safranine-t and Intervertebral-Disc-Degeneration

safranine-t has been researched along with Intervertebral-Disc-Degeneration* in 2 studies

Trials

1 trial(s) available for safranine-t and Intervertebral-Disc-Degeneration

Article	Year
Spinal hernia tissue autofluorescence spectrum. Lasers in medical science, 2013, Volume: 28, Issue:2 The laser intervertebral disc decompression may provide appropriate relief in properly selected patients with contained disc herniations. The present investigation aims to characterise intervertebral disc material by autofluorescence induced by laser light. Degeneration of the intervertebral disc is associated with progressive biochemical changes in disc material. Percutaneous laser disc decompression has become rather popular for the treatment of lumbar disc herniation, but there are problems in the selection of patients. For this purpose, recognition of the disc composition is necessary. We propose a new type of spectroscopic investigation. It is advantageous to the characterization of intervertebral disc material. Intervertebral disc specimens were removed during open surgery from different disc locations. Preoperative patients' MRI was evaluated using the Pfirrmann disc degeneration and Komori scale for migrating of herniated nucleus pulposus. Adjacent slices of stained disc sections were evaluated by histology/histochemistry and autofluorescence spectra. Comparison of the MRI, spectral, histological and histochemical data was performed. The MRI Komori scale correlated with the histology Boos degeneration index. In the histochemistry, collagens other than collagens I and II of the disc were distinguished with best positive correlation coefficient (0.829) and best negative one (-0.904) of proteoglycans of sequester to Boos index. A correlation of the IV Gaussian component of the hernia spectra with the Boos index was established. The Gaussian component correlation with different collagen types and proteoglycan was determined for the disc and sequester. "Autofluorescence-based diagnosis" refers to the evaluation of disc degeneration by histological and histochemical evaluation; it can provide additional data on the degeneration of an intervertebral disc. Topics: Collagen Type I; Collagen Type II; Fluorescence; Humans; Intervertebral Disc; Intervertebral Disc Degeneration; Intervertebral Disc Displacement; Lasers; Magnetic Resonance Imaging; Phenazines; Proteoglycans	2013

Article

Year

Spinal hernia tissue autofluorescence spectrum.

Lasers in medical science, 2013, Volume: 28, Issue:2

The laser intervertebral disc decompression may provide appropriate relief in properly selected patients with contained disc herniations. The present investigation aims to characterise intervertebral disc material by autofluorescence induced by laser light. Degeneration of the intervertebral disc is associated with progressive biochemical changes in disc material. Percutaneous laser disc decompression has become rather popular for the treatment of lumbar disc herniation, but there are problems in the selection of patients. For this purpose, recognition of the disc composition is necessary. We propose a new type of spectroscopic investigation. It is advantageous to the characterization of intervertebral disc material. Intervertebral disc specimens were removed during open surgery from different disc locations. Preoperative patients' MRI was evaluated using the Pfirrmann disc degeneration and Komori scale for migrating of herniated nucleus pulposus. Adjacent slices of stained disc sections were evaluated by histology/histochemistry and autofluorescence spectra. Comparison of the MRI, spectral, histological and histochemical data was performed. The MRI Komori scale correlated with the histology Boos degeneration index. In the histochemistry, collagens other than collagens I and II of the disc were distinguished with best positive correlation coefficient (0.829) and best negative one (-0.904) of proteoglycans of sequester to Boos index. A correlation of the IV Gaussian component of the hernia spectra with the Boos index was established. The Gaussian component correlation with different collagen types and proteoglycan was determined for the disc and sequester. "Autofluorescence-based diagnosis" refers to the evaluation of disc degeneration by histological and histochemical evaluation; it can provide additional data on the degeneration of an intervertebral disc.

Topics: Collagen Type I; Collagen Type II; Fluorescence; Humans; Intervertebral Disc; Intervertebral Disc Degeneration; Intervertebral Disc Displacement; Lasers; Magnetic Resonance Imaging; Phenazines; Proteoglycans

2013

Other Studies

1 other study(ies) available for safranine-t and Intervertebral-Disc-Degeneration

Article	Year
Annulus fissures are mechanically and chemically conducive to the ingrowth of nerves and blood vessels. Spine, 2012, Oct-15, Volume: 37, Issue:22 Mechanical and biochemical analyses of cadaveric and surgically removed discs.. To test the hypothesis that fissures in the annulus of degenerated human discs are mechanically and chemically conducive to the ingrowth of nerves and blood vessels.. Discogenic back pain is closely associated with fissures in the annulus fibrosus, and with the ingrowth of nerves and blood vessels.. Three complementary studies were performed. First, 15 cadaveric discs that contained a major annulus fissure were subjected to 1 kN compression, while a miniature pressure transducer was pulled through the disc to obtain distributions of matrix compressive stress perpendicular to the fissure axis. Second, Safranin O staining was used to evaluate focal loss of proteoglycans from within annulus fissures in 25 surgically removed disc samples. Third, in 21 cadaveric discs, proteoglycans (sulfated glycosaminoglycans [sGAGs]) and water concentration were measured biochemically in disrupted regions of annulus containing 1 or more fissures, and in adjacent intact regions.. Reductions in compressive stress within annulus fissures averaged 36% to 46%, and could have been greater at the fissure axis. Stress reductions were greater in degenerated discs, and were inversely related to nucleus pressure (R(2) = 47%; P = 0.005). Safranin O stain intensity indicated that proteoglycan concentration was typically reduced by 40% at a distance of 600 μm from the fissure axis, and the width of the proteoglycan-depleted zone increased with age (P < 0.006; R(2) = 0.29) and with general proteoglycan loss (P < 0.001; R(2) = 0.32). Disrupted regions of annulus contained 36% to 54% less proteoglycans than adjacent intact regions from the same discs, although water content was reduced only slightly.. Annulus fissures provide a low-pressure microenvironment that allows focal proteoglycan loss, leaving a matrix that is conducive to nerve and blood vessel ingrowth. Topics: Adolescent; Adult; Aged; Aged, 80 and over; Blood Vessels; Cadaver; Cell Movement; Child; Female; Humans; In Vitro Techniques; Intervertebral Disc; Intervertebral Disc Degeneration; Male; Middle Aged; Phenazines; Proteoglycans; Spinal Nerves; Stress, Mechanical; Young Adult	2012

Article

Year

Annulus fissures are mechanically and chemically conducive to the ingrowth of nerves and blood vessels.

Spine, 2012, Oct-15, Volume: 37, Issue:22

Mechanical and biochemical analyses of cadaveric and surgically removed discs.. To test the hypothesis that fissures in the annulus of degenerated human discs are mechanically and chemically conducive to the ingrowth of nerves and blood vessels.. Discogenic back pain is closely associated with fissures in the annulus fibrosus, and with the ingrowth of nerves and blood vessels.. Three complementary studies were performed. First, 15 cadaveric discs that contained a major annulus fissure were subjected to 1 kN compression, while a miniature pressure transducer was pulled through the disc to obtain distributions of matrix compressive stress perpendicular to the fissure axis. Second, Safranin O staining was used to evaluate focal loss of proteoglycans from within annulus fissures in 25 surgically removed disc samples. Third, in 21 cadaveric discs, proteoglycans (sulfated glycosaminoglycans [sGAGs]) and water concentration were measured biochemically in disrupted regions of annulus containing 1 or more fissures, and in adjacent intact regions.. Reductions in compressive stress within annulus fissures averaged 36% to 46%, and could have been greater at the fissure axis. Stress reductions were greater in degenerated discs, and were inversely related to nucleus pressure (R(2) = 47%; P = 0.005). Safranin O stain intensity indicated that proteoglycan concentration was typically reduced by 40% at a distance of 600 μm from the fissure axis, and the width of the proteoglycan-depleted zone increased with age (P < 0.006; R(2) = 0.29) and with general proteoglycan loss (P < 0.001; R(2) = 0.32). Disrupted regions of annulus contained 36% to 54% less proteoglycans than adjacent intact regions from the same discs, although water content was reduced only slightly.. Annulus fissures provide a low-pressure microenvironment that allows focal proteoglycan loss, leaving a matrix that is conducive to nerve and blood vessel ingrowth.

Topics: Adolescent; Adult; Aged; Aged, 80 and over; Blood Vessels; Cadaver; Cell Movement; Child; Female; Humans; In Vitro Techniques; Intervertebral Disc; Intervertebral Disc Degeneration; Male; Middle Aged; Phenazines; Proteoglycans; Spinal Nerves; Stress, Mechanical; Young Adult

2012