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1 roup A patients with bone scans positive for facet joint abnormalities received injections at the lev
2 ful model for the study of OA changes in the facet joint and indicate that facet joint degeneration i
4 diagnoses of septic arthritis of the lumbar facet joint and septic arthritis caused by direct inocul
5 etiology and clinical symptoms of the septic facet joint arthritis as well as the significant role of
6 final accurate diagnosis of isolated septic facet joint arthritis at the level of L5/S1 was establis
9 on of the intervertebral discs, bulging, and facet joint arthropathy have been documented in almost 9
10 nnulated screws were placed per level to fix facet joints by using either a translaminar facet or tra
11 MIA injection resulted in severely damaged facet joint cartilage, proteoglycan loss, and alteration
13 n cellular and structural alterations within facet joint components and the development of symptomati
15 changes in the facet joint and indicate that facet joint degeneration is a major cause of chronic low
16 gested that the behavioral hyperalgesia from facet joint degeneration was not associated with foramin
17 perineural intraforaminal fat, hypertrophic facet joint degeneration, absent fluid around the cauda
18 erized by asymmetric intervertebral disc and facet joint degeneration, leading to spinal imbalance th
19 iated with nonspinal causes of pain, such as facet joint degeneration, pars defect, or presumed scar
20 Mechanical hyperalgesia elicited by painful facet joint distraction is associated with spinal neuron
23 ack pain, a positive diagnostic block at the facet joints (facet joint trial, 251 participants), sacr
26 ceived transforaminal epidural injections or facet joint injections under fluoroscopic or CT guidance
27 rticipant dose for fluoroscopy-guided lumbar facet joint injections was 0.10 mSv +/- 0.11, compared w
28 ) with low back pain, who were scheduled for facet joint injections, were prospectively enrolled and
30 sure, which mimics a mechanical stimulus for facet joint injury, was measured using an algometer.
31 jection of monosodium iodoacetate (MIA) into facet joints (L3-L4, L4-L5, L5-L6) of Sprague-Dawley rat
32 heir combination into the cervical or lumbar facet joint or sacroiliac joint; epidural injections of
33 ofrequency denervation of cervical or lumbar facet joints or the sacroiliac joint; and paravertebral
35 ith chronic low back pain originating in the facet joints, sacroiliac joints, or a combination of fac
36 ints, sacroiliac joints, or a combination of facet joints, sacroiliac joints, or intervertebral disks
37 rial, 228 participants), or a combination of facet joints, sacroiliac joints, or intervertebral disks
38 ntervertebral disk-associated radiculopathy, facet joint syndrome, back pain during pregnancy, and sp
39 sitive diagnostic block at the facet joints (facet joint trial, 251 participants), sacroiliac joints
40 ths was -0.18 (95% CI, -0.76 to 0.40) in the facet joint trial; -0.71 (95% CI, -1.35 to -0.06) in the
41 effects of transitional vertebra anatomy on facet joint tropism and orientation by evaluating lumbar