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Genetic relationships between clinical mastitis, somatic cell count, and udder conformation in Danish Holsteins

Lund, T. ; Miglior, F. ; Dekkers, J.C.M. ; [et al.]

Amsterdam : Elsevier

Livestock Production Science 39 (1994), S. 243-251

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ISSN: 0301-6226

Keywords: Clinical mastitis ; Dairy cattle ; Genetic parameters ; Somatic cell count ; Udder conformation

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0301-6226(94)90203-8

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Compressive strength of interbody cages in the lumbar spine: the effect of cage shape, posterior instrumentation and bone density (1998)

Jost, B. ; Cripton, P. A. ; Lund, T. ; [et al.]

Springer

European spine journal 7 (1998), S. 132-141

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ISSN: 1432-0932

Keywords: Key words Spine ; Interbody ; Fusion ; Compression ; Biomechanics ; Implant ; Posterior ; lumbar intervertebral fusion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract One goal of interbody fusion is to increase the height of the degenerated disc space. Interbody cages in particular have been promoted with the claim that they can maintain the disc space better than other methods. There are many factors that can affect the disc height maintenance, including graft or cage design, the quality of the surrounding bone and the presence of supplementary posterior fixation. The present study is an in vitro biomechanical investigation of the compressive behaviour of three different interbody cage designs in a human cadaveric model. The effect of bone density and posterior instrumentation were assessed. Thirty-six lumbar functional spinal units were instrumented with one of three interbody cages: (1) a porous titanium implant with endplate fit (Stratec), (2) a porous, rectangular carbon-fibre implant (Brantigan) and (3) a porous, cylindrical threaded implant (Ray). Posterior instrumentation (USS) was applied to half of the specimens. All specimens were subjected to axial compression displacement until failure. Correlations between both the failure load and the load at 3 mm displacement with the bone density measurements were observed. Neither the cage design nor the presence of posterior instrumentation had a significant effect on the failure load. The loads at 3 mm were slightly less for the Stratec cage, implying lower axial stiffness, but were not different with posterior instrumentation. The large range of observed failure loads overlaps the potential in vivo compressive loads, implying that failure of the bone-implant interface may occur clinically. Preoperative measurements of bone density may be an effective tool to predict settling around interbody cages.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005860050043

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Accuracy of pedicle screw insertion with and without computer assistance: a randomised controlled clinical study in 100 consecutive patients (2000)

Laine, T. ; Lund, T. ; Ylikoski, M. ; [et al.]

Springer

European spine journal 9 (2000), S. 235-240

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ISSN: 1432-0932

Keywords: Key words Spine surgery ; Computer-assisted surgery ; Pedicle screws ; Image guidance ; Randomised controlled trial

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We performed a randomised controlled study to assess the accuracy of computer-assisted pedicle screw insertion versus conventional screw placement under clinical conditions. One hundred patients scheduled for posterior thoracolumbar or lumbosacral pedicle screw instrumentation were randomised into two groups, either for conventional pedicle screw placement or computer-assisted screw application using an optoelectronic navigation system. From the computer-assisted group, nine patients were excluded: one because of an inadequate preoperative computed tomography study, seven because of problems with the specific instruments or the computer system, and one because of an intraoperative anesthesiological complication. Thus, there were 50 patients in the conventional group and 41 in the computer-assisted group, and the number of screws inserted was 277 and 219, respectively. There was no statistical difference between the groups concerning age, gender, diagnosis, type of operation performed, mean operating time, blood loss, or number of screws inserted. The time taken for screw insertion was significantly longer in the computer-assisted group. Postoperatively, screw positions were assessed by an independent radiologist using a sophisticated CT imaging protocol. The pedicle perforation rate was 13.4% in the conventional group and 4.6% in the computer-assisted group (P = 0.006). Pedicle perforations of more than 4 mm were found in 1.4% (4/277) of the screw insertions in the conventional group, and none in the computer-assisted group. Complications not related to pedicle screws were two L5 nerve root lesions, one end plate fracture, one major intraoperative bleeding and one postoperative death in the conventional group, and one deep infection in the computer-assisted group. In conclusion, pedicular screws were inserted more accurately with image-guided computer navigation than with conventional methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005860000146

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Biomechanics of stand-alone cages and cages in combination with posterior fixation: a literature review (2000)

Oxland, T. R. ; Lund, T.

Springer

European spine journal 9 (2000), S. S095

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ISSN: 1432-0932

Keywords: Key words Interbody cage ; Biomechanics ; Implant ; Stabilization ; Strength

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Interbody cages in the lumbar spine have met with mixed success in clinical studies. This has led many investigators to supplement cages with posterior instrumentation. The objective of this literature review is to address the mechanics of interbody cage fixation in the lumbar spine with respect to three-dimensional stabilization and the strength of the cage-vertebra interface. The effect of supplementary posterior fixation is reviewed. Only three-dimensional stabilization evaluations in human cadaveric models are included. These studies involve the application of different loads to the spine and the measurement of vertebral motion in flexion-extension, axial rotation, and lateral bending. There are no published studies which detected any differences between different cage designs. However, it does seem that cages inserted from an anterior direction provide better stabilization to the spine than those inserted from a posterior direction. In general, anterior cages stabilize better than posterior cages in axial rotation and lateral bending. Cages from both directions stabilized well in flexion, but not in extension. Supplementary posterior fixation with pedicle or translaminar screws substantially improves the stabilization in all directions. The strength of the cage-vertebra interface from studies using human cadaveric specimens is also reviewed. The axial compressive strength of this interface is highly dependent upon vertebral body bone density. Other factors such as preservation of the subchondral bony end-plate and cage design are clearly less important in the compressive strength. Supplementary posterior instrumentation does not enhance substantially the interface strength in axial compression.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00010028

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