N, Kukreti S, Ishaque M, Sengupta DK, Mulholland RC.

Anat Rec. 2002 Feb 1;266(2):108-17.

PMID:
11788944
17.

Age-related bone mineral density, bone loss rate, prevalence of osteoporosis, and reference database of women at multiple centers in China.

Cheng XG, Yang DZ, Zhou Q, Zhuo TJ, Zhang HC, Xiang J, Wang HF, Ou PZ, Liu JL, Xu L, Huang GY, Huang QR, Barden HS, Weynand LS, Faulkner KG, Meng XW.

J Clin Densitom. 2007 Jul-Sep;10(3):276-84. Epub 2007 Jun 28.

PMID:
17604665
18.

Growth gradients in the skeleton of cattle, sheep and pigs.

Davies AS, Tan GY, Broad TE.

Anat Histol Embryol. 1984 Sep;13(3):222-30. No abstract available.

PMID:
6239567
19.

A normative database of lumbar spine ranges of motion.

Troke M, Moore AP, Maillardet FJ, Cheek E.

Man Ther. 2005 Aug;10(3):198-206.

PMID:
16038855
20.

Growing rods for spinal deformity: characterizing consensus and variation in current use.

Yang JS, McElroy MJ, Akbarnia BA, Salari P, Oliveira D, Thompson GH, Emans JB, Yazici M, Skaggs DL, Shah SA, Kostial PN, Sponseller PD.

J Pediatr Orthop. 2010 Apr-May;30(3):264-70. doi: 10.1097/BPO.0b013e3181d40f94.

PMID:
20357593

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