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51. Disc degeneration reduces the delamination strength of the annulus fibrosus in the rabbit annular disc puncture model

Author

Gregory, Diane E, Bae, Won C, Sah, Robert L, and Masuda, Koichi

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Animals, Disease Models, Animal, Intervertebral Disc, Intervertebral Disc Degeneration, Magnetic Resonance Imaging, Punctures, Rabbits, Radiography, Tensile Strength, Annulus fibrosus, Lamellae, Disc herniation, Animal model, Puncture, Disc therapy, Neurosciences, Orthopedics, Clinical sciences, Allied health and rehabilitation science
Abstract

Background contextDegenerative disc disease is a common pathologic disorder accompanied by both structural and biochemical changes. Changes in stress distribution across the disc can lead to annulus fibrosus (AF) damage that can affect the strength and integrity of the disc. Given that some present degeneration therapies incorporate biological regrowth of the nucleus pulposus (NP), it is crucial that the AF remains capable of containing this newly grown material.PurposeTo examine the resistance of AF to delamination using an adhesive peel test in experimentally degenerated rabbit discs.Study designExperimentally induced disc degeneration; excised AF tissue study.MethodsDisc degeneration was induced in eight New Zealand white rabbits by annular puncture; four additional rabbits served as controls. In experimental rabbits, an 18-gauge needle was inserted into the anterolateral AF region of levels L2-L3 and L4-L5, and disc height was monitored by X-ray. Animals were sacrificed at 4 and 12 weeks postsurgery and magnetic resonance images and X-rays were taken. Four discs were excised from the experimental animals; two punctured (L2-L3 and L4-L5) and two controls (L3-L4 and L6-L7). The same four discs were also excised from the age-matched control animals and served as nonpunctured control discs. To determine resistance to delamination, AF samples were dissected from each disc and subjected to a mechanical peel test at 0.5 mm/s.ResultsMagnetic resonance imaging and X-ray images confirmed dehydration of the NP and reduced disc height, similar to that found in clinical degeneration. Resistance to delamination was significantly lower in punctured/degenerated discs compared with both the nonpunctured discs from the same animal (27% lower) and the nonpunctured control discs (30% lower) (p=.024).ConclusionsThe findings of this study suggest that degeneration increases the potential for delamination between AF layers. Given this substantial change to the integrity of the AF after degeneration, clinical treatments should not only target rehydration or regrowth of the NP, but should also target repair and strengthening of the AF to confine the NP.

Published
2014

52. Development of a Comprehensive Osteochondral Allograft MRI Scoring System (OCAMRISS) With Histopathologic, Micro–Computed Tomography, and Biomechanical Validation

Author

Chang, Eric Y, Pallante-Kichura, Andrea L, Bae, Won C, Du, Jiang, Statum, Sheronda, Wolfson, Tanya, Gamst, Anthony C, Cory, Esther, Amiel, David, Bugbee, William D, Sah, Robert L, and Chung, Christine B

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Transplantation, Bioengineering, Biomedical Imaging, Arthritis, Musculoskeletal, cartilage repair, osteochondral allografts, MRI scoring system, Biomedical Engineering, Medical Biotechnology, Clinical sciences
Abstract

ObjectiveTo describe and apply a semi-quantitative MRI scoring system for multi-feature analysis of cartilage defect repair in the knee by osteochondral allografts, and to correlate this scoring system with histopathologic, micro-computed tomography (μCT), and biomechanical reference standards using a goat repair model.DesignFourteen adult goats had two osteochondral allografts implanted into each knee: one in the medial femoral condyle (MFC) and one in the lateral trochlea (LT). At 12 months, goats were euthanized and MRI was performed. Two blinded radiologists independently rated nine primary features for each graft, including cartilage signal, fill, edge integration, surface congruity, calcified cartilage integrity, subchondral bone plate congruity, subchondral bone marrow signal, osseous integration, and presence of cystic changes. Four ancillary features of the joint were also evaluated, including opposing cartilage, meniscal tears, synovitis, and fat-pad scarring. Comparison was made with histological and μCT reference standards as well as biomechanical measures. Interobserver agreement and agreement with reference standards was assessed. Cohen's kappa, Spearman's correlation, and Kruskal-Wallis tests were used as appropriate.ResultsThere was substantial agreement (κ>0.6, p

Published
2014

53. Aliphatic and Olefinic Fat Suppression in the Orbit Using Polarity-altered Spectral and Spatial Selective Acquisition (PASTA) with Opposed Phase.

Author

Malis, Vadim, Bae, Won C., Asako Yamamoto, Yoshimori Kassai, McDonald, Marin A., and Mitsue Miyazaki

Subjects
FATTY acid analysis, WALNUT, OPTIC nerve, PATHOLOGY, FAT measurement
Abstract

Purpose: Fatty acid composition of the orbit makes it challenging to achieve complete fat suppression during orbitMR imaging. Implementation of a fat suppression technique capable of suppressing signals from saturated (aliphatic) and unsaturated (olefinic or protons at double-bonded carbon sites) fat would improve the visualization of an optical nerve. Furthermore, the ability to semi-quantify the fractions of aliphatic and olefinic fat may potentially provide valuable information in assessing orbit pathology. Methods: A phantom study was conducted on various oil samples on a clinical 3 Tesla scanner. The imaging protocol included three 2D fast spin echo (FSE) sequences: in-phase, polarity-altered spectral and spatial selective acquisition (PASTA), and a combination of PASTA with opposed phase in olefinic and aliphatic chemical shift. The results were validated against high-resolution 11.7T NMR and compared with images acquired with spectral attenuated inversion recovery (SPAIR) and chemical shift selective (CHESS) fat suppression techniques. In-vivo data were acquired on eight healthy subjects and were compared with the prior histological studies. Results: PASTA with opposed phase achieved complete suppression of fat signals in the orbits and provided images of well-delineated optical nerves and muscles in all subjects. The olefinic fat fraction in the olive, walnut, and fish oil phantoms at 3T was found to be 5.0%, 11.2%, and 12.8%, respectively, whereas 11.7T NMR provides the following olefinic fat fractions: 6.0% for olive, 11.5% for walnut, and 12.6% for fish oils. For the in-vivo study, on average, olefinic fat accounted for 9.9% ± 3.8% of total fat while the aliphatic fat fraction was 90.1% ± 3.8%, in the normal orbits. Conclusion: We have introduced a new fat suppression technique using PASTA with opposed phase and applied it to human orbits. The purposed method achieves an excellent orbital fat suppression and the quantification of aliphatic and olefinic fat signals. [ABSTRACT FROM AUTHOR]

Published
2024
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54. Physical Exercise Alters Egress Pathways for Intrinsic CSF Outflow: An Investigation Performed with Spin-labeling MR Imaging.

Author

Mitsue Miyazaki, Malis, Vadim, Asako Yamamoto, Kungsamutr, Jirach, McEvoy, Linda K., McDonald, Marin A., and Bae, Won C.

Subjects
CEREBROSPINAL fluid, CENTRAL nervous system, EXERCISE, SEDENTARY lifestyles, PHYSICAL activity
Abstract

Purpose: Cerebrospinal fluid (CSF) clearance is essential for maintaining a healthy brain and cognition by removal of metabolic waste from the central nervous system. Physical exercise has been shown to improve human health; however, the effect of physical exercise on intrinsic CSF outflow in humans remains unexplored. The purpose of this study was to investigate intrinsic CSF outflow pathways and quantitative metrics of healthy individuals with active and sedentary lifestyles. In addition, the effect of exercise was investigated among the sedentary subjects before and after 3 weeks of physical activity. Methods: This study was performed on 18 healthy adults with informed consent, using a clinical 3-Tesla MRI scanner. We classified participants into two groups based on reported time spent sitting per day (active group: < 7 hours sitting per day and sedentary group: = 7 hours sitting per day). To elucidate the effect of exercise, sedentary individuals increased their activity to 3.5 hours for 3 weeks. Results: We show that there are two intrinsic CSF egress pathways of the dura mater and lower parasagittal dura (PSD). The adults with an active lifestyle had greater intrinsic CSF outflow metrics than adults with a more sedentary lifestyle. However, after increased physical activity, the sedentary group showed improved CSF outflow metrics. This improvement was particularly notable at the lower PSD, where outflow metrics were highest among the active group. Conclusion: Our findings describe the relationship between physical activity and intrinsic CSF outflow and show a potential selective outflow pathway with increasing physical activity in the lower PSD pathway, potentially from the perivascular space or cortical venous subpial space. [ABSTRACT FROM AUTHOR]

Published
2024
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55. Relationship between knee and ankle degeneration in a population of organ donors

Author

Muehleman, Carol, Margulis, Arkady, Bae, Won C, and Masuda, Koichi

Abstract

Abstract Background Osteoarthritis (OA) is a progressive degenerative condition of synovial joints in response to both internal and external factors. The relationship of OA in one joint of an extremity to another joint within the same extremity, or between extremities, has been a topic of interest in reference to the etiology and/or progression of the disease. Methods The prevalence of articular cartilage lesions and osteophytes, characteristic of OA, was evaluated through visual inspection and grading in 1060 adult knee/tali pairs from 545 cadaveric joint donors. Results Joint degeneration increased more rapidly with age for the knee joint, and significantly more knee joints displayed more severe degeneration than ankle joints from as early as the third decade. Women displayed more severe knee degeneration than did men. Severe ankle degeneration did not exist in the absence of severe knee degeneration. The effect of weight on joint degeneration was joint-specific whereby weight had a significantly greater effect on the knee. Ankle grades increasingly did not match within a donor as the grade of degeneration in either the left or the right knee increased. Conclusions Gender and body type have a greater effect on knee joint integrity as compared to the ankle, suggesting that knees are more prone to internal causative effects of degeneration. We hypothesize that the greater variability in joint health between joints within an individual as disease progresses from normal to early signs of degeneration may be a result of mismatched limb kinetics, which in turn might lead to joint disease progression.

Published
2010

57. Age-related Decline of Intrinsic Cerebrospinal Fluid Outflow in Healthy Humans Detected with Non-contrast Spin-labeling MR Imaging.

Author

Malis, Vadim, Bae, Won C., Asako Yamamoto, McEvoy, Linda K., McDonald, Marin A., and Miyazaki, Mitsue

Subjects
CEREBROSPINAL fluid, NEURODEGENERATION, SPIN labels, AGING, CLINICAL trials
Abstract

Purpose: Clearance of cerebrospinal fluid (CSF) is important for the removal of toxins from the brain, with implications for neurodegenerative diseases. Imaging evaluation of CSF outflow in humans has been limited, relying on venous or invasive intrathecal injections of contrast agents. The objective of this study was to introduce a novel spin-labeling MRI technique to detect and quantify the movement of endogenously tagged CSF, and then apply it to evaluate CSF outflow in normal humans of varying ages. Methods: This study was performed on a clinical 3-Tesla MRI scanner in 16 healthy subjects with an age range of 19-71 years with informed consent. Our spin-labeling MRI technique applies a tag pulse on the brain hemisphere, and images the outflow of the tagged CSF into the superior sagittal sinus (SSS). We obtained 3D images in real time, which was analyzed to determine tagged-signal changes in different regions of the meninges involved in CSF outflow. Additionally, the signal changes over time were fit to a signal curve to determine quantitative flow metrics. These were correlated against subject age to determine aging effects. Results: We observed the signal of the tagged CSF moving from the dura mater and parasagittal dura, and finally draining into the SSS. In addition, we observed a possibility of another pathway which is seen in some young subjects. Furthermore, quantitative CSF outflow metrics were shown to decrease significantly with age. Conclusion: We demonstrate a novel non-invasive MRI technique identifying two intrinsic CSF clearance pathways, and observe an age-related decline of CSF flow metrics in healthy subjects. Our work provides a new opportunity to better understand the relationships of these CSF clearance pathways during the aging process, which may ultimately provide insight into the age-related prevalence of neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published
2024
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59. Lung T2* mapping using 3D ultrashort TE with tight intervals δTE.

Author

Malis, Vadim, Kassai, Yoshimori, Vucevic, Diana, Bae, Won C., Ohno, Yoshiharu, Yen, Andrew, and Miyazaki, Mitsue

Subjects
MONTE Carlo method, LUNGS
Abstract

Purpose: To develop 3D ultrashort‐TE (UTE) sequences with tight TE intervals (δTE), allowing for accurate T2*$$ {\mathrm{T}}_2^{\ast } $$ mapping of lungs under free breathing. Methods: We have implemented a four‐echo UTE sequence with δTE (< 0.5 ms). A Monte‐Carlo simulation was performed to identify an optimal number of echoes that would result in a significant improvement in the accuracy of the T2*$$ {\mathrm{T}}_2^{\ast } $$ fit within an acceptable scan time. A validation study was conducted on a phantom with known short T2*$$ {\mathrm{T}}_2^{\ast } $$ values (< 5 ms). The scanning protocol included a combination of a standard multi‐echo UTE with six echoes (2.2‐ms intervals) and a new four‐echo UTE (TE < 2 ms) with tight TE intervals δTE. The human imaging was performed at 3 T on 6 adult volunteers. T2*$$ {\mathrm{T}}_2^{\ast } $$ mapping was performed with mono‐exponential and bi‐exponential models. Results: The simulation for the proposed 10‐echo acquisition predicted over 2‐fold improvement in the accuracy of estimating the short T2*$$ {\mathrm{T}}_2^{\ast } $$ compared with the regular six‐echo acquisition. In the phantom study, the T2*$$ {\mathrm{T}}_2^{\ast } $$ was measured up to three times more accurately compared with standard six‐echo UTE. In human lungs, T2*$$ {\mathrm{T}}_2^{\ast } $$ maps were successfully obtained from 10 echoes, yielding average values T2*$$ {\mathrm{T}}_2^{\ast } $$ = 1.62 ± 0.48 ms for mono‐exponential and T2s*$$ {\mathrm{T}}_{2s}^{\ast } $$ = 1.00 ± 0.53 ms for bi‐exponential models. Conclusion: A UTE sequence using δTE was implemented and validated on short T2*$$ {\mathrm{T}}_2^{\ast } $$ phantoms. The sequence was successfully applied for lung imaging; the bi‐exponential signal model fit for human lung imaging may provide valuable insights into the diseased human lungs. [ABSTRACT FROM AUTHOR]

Published
2023
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82. Follow-up of osteochondral plug transfers in a goat model: a 6-month study

Author

Lane, John G., Massie, Jennifer B., Ball, Scott T., Amiel, Michael E., Chen, Albert C., Bae, Won C., Sah, Robert L., and Amiel, David

Subjects
Athletes -- Care and treatment, Athletes -- Research, Osteochondrosis -- Care and treatment, Osteochondrosis -- Research, Health, Sports and fitness
Published
2004

94. Ultrashort Time-to-Echo Magnetic Resonance Imaging at 3 T for the Detection of Spondylolysis in Cadaveric Spines: Comparison With CT.

Author

Finkenstaedt, Tim, Finkenstaedt, Tim, Siriwanarangsun, Palanan, Achar, Suraj, Carl, Michael, Finkenstaedt, Sina, Abeydeera, Nirusha, Chung, Christine B, Bae, Won C, Finkenstaedt, Tim, Finkenstaedt, Tim, Siriwanarangsun, Palanan, Achar, Suraj, Carl, Michael, Finkenstaedt, Sina, Abeydeera, Nirusha, Chung, Christine B, and Bae, Won C

Abstract

ObjectivesThe objective of this study was to compare the diagnostic performance and confidence of conventional, optimized, and ultrashort time to echo (UTE) magnetic resonance (MR) protocols for detection of simulated lumbar spondylolysis in human cadavers. In addition, we sought to demonstrate the feasibility of the UTE technique in subjects with and without spondylolysis.Materials and methodsFour human lumbar spine specimens with 46 individual pars interarticularis were randomly left intact (n = 26) or received experimental osteotomy (n = 20) using a microsurgical saw to simulate spondylolysis. The specimens were imaged using a computed tomography (CT) scan along with 3 "Tiers" of MR protocols at 3 T: Tier 1, conventional lumbar MR protocol; Tier 2, optimized conventional protocol consisting of a sagittal oblique spoiled gradient recall echo and axial oblique T1 and short tau inversion recovery sequences; and Tier 3, a sagittal UTE MR sequence. Two blinded readers evaluated the images using a 4-point scale (1 = spondylolysis certainly absent, 2 = probably absent, 3 = probably present, 4 = certainly present) at each individual pars. For each imaging protocol, diagnostic performance (sensitivity, specificity, and area under the receiver operating characteristic curve, using the surgical osteotomy as the reference) and confidence were assessed and compared using the McNemar test. Furthermore, 2 human subjects were imaged with the conventional and UTE MR protocols to demonstrate feasibility in vivo.ResultsDiagnostic performance was moderate for Tiers 1 and 2, with a moderate sensitivity (0.70 to 0.75) and high (1.00) specificity. In contrast, CT and Tier 3 UTE MR imaging had both high sensitivity (1.00) and specificity (1.00). The sensitivities of CT or Tier 3 were statistically greater than Tier 1 sensitivity (P = 0.041) and neared statistical significance when compared with Tier 2 sensitivity (P = 0.074). Area under the receiver operating characteristic curve was al

Published
2019

95. The Gail model predicts breast cancer in women with suspicious radiographic lesions

Author

Weik, Jennifer L., Lum, Sharon S., Esquivel, Pamela A., Tully, Richard J., Bae, Won C., Petersen, Floyd F., Jaque, Jenny M., Reeves, Mark E., and Garberoglio, Carlos A.

Subjects
Breast cancer -- Diagnosis, Breast cancer -- Risk factors, Oncology, Experimental -- Evaluation, Computer-aided medical diagnosis -- Evaluation, Women -- Health aspects, Cancer -- Research, Cancer -- Evaluation, Health
Published
2005

96. Depth-varying density and organization of chondrocytes in immature and mature bovine articular cartilage assessed by 3d imaging and analysis

Author

Jadin, Kyle D, Wong, Benjamin L, Bae, Won C, Li, Kelvin W, Williamson, Amanda K, Schumacher, Barbara L, Price, Jeffrey H, and Sah, Robert L

Subjects
Life Sciences (General)
Abstract

Articular cartilage is a heterogeneous tissue, with cell density and organization varying with depth from the surface. The objectives of the present study were to establish a method for localizing individual cells in three-dimensional (3D) images of cartilage and quantifying depth-associated variation in cellularity and cell organization at different stages of growth. Accuracy of nucleus localization was high, with 99% sensitivity relative to manual localization. Cellularity (million cells per cm3) decreased from 290, 310, and 150 near the articular surface in fetal, calf, and adult samples, respectively, to 120, 110, and 50 at a depth of 1.0 mm. The distance/angle to the nearest neighboring cell was 7.9 microm/31 degrees , 7.1 microm/31 degrees , and 9.1 microm/31 degrees for cells at the articular surface of fetal, calf, and adult samples, respectively, and increased/decreased to 11.6 microm/31 degrees , 12.0 microm/30 degrees , and 19.2 microm/25 degrees at a depth of 0.7 mm. The methodologies described here may be useful for analyzing the 3D cellular organization of cartilage during growth, maturation, aging, degeneration, and regeneration.

Published
2005
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100. Correction to: ISSLS PRIZE IN BASIC SCIENCE 2018: Growth differentiation factor-6 attenuated pro-inflammatory molecular changes in the rabbit anular-puncture model and degenerated disc-induced pain generation in the rat xenograft radiculopathy model

Author

Miyazaki, Shingo, primary, Diwan, Ashish D., additional, Kato, Kenji, additional, Cheng, Kevin, additional, Bae, Won C., additional, Sun, Yang, additional, Yamada, Junichi, additional, Muehleman, Carol, additional, Lenz, Mary E., additional, Inoue, Nozomu, additional, Sah, Robert L., additional, Kawakami, Mamoru, additional, and Masuda, Koichi, additional

Published
2019
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