Radiological Investigation of Guinea Pig (Cavia porcellus) Lumbar Vertebral Morphology ‒ A Biomechanical Aspect

1 Goh S, Tan C, Price RI, Edmondston SJ, Song S, Davis S & Singer KP: Influence of age and gender on thoracic vertebral body shape and disc degeneration: An MR investigation of 169 cases. J Anat, 2013, 197: 647-657.10.1046/j.1469-7580.2000.19740647.x146818011197538 Search in Google Scholar

2 Frost BA, Camarero-Espinosa S, Foster EJ: Materials for the Spine: Anatomy, Problems and Solutions. Materials, 2019, 12(2): 253.10.3390/ma12020253635637030646556 Search in Google Scholar

3 Yavropoulou MP, Yovos JG: The molecular basis of bone mechanotransduction. JMNI, 2016, 16(3): 221-236. Search in Google Scholar

4 Tan SH, Teo EC & Chua HC: Quantitative three-dimensional anatomy of cervical, thoracic and lumbar vertebrae of Chinese Singaporeans. Eur Spine J, 2004, 13(2): 137-146.10.1007/s00586-003-0586-z347657814673715 Search in Google Scholar

5 Guerner JN, Erulkar JS, Patel TC, Panjab MM: Biomechanical evaluation of the New Zeland white rabbit lumbar spine: a physiologic characteristic. Eur Spine J, 2000, 9(3): 250-255.10.1007/s005860000141361139110905445 Search in Google Scholar

6 Schulz KS, Waldron DR, Grant JW, Smith G, Shires PK: Biomechanics of the thoracolumbar vertebral column of dogs during lateral bending. Am J Vet Res, 1996, 57(8): 1228-1232. Search in Google Scholar

7 Wilke HJ, Geppert J, Kienle A: Biomechanical in vitro evaluation of the complete porcine spine in comparison with data of the human spine. Eur Spine J, 2011, 20(11): 1859-1868.10.1007/s00586-011-1822-6320733821674213 Search in Google Scholar

8 Mageed M, Berner D, Jülke H, Hohaus C, Brehm W, Gerlach K: Is sheep lumbar spine a suitable alternative model for human spinal researches? Morphometrical comparison study. ILAR J, 2013, 29(4): 183-189.10.5625/lar.2013.29.4.183387933624396382 Search in Google Scholar

9 Riley LH, Eck JC, Yoshida H, Koh YD, You JW, Lim TH: A Biomechanical comparison of calf versus cadaver lumbar spine models. Spine Ј, 2004, 29(11): 217-220.10.1097/00007632-200406010-0002115167671 Search in Google Scholar

10 Buttermann GR, Beaubien BP, Saeger LC: Mature runt cow lumbar intradiscal pressures and motion segment biomechanics. Spine J, 2009, 9(2): 105-114.10.1016/j.spinee.2007.09.006429128318037351 Search in Google Scholar

11 Silvia FMO, Alcantara D, Carvalho RC, Favaron PO, dos Santos AC, Viana DC, Miglino MA, Development of the central nervous system in guinea pig (Cavia porcellus, Rodentia, Caviidae). Pesq Vet Bras, 2016, 36(8): 753-760.10.1590/S0100-736X2016000800013 Search in Google Scholar

12 Mazensky D, Danko J, Petrovova E, Supuka P, Supukova A: Anatomical study of the arterial blood supply to the thoracolumbar spinal cord in guinea pig. Ant Sci Int, 2015, 90(4): 203-208.10.1007/s12565-014-0245-y24966109 Search in Google Scholar

13 McDougall JJ, Andruski B, Schuelert N, Hallgrimsson B, Matyas JR: Unravelling the relationship between age, nociception and joint destruction in naturally occurring osteoarthritis of Dunkin Hartley guinea pigs. Pain, 2009, 141(3): 222-232.10.1016/j.pain.2008.10.01319081191 Search in Google Scholar

14 Narita Y, Kuratani S: Evolution of the vertebral formulae in mammals: A perspective on developmental constraints. J Exp Zool Part B, 2005, 304(2): 91-106.10.1002/jez.b.2102915660398 Search in Google Scholar

15 Brocal J, De Decker S, José-López R, Guevar J, Ortega M, Parkin T, Ter Haar G, Gutierrez-Quintana R: Evaluation of radiography as a screening method for detection and characterisation of congenital vertebral malformations in dogs. Vet Rec, 182(20): 573.10.1136/vr.10438829519855 Search in Google Scholar

16 Proks P, Johansen TM, Nývltová I, Komenda D, Cernochová H, Vignoli M: Vertebral formulae and congenital vertebral anomalies in guinea pigs: A Retrospective Radiographic Study. Animals, 2021, 11(3): 589.10.3390/ani11030589799598233668174 Search in Google Scholar

17 Filipowska J, Tomaszewski KA, Niedźwiedzki Ł, Walocha JA, Neidźwiedzki T: The role of vascular in bone development, regeneration and proper systemic functioning. Angiogenesis, 2017, 20(3): 291-302.10.1007/s10456-017-9541-1551161228194536 Search in Google Scholar

18 Wit JM, Camacho-Hübner C: Endocrine regulation of longitudinal bone growth. Endocr Dev, 2011, 21: 30-41.10.1159/00032811921865752 Search in Google Scholar

19 Milošević I, Radovanović A, Danilović Luković J, Lužajić Božinovski T, Sourice-Petit S, Beck-Cormier S, Guicheux J, Vejnović B, Kovačević Filipović M: Effect of subclinical and overt form of rat maternal hypothyroidism on offspring endochondral bone formation. Acta Vet-Beograd, 2018, 68(3): 301-320.10.2478/acve-2018-0026 Search in Google Scholar

20 Burr DB, Robling AG, Turner CH: Effect of Biomechanical Stress on Bones in Animals. Bone, 2002, 30(5): 781-786.10.1016/S8756-3282(02)00707-X11996920 Search in Google Scholar

21 Melhman CT, Araghi A, Roy DR: Hyphenated history: the Hueter-Volkmann law. Am J Orthop, 1997, 26(11): 798-800.10.1177/0950017097011004022 Search in Google Scholar

22 Ohashi N, Robling AG, Burr DB, Turner CH: The effects of dynamic axial loading on the growth plate. J Bone Miner Res, 2002, 17(2): 284-292.10.1359/jbmr.2002.17.2.28411811559 Search in Google Scholar

23 Stokes IAF, Spence H, Aronsson DD, Kilmer N: Mechanical modulation of vertebral body growth: implications for scoliosis progression. Spine, 1996, 21(10): 1162-1167.10.1097/00007632-199605150-000078727190 Search in Google Scholar

24 Stokes IAF: Mechanical effects on skeletal growth. JMNI, 2(3): 277-280. Search in Google Scholar

25 Moreland MS: Morphological effects of torsion applied to growing bone. J Bone Joint Surg, 1980, 62-B(2): 230-237.10.1302/0301-620X.62B2.69884356988435 Search in Google Scholar

26 Boszczyk BM, Boszczyk AA, Putz R: Comparative and functional anatomy of the mammalian lumbar spine. Anat Rec, 2011, 264(2): 157-68.10.1002/ar.115611590593 Search in Google Scholar

27 Hunter C: Anatomische Studien and den Extremitatengelenken Neugeborner und Erwachsener. Virchows Arch, 1862, 25: 572-599.10.1515/9783112665589-020 Search in Google Scholar

28 Daggfeldt K, Thorstensson A: The mechanics of back-extensor torque production about the lumbar spine. J Biomech, 2003, 36(6): 815-825.10.1016/S0021-9290(03)00015-0 Search in Google Scholar

29 Takahashi I, Kikuchi S, Sato K: Mechanical load of the lumbar spine during forward bending motion of the trunk – a biomechanical study. Spine, 2006, 31(1): 18-23.10.1097/01.brs.0000192636.69129.fb16395171 Search in Google Scholar

30 Martin RB, Burr DB: The Structure, Function and Adaptation of Compact Bone (Reven Press, New York, USA), 1989, 275. Search in Google Scholar

31 Griffith JF, Huang J, Law SW, Xiao F, Leung JCS, Wang D, Shi L: Population reference for development lumbar spinal canal size. Quant Imag Med Surg, 2016, 6(6): 671-679.10.21037/qims.2016.12.17521996428090445 Search in Google Scholar