Your search keyword '"X-ray microtomography"' showing total 26,276 results

1. Growth hormone-receptor disruption in mice reduces osteoarthritis and chondrocyte hypertrophy.

Author

Liu, Huanhuan, Davis, Trent, Duran-Ortiz, Silvana, Martino, Tom, Erdely, Austin, Profio, Shane, Osipov, Benjamin, Loots, Gabriela, Berryman, Darlene, OConnor, Patrick, Kopchick, John, and Zhu, Shouan

Subjects

Chondrocyte, Growth hormone receptor, Hypertrophy, Osteoarthritis, Animals, Female, Chondrocytes, Male, Mice, Receptors, Somatotropin, Hypertrophy, Mice, Knockout, X-Ray Microtomography, Cartilage, Articular, Disease Models, Animal, Osteoarthritis, Knee, Osteoarthritis

Abstract

Excessive growth hormone (GH) has been shown to promote joint degeneration in both preclinical and clinical studies. Little is known about the effect of disrupted GH or GH receptor (GHR) on joint health. The goal of this study is to investigate joint pathology in mice with either germline (GHR-/-) or adult inducible (iGHR-/-) GHR deficiency. Knee joints from male and female GHR-/- and WT mice at 24 months of age were processed for histological analysis. Also, knee joints from male and female iGHR-/- and WT mice at 22 months of age were scanned by micro-CT (μCT) for subchondral bone changes and characterized via histology for cartilage degeneration. Joint sections were also stained for the chondrocyte hypertrophy marker, COLX, and the cartilage degeneration marker, ADAMTS-5, using immunohistochemistry. Compared to WT mice, GHR-/- mice had remarkably smooth articular joint surfaces and an even distribution of proteoglycan with no signs of degeneration. Quantitatively, GHR-/- mice had lower OARSI and Mankin scores compared to WT controls. By contrast, iGHR-/- mice were only moderately protected from developing aging-associated OA. iGHR-/- mice had a significantly lower Mankin score compared to WT. However, Mankin scores were not significantly different between iGHR-/- and WT when males and females were analyzed separately. OARSI scores did not differ significantly between WT and iGHR-/- in either individual or combined sex analyses. Both GHR-/- and iGHR-/- mice had fewer COLX+ hypertrophic chondrocytes compared to WT, while no significant difference was observed in ADAMTS-5 staining. Compared to WT, a significantly lower trabecular thickness in the subchondral bone was observed in the iGHR-/- male mice but not in the female mice. However, there were no significant differences between WT and iGHR-/- mice in the bone volume to total tissue volume (BV/TV), bone mineral density (BMD), and trabecular number in either sex. This study identified that both germline and adult-induced GHR deficiency protected mice from developing aging-associated OA with more effective protection in GHR-/- mice.

Published

2024

2. The Correlation between the Elastic Modulus of the Achilles Tendon Enthesis and Bone Microstructure in the Calcaneal Crescent

Author

Doi, Kenichiro, Moazamian, Dina, Namiranian, Behnam, Statum, Sheronda, Afsahi, Amir Masoud, Yamamoto, Takuaki, Cheng, Karen Y, Chung, Christine B, and Jerban, Saeed

Subjects

Engineering, Biomedical and Clinical Sciences, Clinical Sciences, Humans, Achilles Tendon, Calcaneus, Female, Aged, Elastic Modulus, Male, Cadaver, X-Ray Microtomography, Aged, 80 and over, achilles tendon, enthesis, elastic modulus, calcaneal crescent, bone microstructure, micro-computed tomography

Abstract

BackgroundThe calcaneal enthesis, an osseous footprint where the Achilles tendon seamlessly integrates with the bone, represents a complex interface crucial for effective force transmission. Bone adapts to mechanical stress and remodels based on the applied internal and external forces. This study explores the relationship between the elasticity of the Achilles tendon enthesis and the bone microstructure in the calcaneal crescent.MethodsIn total, 19 calcaneal-enthesis sections, harvested from 10 fresh-frozen human cadaveric foot-ankle specimens (73.8 ± 6.0 years old, seven female), were used in this study. Indentation tests were performed at the enthesis region, and Hayes' elastic modulus was calculated for each specimen. Micro-CT scanning was performed at 50-micron voxel size to assess trabecular bone microstructure within six regions of interest (ROIs) and the cortical bone thickness along the calcaneal crescent.ResultsSignificant Spearman correlations were observed between the enthesis elastic modulus and trabecular bone thickness in the distal entheseal (ROI 3) and proximal plantar (ROI 4) regions (R = 0.786 and 0.518, respectively).ConclusionThis study highlights the potential impacts of Achilles tendon enthesis on calcaneal bone microstructure, which was pronounced in the distal calcaneal enthesis, suggesting regional differences in load transfer mechanism that require further investigation.

Published

2024

3. Selective inhibition of interleukin 6 receptor decreased inflammatory cytokines and increased proteases in an experimental model of critical calvarial defect.

Author

Melo, R, Martins, A, Vieira, G, Andrade, R, Silva, Davi, Chalmers, J, Silveira, T, Pirih, F, Araújo, V, Silva, J, Lopes, M, Leitão, R, Araújo Júnior, R, Silva, I, Silva, L, Barbosa, E, and Araújo, A

Subjects

Animals, Rats, Wistar, Male, Cytokines, Receptors, Interleukin-6, Disease Models, Animal, Skull, Rats, Antibodies, Monoclonal, Humanized, X-Ray Microtomography, Peptide Hydrolases, Immunohistochemistry, Random Allocation

Abstract

Considering the lack of consensus related to the impact of selective IL-6 receptor inhibition on bone remodeling and the scarcity of reports, especially on large bone defects, this study proposed to evaluate the biological impact of the selective inhibitor of interleukin-6 receptor (tocilizumab) in an experimental model of critical calvarial defect in rats. In this preclinical and in vivo study, 24 male Wistar rats were randomly divided into two groups (n=12/group): defect treated with collagen sponge (CG) and defect treated with collagen sponge associated with 2 mg/kg tocilizumab (TCZ). The defect in the parietal bone was created using an 8-mm diameter trephine drill. After 90 days, the animals were euthanized, and tissue samples (skull caps) were evaluated through micro-CT, histological, immunohistochemistry, cytokines, and RT-qPCR analyses. Tocilizumab reduced mononuclear inflammatory infiltration (P0.05). The bone cells (osteoblasts, osteoclasts, and osteocytes) in the defect area were similar in both groups (P>0.05). Tocilizumab reduced inflammatory cytokines, decreased osteogenic protein, and increased proteases in a critical bone defect in rats. Ninety days after the local application of tocilizumab in the cranial defect, we did not find a significant formation of bone tissue compared with a collagen sponge.

Published

2024

4. Spatial control of perilacunar canalicular remodeling during lactation

Author

Sieverts, Michael, Yee, Cristal, Nemani, Minali, Parkinson, Dilworth Y, Alliston, Tamara, and Acevedo, Claire

Subjects

Earth Sciences, Geology, Osteoporosis, Women's Health, Prevention, Animals, Lactation, Female, Osteocytes, Mice, Bone Remodeling, X-Ray Microtomography, Matrix Metalloproteinase 13

Abstract

Osteocytes locally remodel their surrounding tissue through perilacunar canalicular remodeling (PLR). During lactation, osteocytes remove minerals to satisfy the metabolic demand, resulting in increased lacunar volume, quantifiable with synchrotron X-ray radiation micro-tomography (SRµCT). Although the effects of lactation on PLR are well-studied, it remains unclear whether PLR occurs uniformly throughout the bone and what mechanisms prevent PLR from undermining bone quality. We used SRµCT imaging to conduct an in-depth spatial analysis of the impact of lactation and osteocyte-intrinsic MMP13 deletion on PLR in murine bone. We found larger lacunae undergoing PLR are located near canals in the mid-cortex or endosteum. We show lactation-induced hypomineralization occurs 14 µm away from lacunar edges, past a hypermineralized barrier. Our findings reveal that osteocyte-intrinsic MMP13 is crucial for lactation-induced PLR near lacunae in the mid-cortex but not for whole-bone resorption. This research highlights the spatial control of PLR on mineral distribution during lactation.

Published

2024

5. Ultrasound attenuation of cortical bone correlates with biomechanical, microstructural, and compositional properties

Author

Jerban, Saeed, Barrere, Victor, Namiranian, Behnam, Wu, Yuanshan, Alenezi, Salem, Dorthe, Erik, Dlima, Darryl, Shah, Sameer B, Chung, Christine B, Du, Jiang, Andre, Michael P, and Chang, Eric Y

Subjects

Engineering, Biomedical and Clinical Sciences, Clinical Sciences, Biomedical Engineering, Bioengineering, Biomedical Imaging, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Animals, Cattle, X-Ray Microtomography, Protons, Bone and Bones, Cortical Bone, Water, Bone mechanics, Cortical bone, MRI, Quantitative ultrasound, Ultrashort echo time, Clinical sciences, Biomedical engineering

Abstract

BackgroundWe investigated the relationship of two commonly used quantitative ultrasound (QUS) parameters, speed of sound (SoS) and attenuation coefficient (α), with water and macromolecular contents of bovine cortical bone strips as measured with ultrashort echo time (UTE) magnetic resonance imaging (MRI).MethodsSoS and α were measured in 36 bovine cortical bone strips utilizing a single-element transducer with nominal 5 MHz center frequency based on the time of flight principles after accommodating for reflection losses. Specimens were then scanned using UTE MRI to measure total, bound, and pore water proton density (TWPD, BWPD, and PWPD) as well as macromolecular proton fraction and macromolecular transverse relaxation time (T2-MM). Specimens were also scanned using microcomputed tomography (μCT) at 9-μm isometric voxel size to measure bone mineral density (BMD), porosity, and pore size. The elastic modulus (E) of each specimen was measured using a 4-point bending test.Resultsα demonstrated significant positive Spearman correlations with E (R = 0.69) and BMD (R = 0.44) while showing significant negative correlations with porosity (R = -0.41), T2-MM (R = -0.47), TWPD (R = -0.68), BWPD (R = -0.67), and PWPD (R = -0.45).ConclusionsThe negative correlation between α and T2-MM is likely indicating the relationship between QUS and collagen matrix organization. The higher correlations of α with BWPD than with PWPD may indicate that water organized in finer structure (bound to matrix) provides lower acoustic impedance than water in larger pores, which is yet to be investigated thoroughly.Relevance statementThis study highlights the importance of future investigations exploring the relationship between QUS measures and all major components of the bone, including the collagenous matrix and water. Investigating the full potential of QUS and its validation facilitates a more affordable and accessible tool for bone health monitoring in clinics.Key points• Ultrasound attenuation demonstrated significant positive correlations with bone mechanics and mineral density. • Ultrasound attenuation demonstrated significant negative correlations with porosity and bone water contents. • This study highlights the importance of future investigations exploring the relationship between QUS measures and all major components of the bone.

Published

2024

6. Quantification of porcine lower thoracic spinal cord morphology with intact dura mater using high‐resolution μCT.

Author

Chin, Justin, Settell, Megan L., Brucker‐Hahn, Meagan K., Lust, Daniel, Zhang, Jichu, Upadhye, Aniruddha R., Knudsen, Bruce, Deshmukh, Ashlesha, Ludwig, Kip A., Lavrov, Igor A., Crofton, Andrew R., Lempka, Scott F., Zhang, Mingming, and Shoffstall, Andrew J.

Subjects

*LANDRACE swine, *SPINAL cord, *SWINE crossbreeding, *OSMIUM tetroxide, *NEUROANATOMY, *DURA mater

Abstract

Background and Purpose: Spinal cord stimulation (SCS) is approved by the Food and Drug Administration for treating chronic intractable pain in the back, trunk, or limbs through stimulation of the dorsal column. Numerous studies have used swine as an analog of the human spinal cord to better understand SCS and further improve its efficacy. We performed high‐resolution imaging of the porcine spinal cord with intact dura mater using micro‐computed tomography (μCT) to construct detailed 3‐dimensional (3D) visualizations of the spinal cord and characterize the morphology of the dorsal and ventral rootlets. Methods: We obtained spinal cords from Yorkshire/Landrace crossbred swine (N = 7), stained samples with osmium tetroxide, and performed μCT imaging of the T12‐T15 levels at isotropic voxel resolutions ranging from 3.3 to 50 μm. We measured the anatomical morphology using the 3D volumes and compared our results to measurements previously collected from swine and human spinal cords via microdissection techniques in prior literature. Results: While the porcine thoracic‐lumbar spinal cord is a popular model for SCS, we highlight multiple notable differences compared to previously published T8‐T12 human measurements including rootlet counts (porcine dorsal/ventral: 12.2 ± 2.6, 26.6 ± 3.4; human dorsal/ventral: 5.3 ± 1.3, 4.4 ± 2.4), rootlet angles (porcine ventral‐rostral: 161 ± 1°, ventral‐caudal: 155 ± 6°, dorsal‐rostral: 148 ± 9°, dorsal‐caudal: 142 ± 6°; human ventral‐rostral: 170 ± 3°, ventral‐caudal: 22 ± 10°, dorsal‐rostral: 171 ± 3°, dorsal‐caudal: 15 ± 7°), and the presence and count of dorsal rootlet bundles. Conclusions: Detailed measurements and highlighted differences between human and porcine spinal cords can inform variations in modeling and electrophysiological experiments between the two species. In contrast to other approaches for measuring the spinal cord and rootlet morphology, our method keeps the dura intact, reducing potential artifacts from dissection. [ABSTRACT FROM AUTHOR]

Published

2024

7. Enhancement of early proximal caries annotations in radiographs: introducing the Diagnostic Insights for Radiographic Early-caries with micro-CT (ACTA-DIRECT) dataset.

Author

Valenzuela, Ricardo E. Gonzalez, Mettes, Pascal, Loos, Bruno G., Marquering, Henk, and Berkhout, Erwin

Subjects

COMPUTED tomography, DESCRIPTIVE statistics, DENTAL caries, EARLY diagnosis, CONFIDENCE intervals

Abstract

Background: Proximal caries datasets for training artificial intelligence (AI) algorithms commonly include clinician-annotated radiographs. These conventional annotations are susceptible to observer variability, and early caries may be missed. Micro-computed tomography (CT), while not feasible in clinical applications, offers a more accurate imaging modality to support the creation of a reference-standard dataset for caries annotations. Herein, we present the Academic Center for Dentistry Amsterdam—Diagnostic Insights for Radiographic Early-caries with micro-CT (ACTA-DIRECT) dataset, which is the first dataset pairing dental radiographs and micro-CT scans to enable higher-quality annotations. Methods: The ACTA-DIRECT dataset encompasses 179 paired micro-CT scans and radiographs of early proximal carious teeth, along with three types of annotations: conventional annotations on radiographs, micro-CT-assisted annotations on radiographs, and micro-CT annotations (reference standard). Three dentists independently annotated proximal caries on radiographs, both with and without micro-CT assistance, enabling determinations of interobserver agreement and diagnostic accuracy. To establish a reference standard, one dental radiologist annotated all caries on the related micro-CT scans. Results: Micro-CT support improved interobserver agreement (Cohen's Kappa), averaging 0.64 (95% confidence interval [CI]: 0.59–0.68) versus 0.46 (95% CI: 0.44–0.48) in its absence. Likewise, average sensitivity and specificity increased from 42% (95% CI: 34–51%) to 63% (95% CI: 54–71%) and from 92% (95% CI: 88–95%) to 95% (95% CI: 92–97%), respectively. Conclusion: The ACTA-DIRECT dataset offers high-quality images and annotations to support AI-based early caries diagnostics for training and validation. This study underscores the benefits of incorporating micro-CT scans in lesion assessments, providing enhanced precision and reliability. [ABSTRACT FROM AUTHOR]

Published

2024

8. Paclitaxel alters the microvascular network in the central and peripheral nervous system of rats with chemotherapy‐induced painful peripheral neuropathy.

Author

Zippo, Antonio Giuliano, Rodriguez‐Menendez, Virginia, Pozzi, Eleonora, Canta, Annalisa, Chiorazzi, Alessia, Ballarini, Elisa, Monza, Laura, Alberti, Paola, Meregalli, Cristina, Bravin, Alberto, Coan, Paola, Longo, Elena, Saccomano, Giulia, Paiva, Katrine, Tromba, Giuliana, Cavaletti, Guido, and Carozzi, Valentina Alda

Subjects

*PERIPHERAL nervous system, *DORSAL root ganglia, *CENTRAL nervous system, *SOMATOSENSORY cortex, *SPINAL cord

Abstract

Background and Aims Methods Results Interpretations Chemotherapy‐induced peripheral neurotoxicity (CIPN), with paraesthesia, numbness, dysesthesia and neuropathic pain ranks among the most common dose‐limiting toxicity of several widely used anticancer drugs. Recent studies revealed the microvascular angiogenesis as a new important actor, beside peripheral neurons, in the neurotoxicity and neuropathic pain development and chronicisation. The aim of this work is to elucidate the role of vascular alterations in CIPN.We evaluated the severity of CIPN with neurophysiological, behavioural and neuropathological analysis together with the microvascular network in central and peripheral nervous systems of rats in order to correlate the features of the CIPN and the vascular abnormalities. The vascular network was quantitatively evaluated through synchrotron radiation‐based X‐ray phase‐contrast micro‐tomography imaging, measuring four specific parameters: vascular density, vessel diameter, vessel tortuosity and branching.Rats exposed to paclitaxel and affected by a severe painful sensory axonopathy showed an increased vascular density (putative sprouting angiogenesis) in the crucial districts of the central (somatosensory cortex and lumbar spinal cord) and peripheral nervous system (lumbar dorsal root ganglia). In addition, the complexity of the vascular network and the size of neo‐formed vessels were significantly decreased in specific regions. On the other hand, less significant changes were observed in rats exposed to cisplatin, affected by a painless peripheral neuropathy, suggesting a specific involvement of neo‐angiogenesis in the development of severe neurotoxicity and neuropathic pain.These new ground‐breaking results can shed light on new pathogenetic mechanisms and potential novel therapeutic approaches for painful‐CIPN. [ABSTRACT FROM AUTHOR]

Published

2024

9. Pressure decline and gas expansion in underground hydrogen storage: A pore-scale percolation study.

Author

Dokhon, Waleed, Goodarzi, Sepideh, Alzahrani, Hussain M., Blunt, Martin J., and Bijeljic, Branko

Subjects

*X-ray computed microtomography, *HYDROGEN storage, *X-ray imaging, *GAS injection, *UNDERGROUND storage

Abstract

Using high-resolution micro-CT imaging at 2.98 μm/voxel, we compared the percolation of hydrogen in gas injection with gas expansion for a hydrogen-brine system in Bentheimer sandstone at 1 MPa and 20 °C, representing hydrogen storage in an aquifer. We introduced dimensionless numbers to quantify the contribution of advection and expansion to displacement. We analysed the 3D spatial distribution of gas and its displacement in both cases and demonstrated that in gas injection, hydrogen can only advance from a connected cluster in an invasion-percolation type process, while in gas expansion, hydrogen can access more of the pore space even from disconnected clusters. The average gas saturation in the sample increased from 30% to 50% by gas expansion, and we estimated that 10% of the expanded volume is attributed to hydrogen exsolution from the brine. This work emphasises the importance of studying the combined effects of pressure decline and gas withdrawal in hydrogen storage to assess the influence of gas expansion on remobilising trapped gases. [Display omitted] • High-resolution X-ray imaging studied hydrogen injection and expansion in a sandstone. • Disconnected gas clusters can expand and reconnect during pressure decline. • Gas expansion increased the average gas saturation from 30% to 50% as pressure declined. • Hydrogen exsolution from brine increased the expanded gas volume by 10%. • Hydrogen accessed more of the larger pores by expansion than by injection. [ABSTRACT FROM AUTHOR]

Published

2024

10. Dynamic Evolution of the Transcrustal Plumbing System in Large Igneous Provinces: Geochemical and Microstructural Insights from Glomerocrysts and Melt Inclusions.

Author

Capriolo, Manfredo, Callegaro, Sara, Deegan, Frances M, Merle, Renaud, Jeon, Heejin, Whitehouse, Martin J, Aradi, László E, Storm, Malte, Renne, Paul R, Baker, Don R, Corso, Jacopo Dal, Newton, Robert J, SzabÓ, Csaba, Carvalho, Bruna B, Youbi, Nasrrddine, and Marzoli, Andrea

Subjects

*X-ray computed microtomography, *OXYGEN isotopes, *SEDIMENTARY rocks, *DECCAN traps, *SEDIMENTARY basins

Abstract

The nature of the magma plumbing system of Large Igneous Provinces is still poorly understood. Among these exceptional magmatic events from Earth's past, the end-Triassic Central Atlantic Magmatic Province (CAMP) and the end-Cretaceous Deccan Traps (Deccan) coincided in time with two of the most catastrophic biotic crises during the Phanerozoic. In order to constrain the architecture of their magma plumbing system, glomerocrysts containing abundant bubble-bearing melt inclusions from basaltic lava flows of both CAMP and Deccan were investigated via in situ geochemical and microstructural analyses. The analysed glomerocrysts, dominated by augitic clinopyroxene crystals, represent fragments of a crystal mush entrained by basaltic magmas before eruption. The analysed melt inclusions, consisting of an intermediate to felsic composition glass and CO2-bearing bubbles, represent relics of interstitial melts and fluids within a porous crystal framework forming the crystal mush. The different volume proportions between bubbles and whole inclusions reveal that melt entrapment occurred after volatile exsolution. The minimum observed bubble/inclusion fraction indicates that the CO2 concentration in CAMP and Deccan melts was at least 0.3 wt.%, consistent with a maximum entrapment pressure of about 0.5 GPa at CO2–H2O fluid-saturated conditions. The MgO-rich composition of host clinopyroxene crystals and whole rocks is in contrast with the SiO2-rich composition of (trachy-) andesitic to rhyolitic glass of melt inclusions, pointing to disequilibrium conditions. Thermodynamic and geochemical modelling shows that fractional crystallization alone cannot explain the evolved composition of glass in melt inclusions starting from their whole rock composition. On one side, the oxygen isotope composition of clinopyroxene crystals in glomerocrysts ranges from +3.9 (± 0.3) to +5.8 (± 0.3) ‰ and their sample-averaged oxygen isotope composition spans from +4.4 (N = 10) to +5.6 (N = 10) ‰, implying that glomerocrysts crystallized from mafic melts with normal (i.e. mantle-like) to slightly low δ18O values. On the other side, the oxygen isotope composition of glass in melt inclusions ranges from +5.5 (± 0.4) to +22.1 (± 0.4) ‰, implying that melt inclusions entrapped intermediate to felsic melts with normal (i.e. mantle-like) to extremely high δ18O values, typical of (meta-) sedimentary rocks. Some melt inclusions are compatible with fractionation from the same mafic melts that crystallized their host mineral phase, but most melt inclusions are compatible with variable degrees of crustal assimilation and partial mixing, potentially followed by minor post-entrapment isotope re-equilibration. In the CAMP, where sedimentary basins are abundant, (meta-) pelites and occasionally granitoids were the most likely assimilants. On the contrary, in the Deccan, where sedimentary basins are rare, granitoids and metapelites were the most likely assimilants. Oxygen isotope compositions of glass in melt inclusions, spanning from mantle-like to crust-dominated signatures, suggest that the CO2 within their coexisting bubbles likely derived partly from the mantle and partly from assimilated crustal materials. The investigated glomerocrysts and their bubble-bearing melt inclusions are relics of a multiphase (i.e. solid + liquid + gas phases) crystal mush revealing a dynamic evolution for the magma plumbing system of both CAMP and Deccan, where crystals, silicate melts and exsolved fluids coexisted and interacted through most of the transcrustal section. [ABSTRACT FROM AUTHOR]

Published

2024

11. New insights into the Devonian sea spiders of the Hunsrück Slate (Arthropoda: Pycnogonida).

Author

Sabroux, Romain, Garwood, Russell J., Pisani, Davide, Donoghue, Philip C. J., and Edgecombe, Gregory D.

Subjects

X-ray computed microtomography, X-ray imaging, SPIDERS, ARTHROPODA, REFLECTANCE

Abstract

Background: The sea spiders (Pycnogonida Latreille, 1810) of the Hunsrück Slate (Lower Devonian, ~400 million years ago) are iconic in their abundance, exquisite pyritic preservation, and in their distinctive body plan compared to extant sea spiders (Pantopoda Gerstäcker, 1863). Consequently, the Hunsrück sea spiders are important in understanding the deep evolutionary history of Pycnogonida, yet they remain poorly characterised, impacting upon attempts to establish a time-calibrated phylogeny of sea spiders. Methods: Here, we investigated previously described and new material representing four of the five Hunsrück pycnogonids: Flagellopantopus blocki Poschmann & Dunlop, 2006; Palaeoisopus problematicus Broili, 1928; Palaeopantopus maucheri Broili, 1929; and Pentapantopus vogteli Kühl, Poschmann & Rust, 2013; as well as a few unidentified specimens. Using X-ray microtomography and Reflectance Transformation Imaging, we describe new fossils, provide evidence for newly revealed anatomical features, and interpret these data in comparison to extant species. We also reinterpret the previously published illustration of the (probably lost) holotype of Palaeothea devonica Bergström, Stürmer & Winter, 1980. Results: We provide the first detailed description of the cephalic appendages of Palaeoisopus problematicus and revise the interpretation of the organisation of its ocular tubercle. Furthermore, we provide new insights into the structure of the legs and the proboscis of Palaeopantopus maucheri, the first description of the body of Flagellopantopus blocki and describe a new specimen of Pentapantopus vogteli, demonstrating that it had eight legs, in contrast to previous interpretations. We argue that, contrary to previous suggestions, Palaeothea devonica probably had a different body plan from extant pantopods. We discuss the ecological traits of the Hunsrück pycnogonids based on their morphological adaptations, and conclude that there is no compelling evidence of Pantopoda in the Devonian. Through comparative interpretation of the legs as well as general morphology, we can divide the Hunsrück pycnogonids into two morphological groups, while Pantopoda constitutes a third morphological group. [ABSTRACT FROM AUTHOR]

Published

2024

12. Investigation of the furcation morphology of permanent mandibular first molars by using micro-computed tomography.

Author

Qiu, Yinfeng, Tang, Ying, Zhang, Panpan, Li, Jin, and Gu, Yongchun

Subjects

MOLARS, TOOTH roots, RESEARCH funding, STRUCTURAL models, T-test (Statistics), COMPUTED tomography, PERIODONTAL disease, DESCRIPTIVE statistics, CHI-squared test, DENTAL enamel, ONE-way analysis of variance, MANDIBLE, THREE-dimensional printing, DATA analysis software

Abstract

Background: To investigate the anatomic features of the root furcation of permanent mandibular first molars. Methods: A total of 50 extracted mandibular first molars (25 two-rooted and 25 three-rooted) were collected and scanned using micro-computed tomography. The digital models of teeth and root canal systems were reconstructed three-dimensionally. The tooth models were displayed in parallel projection mode from buccal and distal views. Screenshots were captured and subsequently analyzed using Image-Pro Plus 6.0 software after calibration. The furcation angle, root trunk length, maximum depth and level of distal root concaves of mesial roots, and length of enamel projections were measured, and the furcation types (classified into type V, type U and type W) were detected. Statistical analysis was performed using the Shapiro-Wilk's test, one-way analysis of variance, Student's t-test and Chi-square test. Results: The mean furcation angle between the distobuccal (DB) and distolingual (DL) roots (in distal view) was the greatest (59.2°), whereas the furcation angle between the mesial and DL roots (in buccal view) was the smallest (25.4°) among the four furcation angles (all p < 0.05). Regarding the furcation types, bucco-lingual root trunk length, maximum depth and site of the distal root concavities, and enamel projection length, no significant differences were detected between the three- and two-rooted molar groups (all p > 0.05). The frequency of type V was the highest (54.0%), followed by type U (26.0%), and type W had the lowest occurrence rate (20.0%). The mean length of distal root trunk in the three-rooted mandibular molars was significantly greater than that of the buccal/lingual one (3.7 mm vs. 3.0 mm, p < 0.01). The maximum depth of the distal concavities of the mesial roots was on average 0.66 ± 0.19 mm, and the site was located at an average of 2.8 ± 1.3 mm below furcation. The mean length of buccal enamel projections was significantly longer than that of lingual ones (3.1 mm vs. 0.7 mm, p < 0.01). Conclusions: The furcation anatomy of the mandibular first molar is complex, and the presence of the DL root may further complicate its topography. A thorough understanding of these anatomic features is essential for successful periodontal treatment. [ABSTRACT FROM AUTHOR]

Published

2024

13. Effect of Infrared Treatment on Chemical and Structural Quality of Soybean: Quantitative Three-Dimensional Characterization Using X-Ray Microtomography.

Author

Jayasinghe, Maheshika, Jeddi, Dorsa, Paziuk, Bailey, and Erkinbaev, Chyngyz

Subjects

*X-ray computed microtomography, *INFRARED heating, *INFRARED radiation, *WATER hardness, *MEAT alternatives

Abstract

Soybean is a source of high-quality vegetable protein and a suitable substitute for meat protein. However, several factors, including a lengthy cooking process, palatability issues, and digestion concerns, have limited their consumption. Several treatments have been suggested to overcome such issues, including infrared heating, which has many advantages over traditional roasting methods. In this study, the three-dimensional microstructure of soybeans with initial moisture contents (12, 16, 20, and 24% w.b.) and treated at different micronization durations (60, 90, and 120 s) at 180 °C were studied and related to quality parameters including water absorption and hardness of both non-cooked and cooked samples. The water absorption tests demonstrated no significant difference (p > 0.05) between the moisture absorbed for 60, 90, and 120 s micronization with initial moisture levels of 12, 16, and 24%. Yet all soybeans treated for 60 s exhibited significantly different results (p < 0.05) compared to raw counterparts. The highest hardness values were achieved after 60 s treatments on 24% moisturized seeds. As expected, the 20 min cooking time resulted in a considerable reduction in soybean hardness. The X-ray micro-computed tomography (micro-CT) was a powerful non-destructive tool to explore the microstructure of individual soybean seeds. Results of X-ray micro-CT have shown an increase in open porosity with increasing infrared treatment time. Overall, the qualitative and quantitative analysis provided in this study may serve as a basis for developing improved food processing techniques. [ABSTRACT FROM AUTHOR]

Published

2024

14. Enhancement of early proximal caries annotations in radiographs: introducing the Diagnostic Insights for Radiographic Early-caries with micro-CT (ACTA-DIRECT) dataset

Author

Ricardo E. Gonzalez Valenzuela, Pascal Mettes, Bruno G. Loos, Henk Marquering, and Erwin Berkhout

Subjects

Dataset, Radiography, X-ray microtomography, Dental caries, Artificial intelligence, High-quality annotations, Dentistry, RK1-715

Abstract

Abstract Background Proximal caries datasets for training artificial intelligence (AI) algorithms commonly include clinician-annotated radiographs. These conventional annotations are susceptible to observer variability, and early caries may be missed. Micro-computed tomography (CT), while not feasible in clinical applications, offers a more accurate imaging modality to support the creation of a reference-standard dataset for caries annotations. Herein, we present the Academic Center for Dentistry Amsterdam—Diagnostic Insights for Radiographic Early-caries with micro-CT (ACTA-DIRECT) dataset, which is the first dataset pairing dental radiographs and micro-CT scans to enable higher-quality annotations. Methods The ACTA-DIRECT dataset encompasses 179 paired micro-CT scans and radiographs of early proximal carious teeth, along with three types of annotations: conventional annotations on radiographs, micro-CT-assisted annotations on radiographs, and micro-CT annotations (reference standard). Three dentists independently annotated proximal caries on radiographs, both with and without micro-CT assistance, enabling determinations of interobserver agreement and diagnostic accuracy. To establish a reference standard, one dental radiologist annotated all caries on the related micro-CT scans. Results Micro-CT support improved interobserver agreement (Cohen’s Kappa), averaging 0.64 (95% confidence interval [CI]: 0.59–0.68) versus 0.46 (95% CI: 0.44–0.48) in its absence. Likewise, average sensitivity and specificity increased from 42% (95% CI: 34–51%) to 63% (95% CI: 54–71%) and from 92% (95% CI: 88–95%) to 95% (95% CI: 92–97%), respectively. Conclusion The ACTA-DIRECT dataset offers high-quality images and annotations to support AI-based early caries diagnostics for training and validation. This study underscores the benefits of incorporating micro-CT scans in lesion assessments, providing enhanced precision and reliability. Graphical Abstract

Published

2024

15. Sound-absorbing properties of porous glass ceramics from zeolite-containing rocks

Author

A. A. Ermakov, A. I. Safin, and A. I. Rodin

Subjects

porous glass ceramics, sound-absorbing properties, sound absorption coefficient, impedance pipe, x-ray phase analysis, x-ray microtomography, zeolite-containing rocks, Architecture, NA1-9428, Construction industry, HD9715-9717.5

Abstract

Introduction. Sound-absorbing systems are widely used in construction, reconstruction, repair of industrial and civil facilities, as well as in mechanical engineering. The most affordable and widely used systems are those using porous materials. The influence of the type, size, nature of pores, as well as phase composition of porous glass-ceramic samples obtained from zeolite-containing rocks on its sound-absorbing properties was established.Materials and methods. The results of experimental studies were obtained by the impedance method, as well as by methods of X-ray phase analysis, light microscopy, X-ray microtomography, etc.Results. Porous glass-ceramic materials with average density grades D250 and D300, compressive strength class B3.5, thermal conductivity coefficient from 0.066 to 0.079 W/m∙°C and recommended maximum application temperature up to +850 °C were investigated. The total porosity of the tested specimens of glass-ceramic materials was from 87.7 to 90.1 %, and the number of open pores from to 18.3 %. The sound-absorbing properties of porous glass-ceramic specimens are directly dependent on the open porosity of the material. With an increase of this indicator from 4.5 to 18.3 %, the sound absorption coefficient of the material increased 1.5–2 times, depending on the range of sound frequencies.Conclusions. Porous glass ceramics obtained from zeolite-containing rocks have good physical and mechanical properties and a high application temperature (at least +850 °C), and with a high open porosity index, it can be recommended for application as sound-absorbing materials in construction and mechanical engineering facilities.

Published

2024

16. Investigation of the furcation morphology of permanent mandibular first molars by using micro-computed tomography

Author

Yinfeng Qiu, Ying Tang, Panpan Zhang, Jin Li, and Yongchun Gu

Subjects

X-ray microtomography, Tooth root, Molar, Furcation defects, Dental enamel, Dentistry, RK1-715

Abstract

Abstract Background To investigate the anatomic features of the root furcation of permanent mandibular first molars. Methods A total of 50 extracted mandibular first molars (25 two-rooted and 25 three-rooted) were collected and scanned using micro-computed tomography. The digital models of teeth and root canal systems were reconstructed three-dimensionally. The tooth models were displayed in parallel projection mode from buccal and distal views. Screenshots were captured and subsequently analyzed using Image-Pro Plus 6.0 software after calibration. The furcation angle, root trunk length, maximum depth and level of distal root concaves of mesial roots, and length of enamel projections were measured, and the furcation types (classified into type V, type U and type W) were detected. Statistical analysis was performed using the Shapiro-Wilk’s test, one-way analysis of variance, Student’s t-test and Chi-square test. Results The mean furcation angle between the distobuccal (DB) and distolingual (DL) roots (in distal view) was the greatest (59.2°), whereas the furcation angle between the mesial and DL roots (in buccal view) was the smallest (25.4°) among the four furcation angles (all p 0.05). The frequency of type V was the highest (54.0%), followed by type U (26.0%), and type W had the lowest occurrence rate (20.0%). The mean length of distal root trunk in the three-rooted mandibular molars was significantly greater than that of the buccal/lingual one (3.7 mm vs. 3.0 mm, p

Published

2024

17. Crossing fibers may underlie the dynamic pulling forces of muscles that attach to cartilage at the tip of the nose.

Author

Hur, Mi-Sun, Lee, Seunggyu, Jung, Han-Sung, and Schneider, Richard

Subjects

Male, Adult, Female, Humans, Aged, X-Ray Microtomography, Nose, Rhinoplasty, Facial Muscles, Nasal Cartilages

Abstract

The present study used microdissection, histology, and microcomputed tomography (micro-CT) with the aims of determining the prevalence and patterns of the depressor septi nasi (DSN) and orbicularis oris (OOr) muscles attached to the footplate of the medial crus (fMC) of the major alar cartilage, focusing on their crossing fibers. The DSN and OOr attached to the fMC of the major alar cartilage were investigated in 76 samples from 38 embalmed Korean adult cadavers (20 males, 18 females; mean age 70 years). The DSN, OOr, or both were attached to the fMC. When the DSN ran unilaterally or was absent, some OOr fibers ascended to attach to the fMC instead of the DSN in 20.6% of the samples. Crossing fibers of the DSN or OOr attached to the fMC were found in 82.4% of the samples. Bilateral and unilateral crossing fibers were found in 32.4% and 50.0%, respectively, and no crossing fibers were found in 17.6%. The DSN and OOr that attached to the fMC could be categorized into six types according to presence of the DSN and the crossing patterns of the DSN and OOr. Anatomical findings of the DSN and OOr that attached to the fMC were confirmed in histology and micro-CT images. These findings offer insights on anatomical mechanisms that may underlie the dynamic pulling forces generated by muscles that attach to the fMCs and on evolutionary variation observed in human facial expressions. They can also provide useful information for guiding rhinoplasty of the nasal tip.

Published

2023

18. Validation of a Low-Cost Portable Device for Inducing Noninvasive Anterior Cruciate Ligament Injury in Mice.

Author

Jbeily, Elias H, Lin, Yu-Yang, Elmankabadi, Seif B, Osipov, Benjamin, June, Ron K, and Christiansen, Blaine A

Subjects

Arthritis, Osteoarthritis, Physical Injury - Accidents and Adverse Effects, Bioengineering, Aging, Injuries and accidents, Musculoskeletal, Mice, Animals, Anterior Cruciate Ligament Injuries, Joint Instability, X-Ray Microtomography, Biomedical Engineering, Mechanical Engineering

Abstract

Noninvasive compression-induced anterior cruciate ligament rupture (ACL-R) is an easy and reproducible model for studying post-traumatic osteoarthritis (PTOA) in mice. However, equipment typically used for ACL-R is expensive, immobile, and not available to all researchers. In this study, we compared PTOA progression in mice injured with a low-cost custom ACL-rupture device (CARD) to mice injured with a standard system (ElectroForce 3200). We quantified anterior-posterior (AP) joint laxity immediately following injury, epiphyseal trabecular bone microstructure, and osteophyte volume at 2 and 6 weeks post injury using micro-computed tomography, and osteoarthritis progression and synovitis at 2 and 6 weeks post injury using whole-joint histology. We observed no significant differences in outcomes in mice injured with the CARD system compared to mice injured with the Electroforce (ELF) system. However, AP joint laxity data and week 2 micro-CT and histology outcomes suggested that injuries may have been slightly more severe and PTOA progressed slightly faster in mice injured with the CARD system compared to the ELF system. Altogether, these data confirm that ACL-R can be successfully and reproducibly performed with the CARD system and that osteoarthritis (OA) progression is mostly comparable to that of mice injured with the ELF system, though potentially slightly faster. The CARD system is low cost and portable, and we are making the plans and instructions freely available to all interested investigators in the hopes that they will find this system useful for their studies of OA in mice.

Published

2023

19. Time‐resolved SWIR imaging for the assessment of the activity of occlusal caries lesions

Author

Ng, Morgan, Wycoff, Spencer, Zhu, Yihua, Ho, Yi‐Ching, Takasuka, Hannah, and Fried, Daniel

Subjects

Analytical Chemistry, Medicinal and Biomolecular Chemistry, Chemical Sciences, Dental/Oral and Craniofacial Disease, 4.2 Evaluation of markers and technologies, Humans, Dehydration, Dental Caries Susceptibility, X-Ray Microtomography, Tomography, Optical Coherence, Kinetics, Dental Caries, dental caries, lesion activity, occlusal lesions, SWIR imaging, Optical Physics, Medical Biotechnology, Optoelectronics & Photonics, Analytical chemistry, Medicinal and biomolecular chemistry

Abstract

The aim of this study was to develop a clinical SWIR reflectance handpiece to assess the activity of lesions on the occlusal surfaces. The time-resolved reflectivity of 10 active and 10 arrested occlusal caries lesions on extracted teeth was monitored at 1470 nm using a benchtop system and a modified clinical prototype during forced air drying. The presence of a highly mineralized surface layer measured with microcomputed tomography (microCT) was used to indicate lesion activity. Multiple kinetic parameters were extracted from the acquired SWIR time versus intensity dehydration curves and used to assess lesion activity. Three parameters: delay, %Ifin , and rate calculated from the SWIR dehydration curves were significantly different (p

Published

2023

20. Anatomy of an agricultural antagonist: Feeding complex structure and function of three xylem sap‐feeding insects illuminated with synchrotron‐based 3D imaging

Author

Clark, Elizabeth G, Cornara, Daniele, Brodersen, Craig R, McElrone, Andrew J, Parkinson, Dilworth Y, and Almeida, Rodrigo PP

Subjects

Plant Biology, Biological Sciences, Infection, Animals, Imaging, Three-Dimensional, Synchrotrons, X-Ray Microtomography, Insecta, Feeding Behavior, 3D imaging, Auchenorryncha, functional morphology, vectors of plant pathogens, xylem sap-feeding insects, Physiology, Zoology, Anatomy & Morphology

Abstract

Many insects feed on xylem or phloem sap of vascular plants. Although physical damage to the plant is minimal, the process of insect feeding can transmit lethal viruses and bacterial pathogens. Disparities between insect-mediated pathogen transmission efficiency have been identified among xylem sap-feeding insects; however, the mechanistic drivers of these trends are unclear. Identifying and understanding the structural factors and associated integrated functional components that may ultimately determine these disparities are critical for managing plant diseases. Here, we applied synchrotron-based X-ray microcomputed tomography to digitally reconstruct the morphology of three xylem sap-feeding insect vectors of plant pathogens: Graphocephala atropunctata (blue-green sharpshooter; Hemiptera, Cicadellidae) and Homalodisca vitripennis (glassy-winged sharpshooter; Hemiptera, Cicadellidae), and the spittlebug Philaenus spumarius (meadow spittlebug; Hemiptera, Aphrophoridae). The application of this technique revealed previously undescribed anatomical features of these organisms, such as key components of the salivary complex. The visualization of the 3D structure of the precibarial valve led to new insights into the mechanism of how this structure functions. Morphological disparities with functional implications between taxa were highlighted as well, including the morphology and volume of the cibarial dilator musculature responsible for extracting xylem sap, which has implications for force application capabilities. These morphological insights will be used to target analyses illuminating functional differences in feeding behavior.

Published

2023

21. MicroCT data provide evidence correcting the previous misidentification of an Eocene amber beetle (Coleoptera, Cicindelidae) as an extant species.

Author

Schmidt, Joachim, Scholz, Stephan, Wiesner, Jürgen, and Will, Kipling

Subjects

Animals, Coleoptera, Amber, X-Ray Microtomography, Extinction, Psychological, Fossils

Abstract

The fossil record suggests some insect species have a marked longevity. The oldest fossils purported to represent extant insect species are from the Oligocene and Eocene. One of the most cited fossils is the extant tiger beetle Tetracha carolina (Coleoptera: Cicindelidae) that was identified over a century ago by Walther Horn in Eocene Baltic amber. We examined this and compared it to the previously described cincindelid Baltic amber fossil Palaeoiresina cassolai using X-ray microscopy and 3D imaging techniques. We conclude that Horns fossil tiger beetle specimen is conspecific with the Eocene P. cassolai and is a member of an extinct stem group lineage of Cicindelidae. Based on a review of all the tiger beetle fossils described from Cretaceous and Paleogene deposits, we found that the assignment of these fossil species to extant lineages is not supported. There are currently no synapomorphies known from fossils that can provide evidence for Cretaceous Manticorni or Megacephalini nor is there evidence for Eocene Iresina. We provide evidence that rejects the idea of a recent beetle species persisting since the Eocene period, which is crucial for using the currently known fossil Cicindelidae species to calibrate divergence dating of beetle phylogenies.

Published

2023

22. Assessment of the activity of secondary caries lesions with short-wavelength infrared, thermal, and optical coherence tomographic imaging

Author

Chang, Nai-Yuan N, Dillas, Tina, Zhu, Yihua, and Fried, Daniel

Subjects

Biomedical and Clinical Sciences, Dentistry, Dental/Oral and Craniofacial Disease, Bioengineering, Biomedical Imaging, Infectious Diseases, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, Humans, Tomography, Optical Coherence, Dehydration, Dental Caries Susceptibility, X-Ray Microtomography, Dental Caries, lesion activity, micro-computed tomography, optical coherence tomography, secondary caries lesions, shortwave-infrared imaging, thermal imaging, Optical Physics, Biomedical Engineering, Opthalmology and Optometry, Optics, Ophthalmology and optometry, Biomedical engineering, Atomic, molecular and optical physics

Abstract

Significance: Leakage in the interfaces between restorative materials and tooth structure allows for fluid and bacterial acid infiltration, causing restoration failure due to secondary caries. Dentists spend more time replacing composite restorations than placing new ones. Previous in vitro and in vivo studies on enamel and root surfaces using shortwave-infrared (SWIR) and thermal imaging during dehydration with forced air have been promising for assessing lesion activity. Aim: We hypothesized that SWIR reflectance and thermal imaging methods can be used to monitor the activity of secondary caries lesions around composite restorations. The objective of this study was to employ these methods to measure the rate of fluid loss from lesions during dehydration with forced air to assess lesion activity. Approach: Sixty-three extracted human teeth with total of 109 suspected secondary lesions were examined using SWIR and thermal imaging during dehydration. The thickness of the highly mineralized transparent surface layer (TSL) at lesion interfaces indicative of lesion activity was measured by optical coherence tomography (OCT). Micro-computed tomography (MicroCT) was used to further confirm lesion severity and structure. OCT and MicroCT measurements of lesion structure, depth, and severity were correlated with fluid loss rates measured with SWIR reflectance and thermal imaging. Results: TSL thickness measured with OCT correlated with both SWIR reflectance and thermal measurements of rates of fluid loss ( p < 0.05 ). Increasing TSL thickness led to decreased permeability of lesions, potentially indicating full lesion arrest at TSL ≥ 70    μ m . SWIR performed better than thermal imaging for secondary lesion activity assessment, although both methods performed best on smooth surface lesions. Conclusions: Nondestructive SWIR reflectance and OCT imaging methods are promising for clinically monitoring the activity of secondary caries lesions.

Published

2023

23. Torque Mapping as a Novel Method for In-Line Characterisation of Spherical Agglomeration Process Kinetics.

Author

Schreier, Julia and Bröckel, Ulrich

Subjects

X-ray computed microtomography, FRACTAL dimensions, TORQUE, AGGLOMERATION (Materials), DENSITY, MORPHOLOGY

Abstract

This study presents a novel method to determine the kinetics of spherical agglomeration in-line via monitoring the stirrer torque. In order to confirm that the torque can be used to characterise the process phases, samples were taken at different times during the agglomeration process and the morphology of agglomerates is examined using X-ray microtomography. It can be shown that if the stirrer torque is decreasing, the fast growth regime starts. Additionally, the influence of binding-liquid concentration as well as the primary particle shape was studied. Both have an influence on the process kinetics as well as on the different growth mechanisms of agglomerates during spherical agglomeration. These two growth mechanisms, distribution and immersion, can be identified by the morphological parameters sphericity, packing density and fractal dimension. In particular, the concept of fractal dimension was not used so far on agglomerates obtained from spherical agglomeration. [ABSTRACT FROM AUTHOR]

Published

2024

24. Melatonin and Metformin Mitigate Doxorubicin-Induced Alveolar Bone Toxicity.

Author

Srivichit, B., Thonusin, C., Aeimlapa, R., Arinno, A., Chunchai, T., Charoenphandhu, N., Chattipakorn, N., and Chattipakorn, S.C.

Subjects

ALVEOLAR process, X-ray computed microtomography, BONE growth, BONE remodeling, BONE resorption

Abstract

Evidence concerning the osteotoxic effects of chemotherapy (doxorubicin) has been previously described. Periodontitis also progressively increases in patients receiving chemotherapy; however, the beneficial effects of melatonin and metformin on the alleviation of doxorubicin-induced osteotoxicity have never been investigated. Therefore, we investigated the negative impact of doxorubicin on alveolar bone homeostasis and the benefits of melatonin and metformin on the attenuation of doxorubicin-induced alveolar bone toxicity. Male Wistar rats were divided into 4 groups to receive either 1 mL of normal saline solution as a control group, 3 mg/kg of doxorubicin, 3 mg/kg of doxorubicin plus 10 mg/kg of melatonin, or 3 mg/kg of doxorubicin plus 250 mg/kg of metformin. Doxorubicin treatment was given on days 0, 4, 8, 15, 22, and 29, while interventions were given daily on days 0 to 29. Following euthanasia, blood and alveolar bones were collected for evaluation of oxidative stress, bone remodeling, inflammation, microarchitecture, and periodontal condition. We found that doxorubicin increased systemic oxidative stress, decreased antioxidative capacity, increased inflammation, decreased bone formation, increased bone reabsorption, impaired microarchitecture, and impaired periodontal condition of the alveolar bone. Although cotreatment with melatonin or metformin resulted in some improvement in these parameters, cotreatment with melatonin was more effective than cotreatment with metformin in terms of decreasing oxidative stress, reducing bone resorption, and improving microarchitecture and periodontal condition. All of these findings highlight the potential for antioxidants, especially melatonin, to ameliorate doxorubicin-induced alveolar bone toxicity. [ABSTRACT FROM AUTHOR]

Published

2024

25. Volumetric change of calcium silicate-based repair materials in a simulated inflammatory environment: A micro-computed tomography study.

Author

da Cunha Mendonça, Giovanna, Medina Carita Tavares, Karina Ines, Oliveira Santos-Junior, Airton, Esteves Torres, Fernanda Ferrari, Camilo Pinto, Jáder, Maria Guerreiro-Tanomaru, Juliane, and Tanomaru-Filho, Mário

Subjects

TOMOGRAPHY, X-ray computed microtomography, KRUSKAL-Wallis Test, CALCIUM, PH effect, BUTYRIC acid, SILICATE cements (Dentistry), PERIAPICAL diseases

Abstract

Context: An acidic hydrogen potential (pH) in an inflammatory condition in the periapical tissues may affect the properties of repair bioceramic cement. Aims: The aim of this study was to evaluate the effect of pH on the volumetric change of the ready-to-use bioceramic NeoPUTTY (NP) compared to the powder/liquid MTA Repair HP (MTAHP) after immersion in butyric acid (BA, pH 4.1) or phosphate-buffered saline (PBS, pH 7.35). Subjects and Methods: Dentin tubes filled with NP or MTAHP were scanned in micro-computed tomography (micro-CT) after 24 h. Then, the specimens were immersed in 1.5 mL of BA: NP/BA, MTAHP/BA or PBS: NP/PBS, MTAHP/PBS. After 7 days, new micro-CT scans were performed. The percentage of volumetric change (extremities and internal part) of the materials was assessed. Statistical Analysis Used: ANOVA/Tukey and Kruskal-Wallis tests were performed (α =0.05). Results: All materials showed a volumetric decrease after immersion in BA or PBS at the extremities in contact with the solutions. MTAHP/BA showed the highest volumetric loss. There was no difference in the volumetric change when the internal part of the materials was evaluated. Conclusions: An acid pH negatively affects the volumetric stability of MTAHP. Low values of volumetric change were demonstrated for NP in both immersion environments. [ABSTRACT FROM AUTHOR]

Published

2024

26. Bone Incorporation of a Poly (L-Lactide-Co-D, L-Lactide) Internal Fixation Device in a Rat's Tibia: Microtomographic, Confocal LASER, and Histomorphometric Analysis.

Author

Mamani-Valeriano, Harrisson Lucho, Silva, Nelson Padilha, Nímia, Heloisa Helena, Pereira-Silva, Maísa, Oliveira, Maria Eduarda de Freitas Santana, Rodrigues, Letícia Gabriella de Souza, Tavares, Paulo Matheus Honda, Hadad, Henrique, de Jesus, Laís Kawamata, Santos, Ana Flávia Piquera, Barbosa, Débora de Barros, Poli, Pier Paolo, Maiorana, Carlo, Carvalho, Paulo Sergio Perri de, Okamoto, Roberta, and Souza, Francisley Ávila

Subjects

*BIOABSORBABLE implants, *BONE growth, *X-ray computed microtomography, *BONE screws, *BONE regeneration

Abstract

Simple Summary: Poly (L-lactide-co-D, L-lactide) and PLDLLA have mechanical properties such as biodegradability, biocompatibility, thermoplastic capacity, and physical properties. In addition, their use eliminates the need for removal in subsequent surgeries and reduces the discomfort and risks associated with additional procedures. Given these advantages, a national company is currently developing an internal fixation device manufactured for PLDLLA, and it is essential to evaluate its bone incorporation process. The PLDLLA fixation device tested in this animal study was biocompatible and facilitated the formation of new bone around the device. Therefore, to avoid a second surgical procedure, this device is a highly effective option for those seeking a reliable and safe solution for bone fixation procedures. This study evaluated the bone incorporation process of a screw-shaped internal fixation device made of poly (L-lactide-co-D, L-lactide) (PLDLLA). Thirty-two male Wistar rats received 32 fixation devices (2 mm × 6 mm) randomly assigned to either the right or left tibia and one implant in each animal. After 7, 14, 28, and 42 days, the rats were euthanized and the specimens were subjected to microtomographic computed tomography (microCT) and histomorphometric analyses to evaluate bone interface contact (BIC%) and new bone formation (NBF%) in cortical and cancellous bone areas. The animals euthanized on days 28 and 42 were treated with calcein and alizarin red, and confocal LASER microscopy was performed to determine the mineral apposition rate (MAR). Micro-CT revealed a higher percentage of bone volume (p < 0.006), trabecular separation (p < 0.001), and BIC in the cortical (p < 0.001) and cancellous (p = 0.003) areas at 28 and 42 days than at 7 and 14 days. The cortical NBF at 42 days was greater than that at 7 and 14 days (p = 0.022). No statistically significant differences were observed in cancellous NBF or MAR at 28 and 42 days. Based on these results, it can be seen that the PLDLLA internal fixation device is biocompatible and allows new bone formation around the screw thread. [ABSTRACT FROM AUTHOR]

Published

2024

27. Lactobacillus fermentum attenuates the alveolar bone loss in ligature‐induced periodontitis in mice.

Author

Lee, Yuni, Jung, Bo Hyun, Yoo, Ki‐Yeon, Lim, Hye Ji, Shin, Kum‐Joo, and Lee, Jae‐Kwan

Subjects

*INFLAMMATION prevention, *BONE resorption, *BIOLOGICAL models, *RESEARCH funding, *BONE density, *COMPUTED tomography, *DESCRIPTIVE statistics, *IN vivo studies, *MICE, *LACTOBACILLUS, *ANIMAL experimentation, *HISTOLOGICAL techniques, *PROBIOTICS, *CYTOKINES, *COMPARATIVE studies, *PERIODONTITIS, *DISEASE progression, *CONNECTIVE tissues

Abstract

Objective: This study investigated the effects of Lactobacillus fermentum BELF11 on periodontitis in mice (LIP). Methods: Sixty mice were randomly assigned to a control group (CTL), LIP/PBS group (LIP and PBS applied), or LIP/BELF11 group (LIP and L. fermentum BELF11 applied). For 14 days, PBS or L. fermentum BELF11 was applied twice daily to the mice in the LIP/PBS or LIP/BELF11 group, respectively. After 14 days, radiographic, histological, and pro‐inflammatory cytokine assessments were conducted. Results: The LIP/PBS and LIP/BELF11 groups demonstrated greater alveolar bone loss than the CTL group (p < 0.05). The LIP/BELF11 group showed significantly reduced alveolar bone loss on the mesial side compared to the LIP/PBS group. Histologically, the LIP/BELF11 group showed consistent patterns of connective tissue fiber arrangement, lower levels of inflammatory infiltration, less alveolar bone loss, and higher alveolar bone density than the LIP/PBS group, despite showing more signs of destruction than the CTL group. The LIP/BELF11 group also exhibited significantly lower levels of pro‐inflammatory cytokines than the LIP/PBS group. Conclusions: L. fermentum BELF11 inhibits alveolar bone loss and periodontitis progression by regulating pro‐inflammatory cytokine production. These findings suggest that L. fermentum BELF11 may be a potential adjunctive therapy in periodontal treatment. [ABSTRACT FROM AUTHOR]

Published

2024

28. Instrumentation time and effectiveness of hand and rotary files in a prototyped second mandibular primary molar: A micro‐CT study.

Author

Rêgo, Emily Feitosa, Silva, Renata Perez Vianna, de Sá Silva, Aline Saddock, Marceliano‐Alves, Marília Fagury Videira, Lopes, Ricardo Tadeu, Primo, Laura Guimarães, and Neves, Aline de Almeida

Subjects

MANDIBLE surgery, ENDODONTICS, DENTAL equipment, BIOMECHANICS, MOLARS, IN vitro studies, DATA analysis, CRONBACH'S alpha, TOOTH roots, RESEARCH funding, COMPUTED tomography, KRUSKAL-Wallis Test, PRODUCT design, DESCRIPTIVE statistics, DECIDUOUS teeth, ROOT canal treatment, DECIDUOUS dentition (Tooth development), ANALYSIS of variance, STATISTICS, COMPARATIVE studies, TIME

Abstract

Background: Eccentric instruments have been proposed as more effective and less time‐consuming for endodontic instrumentation. Aim: To compare biomechanical outcomes of different instrumentation systems and time undertaken for instrumentation in resin prototypes. Design: Sixty standardized prototypes of mandibular second primary molars were instrumented according to the following systems: K‐files, ProTaper Next (PTN), XP‐endo Shaper (XPS), XP‐endo Finisher (XPF), XP–Clean (XPC), and Sequence Baby File (SBF; n = 10/each). Irrigation was performed with saline with simultaneous aspiration, and time spent was recorded. The prototypes were micro‐CT‐scanned before and after the instrumentation, and image sets were reconstructed and registered. Non‐instrumented areas, accumulated debris, removed root material volume, and canal transportation were quantified. Data were analyzed through ANOVA, the Kruskal–Wallis test, and the Wilcoxon signed‐rank test (α = 5%). Results: K‐files and SBF resulted in more instrumentation time (p <.05). SBF, XPC and PTN removed less root dentine (p <.05), but PTN left more untouched areas (p <.05). Accumulated debris were lower for XPC and SBF (p <.05). Canal transportation was similar among the groups. Conclusion: Rotary systems reduced instrumentation time, whereas SBF and XPC resulted in more conservative instrumentation, with less debris accumulation and non‐instrumented areas. A dedicated paediatric endodontic system (SBF) outperformed eccentric instruments in terms of effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

29. Compression fatigue of elastomeric foams used in midsoles of running shoes.

Author

Aimar, C., Orgéas, L., Rolland du Roscoat, S., Bailly, L., and Ferré Sentis, D.

Abstract

Due to their excellent specific mechanical properties, closed cell elastomeric foams are the main element in the soles of running shoes to absorb repetitive shocks from strides and to release a maximum of the absorbed energy. However, these cellular materials are gradually damaged. To enhance their mechanical durability by slowing their damage kinetics, it is critical to understand their mechanical behaviour in fatigue. The objective of this work is thus to clarify the link between the microstructure and the fatigue properties of five commercial elastomeric foams used in the midsoles of running shoes. The 3D cellular structures of each foam were finely analysed using X-ray microtomography. Foam samples were then subjected to cyclic compression which were close to running conditions. During cycling, samples exhibited a rapid densification associated with noticeable decreases of (i) the stress levels required to deform them as well as (ii) the cushioning and (iii) the rebound properties. We show that the two midsoles filled with micro-sized mineral fillers present the highest specific mechanical properties during the first compression cycle and during fatigue. However, their damage kinetics and rebound properties could probably be improved by tuning the fillers-matrix compatibility. The lightest foam, being very porous and presenting process-induced tortuous cell walls, is the best cushioning system but exhibits high damage kinetics. The densest foam presents poor specific mechanical properties, but very slow damage kinetics. Its double hierarchical architecture probably prevents the occurrence of micro-cracks in the cell walls. [ABSTRACT FROM AUTHOR]

Published

2024

30. Interleukin-23 Regulates Inflammatory Osteoclastogenesis via Activation of CLEC5A(+) Osteoclast Precursors.

Author

Furuya, Hiroki, Nguyen, Cuong, Gu, Ran, Hsieh, Shie-Liang, Maverakis, Emanual, and Adamopoulos, Iannis

Subjects

Mice, Animals, Osteoclasts, Osteogenesis, Interleukin-23, X-Ray Microtomography, Bone Resorption, Arthritis, Cell Differentiation, RANK Ligand

Abstract

OBJECTIVE: To investigate the role of interleukin-23 (IL-23) in pathologic bone remodeling in inflammatory arthritis. METHODS: In this study we investigated the role of IL-23 in osteoclast differentiation and activation using in vivo gene transfer techniques in wild-type and myeloid DNAX-activation protein 12-associating lectin-1 (MDL-1)-deficient mice, and by performing in vitro and in vivo osteoclastogenesis assays using spectral flow cytometry, micro-computed tomography analysis, Western blotting, and immunoprecipitation. RESULTS: Herein, we show that IL-23 induces the expansion of a myeloid osteoclast precursor population and supports osteoclastogenesis and bone resorption in inflammatory arthritis. Genetic ablation of C-type lectin domain family member 5A, also known as MDL-1, prevents the induction of osteoclast precursors by IL-23 that is associated with bone destruction, as commonly observed in inflammatory arthritis. Moreover, osteoclasts derived from the bone marrow of MDL-1-deficient mice showed impaired osteoclastogenesis, and MDL-1-/- mice had increased bone mineral density. CONCLUSION: Our data show that IL-23 signaling regulates the availability of osteoclast precursors in inflammatory arthritis that could be effectively targeted for the treatment of inflammatory bone loss in inflammatory arthritis.

Published

2023

31. Morphometric Analysis and Linear Measurements of the Scala Tympani and Implications in Cochlear Implant Electrodes.

Author

Fujiwara, Rance, Ishiyama, Gail, Ishiyama, Akira, and Lopez, Ivan

Subjects

Humans, Scala Tympani, Cochlear Implants, X-Ray Microtomography, Cochlear Implantation, Cochlea, Electrodes, Implanted, Temporal Bone

Abstract

HYPOTHESIS: The objective of this study was to perform detailed height and cross-sectional area measurements of the scala tympani in histologic sections of nondiseased human temporal bones and correlate them with cochlear implant electrode dimensions. BACKGROUND: Previous investigations in scala tympani dimensions have used microcomputed tomography or casting modalities, which cannot be correlated directly with microanatomy visible on histologic specimens. METHODS: Three-dimensional reconstructions of 10 archival human temporal bone specimens with no history of middle or inner ear disease were generated using hematoxylin and eosin histopathologic slides. At 90-degree intervals, the heights of the scala tympani at lateral wall, midscala, and perimodiolar locations were measured, along with cross-sectional area. RESULTS: The vertical height of the scala tympani at its lateral wall significantly decreased from 1.28 to 0.88 mm from 0 to 180 degrees, and the perimodiolar height decreased from 1.20 to 0.85 mm. The cross-sectional area decreased from 2.29 (standard deviation, 0.60) mm 2 to 1.38 (standard deviation, 0.13) mm 2 from 0 to 180 degrees ( p = 0.001). After 360 degrees, the scala tympani shape transitioned from an ovoid to triangular shape, corresponding with a significantly decreased lateral height relative to perimodiolar height. Wide variability was observed among the cochlear implant electrode sizes relative to scala tympani measurements. CONCLUSION: The present study is the first to conduct detailed measurements of heights and cross-sectional area of the scala tympani and the first to statistically characterize the change in its shape after the basal turn. These measurements have important implications in understanding locations of intracochlear trauma during insertion and electrode design.

Published

2023

32. Influence of minimally invasive cavities on color stability of dental crowns with different filling sealers

Author

Alice Corrêa Silva-Sousa, Manoel Damião Sousa-Neto, Rafael Verardino Camargo, Thamires Diogo Lima, Antônio Castelo Branco, Fernanda de Carvalho Panzeri Pires-De-Souza, André Luís Faria-E-Silva, Francisco Wanderley Garcia Paula-Silva, Renato Roperto, Aline Evangelista Souza-Gabriel, and Jardel Francisco Mazzi-Chaves

Subjects

X-Ray Microtomography, Dental Pulp Cavity, Root Canal Obturation, Dentistry, RK1-715

Abstract

Abstract: The minimally invasive endodontic access is not directly associated with tooth discoloration in the presence of bioceramic or epoxy resin-based root canal sealers. This study aimed to evaluate the influence of minimally invasive access and endodontic sealer composition on the color stability of endodontically-treated teeth, the restorative material adaptation, and the presence of remaining filling material in the pulp chamber. Endodontic access surgery was performed in maxillary central incisors, either through conservative or minimally invasive approaches, and the root was filled with AH Plus or Bio-C Sealer. The crown color was measured with a spectrophotometer at baseline and after root obturation, restoration, and specimen storage for one year in an oven. The occurrence of voids in the restoration and the remaining filling material was analyzed using micro-CT scans. The Yellowness Index (YI) and color changes (∆E00) were calculated after each color measurement. Data of micro-CT were submitted to 2-way ANOVA, and YI and ∆E00 were analyzed with repeated-measures ANOVA. Pair-wise comparisons were performed with Tukey's test (α = 0.05). The experimental conditions had no effect on the presence of the remaining material. The minimally invasive access associated with Bio-C Sealer resulted in more voids between the restoration and the remaining filling material. Only the evaluation time affected YI and ∆E00 values. Specimens became more yellow after filling and storage in the oven (the highest ∆E00 values). The present study showed that sealer and minimally invasive cavities are not associated with crown color stability following endodontic treatment.

Published

2024

33. Enhanced strain mapping Unveils internal deformation dynamics in Silicon-based lithium-ion batteries during electrochemical cycling

Author

Bowen Wang, Kaiyuan Xue, Li Xi, Haosen Chen, Jiawei Wen, Chaojie Ma, and Ying Li

Subjects

Si-based composite electrode, X-ray microtomography, Radiation damage, Digital volume correlation, Internal deformation evolution, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Silicon-based anodes have emerged as a promising advancement in lithium-ion battery technology, offering significantly higher lithium storage capacities than traditional graphite. However, the volumetric expansion of silicon-anodes can swell by up to 300 % during lithiation-presents serious challenges to their structural integrity and electrochemical stability. This study investigates the internal structural dynamics of silicon anodes during lithiation and delithiation cycles. A novel cell design for a 18,650 cylindrical cell featuring micro-sized internal speckles within the silicon anode is presented. This design improves the simulation of electrochemical conditions and allows for precise displacement tracking, mitigating impacts on capacity and cycle performance while enhancing Digital Volume Correlation (DVC) analysis. The research prioritizes reducing scan time and radiation exposure in micro-CT assessments of Li-ion cells, and improves the accuracy of internal strain mapping via DVC. Displacement fields over three charging and discharging cycles are documented. Notably, uneven volumetric changes are observed, with local displacements reaching up to 35 µm in areas smaller than 2.5 mm in radius, which contracted during charging and expanded during discharging. This protocol offers insights into the relationship between electrode mechanics and cell performance, promoting non-destructive evaluations of internal structures in commercial cells.

Published

2024

34. New insights into the Devonian sea spiders of the Hunsrück Slate (Arthropoda: Pycnogonida)

Author

Romain Sabroux, Russell J. Garwood, Davide Pisani, Philip C. J. Donoghue, and Gregory D. Edgecombe

Subjects

Konservat-Lagerstätte, Hunsrück Slate, Devonian, Emsian, X-ray microtomography, Reflectance transformation imaging, Medicine, Biology (General), QH301-705.5

Abstract

Background The sea spiders (Pycnogonida Latreille, 1810) of the Hunsrück Slate (Lower Devonian, ~400 million years ago) are iconic in their abundance, exquisite pyritic preservation, and in their distinctive body plan compared to extant sea spiders (Pantopoda Gerstäcker, 1863). Consequently, the Hunsrück sea spiders are important in understanding the deep evolutionary history of Pycnogonida, yet they remain poorly characterised, impacting upon attempts to establish a time-calibrated phylogeny of sea spiders. Methods Here, we investigated previously described and new material representing four of the five Hunsrück pycnogonids: Flagellopantopus blocki Poschmann & Dunlop, 2006; Palaeoisopus problematicus Broili, 1928; Palaeopantopus maucheri Broili, 1929; and Pentapantopus vogteli Kühl, Poschmann & Rust, 2013; as well as a few unidentified specimens. Using X-ray microtomography and Reflectance Transformation Imaging, we describe new fossils, provide evidence for newly revealed anatomical features, and interpret these data in comparison to extant species. We also reinterpret the previously published illustration of the (probably lost) holotype of Palaeothea devonica Bergström, Stürmer & Winter, 1980. Results We provide the first detailed description of the cephalic appendages of Palaeoisopus problematicus and revise the interpretation of the organisation of its ocular tubercle. Furthermore, we provide new insights into the structure of the legs and the proboscis of Palaeopantopus maucheri, the first description of the body of Flagellopantopus blocki and describe a new specimen of Pentapantopus vogteli, demonstrating that it had eight legs, in contrast to previous interpretations. We argue that, contrary to previous suggestions, Palaeothea devonica probably had a different body plan from extant pantopods. We discuss the ecological traits of the Hunsrück pycnogonids based on their morphological adaptations, and conclude that there is no compelling evidence of Pantopoda in the Devonian. Through comparative interpretation of the legs as well as general morphology, we can divide the Hunsrück pycnogonids into two morphological groups, while Pantopoda constitutes a third morphological group.

Published

2024

35. Evaluation of Convective Heat Transfer Inside the Pores of Pyrolyzed Wood using a -CT Based Realistic Geometry

Author

Dernbecher, Andrea, Bhaskaran, Supriya, Vorhauer-Huget, Nicole, Seidenbecher, Jakob, Gopalkrishna, Suresh, Briest, Lucas, Dieguez-Alonso, Alba, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Benim, Ali Cemal, editor, Bennacer, Rachid, editor, Mohamad, Abdulmajeed A., editor, Ocłoń, Paweł, editor, Suh, Sang-Ho, editor, and Taler, Jan, editor

Published

2024

36. Analysis of Detrimental Inclusions in Steel and Aluminum

Author

Weidner, Anja, Wagner, Ruben, Seleznev, Mikhail, Biermann, Horst, Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Kruzic, Jamie, Series Editor, Osgood Jr., Richard, Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Aneziris, Christos G., editor, and Biermann, Horst, editor

Published

2024

37. Digital Rock Physics Results from Phase-Contrast Synchrotron-Based X-ray Microtomography

Author

Visconti, Luca, Radaelli, Francesco, Ortenzi, Andrea, Torre, Augusto Della, Ierardi, Cristian, Di Lillo, Francesca, Mancini, Lucia, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Khomsi, Sami, editor, Bezzeghoud, Mourad, editor, Banerjee, Santanu, editor, Eshagh, Mehdi, editor, Benim, Ali Cemal, editor, Merkel, Broder, editor, Kallel, Amjad, editor, Panda, Sandeep, editor, Chenchouni, Haroun, editor, Grab, Stefan, editor, and Barbieri, Maurizio, editor

Published

2024

38. Evaluation of the Effect of Iodine Staining and Sodium Thiosulfate Clearing on the Quality of X-ray Microtomographic Images and Histological Processing of Small Bowel Biopsies

Author

Reunamo, Aino, Hannula, Markus, Lindfors, Katri, Tolonen, Teemu, Kurppa, Kalle, Hyttinen, Jari, Magjarević, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Badnjević, Almir, editor, and Gurbeta Pokvić, Lejla, editor

Published

2024

39. Adaptation of Fibril-Reinforced Poroviscoelastic Properties in Rabbit Collateral Ligaments 8 Weeks After Anterior Cruciate Ligament Transection.

Author

Orozco, Gustavo, Ristaniemi, Aapo, Haghighatnejad, Mehrnoush, Mohammadi, Ali, Finnilä, Mikko, Saarakkala, Simo, Herzog, Walter, Isaksson, Hanna, and Korhonen, Rami

Subjects

Anterior cruciate ligament transection, Finite element model, Medial/lateral collateral ligament, Rabbit model, Tissue adaptation, Animals, Rabbits, Anterior Cruciate Ligament, X-Ray Microtomography, Biomechanical Phenomena, Knee Joint, Anterior Cruciate Ligament Injuries, Collateral Ligaments, Collagen

Abstract

Ligaments of the knee provide stability and prevent excessive motions of the joint. Rupture of the anterior cruciate ligament (ACL), a common sports injury, results in an altered loading environment for other tissues in the joint, likely leading to their mechanical adaptation. In the collateral ligaments, the patterns and mechanisms of biomechanical adaptation following ACL transection (ACLT) remain unknown. We aimed to characterize the adaptation of elastic and viscoelastic properties of the lateral and medial collateral ligaments eight weeks after ACLT. Unilateral ACLT was performed in six rabbits, and collateral ligaments were harvested from transected and contralateral knee joints after eight weeks, and from an intact control group (eight knees from four animals). The cross-sectional areas were measured with micro-computed tomography. Stepwise tensile stress-relaxation testing was conducted up to 6% final strain, and the elastic and viscoelastic properties were characterized with a fibril-reinforced poroviscoelastic material model. We found that the cross-sectional area of the collateral ligaments in the ACL transected knees increased, the nonlinear elastic collagen network modulus of the LCL decreased, and the amount of fast relaxation in the MCL decreased. Our results indicate that rupture of the ACL leads to an early adaptation of the elastic and viscoelastic properties of the collagen fibrillar network in the collateral ligaments. These adaptations may be important to consider when evaluating whole knee joint mechanics after ACL rupture, and the results aid in understanding the consequences of ACL rupture on other tissues.

Published

2023

40. Ultrashort Echo Time (UTE) MRI porosity index (PI) and suppression ratio (SR) correlate with the cortical bone microstructural and mechanical properties: Ex vivo study

Author

Jerban, Saeed, Ma, Yajun, Alenezi, Salem, Moazamian, Dina, Athertya, Jiyo, Jang, Hyungseok, Dorthe, Erik, Dlima, Darryl, Woods, Gina, Chung, Christine B, Chang, Eric Y, and Du, Jiang

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Biomedical Imaging, Bioengineering, Women's Health, Musculoskeletal, X-Ray Microtomography, Porosity, Bone and Bones, Cortical Bone, Magnetic Resonance Imaging, Imaging, Three-Dimensional, Cortical bone, MRI, Ultrashort echo time, Porosity index, Suppression ratio, Bone mechanics, Biological Sciences, Engineering, Medical and Health Sciences, Endocrinology & Metabolism, Clinical sciences

Abstract

Ultrashort echo time (UTE) MRI can image and consequently enable quantitative assessment of cortical bone. UTE-MRI-based evaluation of bone is largely underutilized due to the high cost and time demands of MRI in general. The signal ratio in dual-echo UTE imaging, known as porosity index (PI), as well as the signal ratio between UTE and inversion recovery UTE (IR-UTE) imaging, known as the suppression ratio (SR), are two rapid UTE-based bone evaluation techniques (∼ 5 mins scan time each), which can potentially reduce the time demand and cost in future clinical studies. This study aimed to investigate the correlations of PI and SR measures with cortical bone microstructural and mechanical properties. Cortical bone strips (n = 135) from tibial and femoral midshafts of 37 donors (61 ± 24 years old) were scanned using a dual-echo 3D Cones UTE sequence and a 3D Cones IR-UTE sequence for PI and SR calculations, respectively. Average bone mineral density, porosity, and pore size were measured using microcomputed tomography (μCT). Bone mechanical properties were measured using 4-point bending tests. The μCT measures showed significant correlations with PI (moderate to strong, R = 0.68-0.71) and SR (moderate, R = 0.58-0.68). Young's modulus, yield stress, and ultimate stress demonstrated significant moderate correlations with PI and SR (R = 0.52-0.62) while significant strong correlations with μCT measures (R > 0.7). PI and SR can potentially serve as fast and noninvasive (non-ionizing radiation) biomarkers for evaluating cortical bone in various bone diseases.

Published

2023

41. Dual-contrast micro-CT enables cartilage lesion detection and tissue condition evaluation ex vivo.

Author

Honkanen, Miitu, Mohammadi, Ali, Te Moller, Nikae, Ebrahimi, Mohammadhossein, Xu, Wujun, Plomp, Saskia, Pouran, Behdad, Lehto, Vesa-Pekka, Brommer, Harold, van Weeren, P, Korhonen, Rami, Töyräs, Juha, and Mäkelä, Janne

Subjects

articular cartilage, bismuth nanoparticles, contrast-enhanced computed tomography, horse, ioxaglate, osteoarthritis, Animals, Horses, X-Ray Microtomography, Ioxaglic Acid, Contrast Media, Cartilage, Articular, Cartilage Diseases, Horse Diseases

Abstract

BACKGROUND: Post-traumatic osteoarthritis is a frequent joint disease in the horse. Currently, equine medicine lacks effective methods to diagnose the severity of chondral defects after an injury. OBJECTIVES: To investigate the capability of dual-contrast-enhanced computed tomography (dual-CECT) for detection of chondral lesions and evaluation of the severity of articular cartilage degeneration in the equine carpus ex vivo. STUDY DESIGN: Pre-clinical experimental study. METHODS: In nine Shetland ponies, blunt and sharp grooves were randomly created (in vivo) in the cartilage of radiocarpal and middle carpal joints. The contralateral joint served as control. The ponies were subjected to an 8-week exercise protocol and euthanised 39 weeks after surgery. CECT scanning (ex vivo) of the joints was performed using a micro-CT scanner 1 hour after an intra-articular injection of a dual-contrast agent. The dual-contrast agent consisted of ioxaglate (negatively charged, q = -1) and bismuth nanoparticles (BiNPs, q = 0, diameter ≈ 0.2 µm). CECT results were compared to histological cartilage proteoglycan content maps acquired using digital densitometry. RESULTS: BiNPs enabled prolonged visual detection of both groove types as they are too large to diffuse into the cartilage. Furthermore, proportional ioxaglate diffusion inside the tissue allowed differentiation between the lesion and ungrooved articular cartilage (3 mm from the lesion and contralateral joint). The mean ioxaglate partition in the lesion was 19 percentage points higher (P

Published

2023

42. Damage mechanisms of a metastable β-titanium alloy with bimodal microstructure revealed by void growth models using synchrotron X-ray microtomography

Author

Gu, Bin, Adrien, Jérôme, Maire, Eric, Dang, Ning, and Skrotzki, Werner

Published

2024

43. Accuracy of intraoral ultrasound to evaluate alveolar bone level: an ex vivo study in human cadavers

Author

Corbea, Claudiu, Le, Lawrence H., Kaipatur, Neelambar R., Li, Mengxun, Nguyen, Kim Cuong, Heo, Giseon, Figueredo, Carlos Alberto, Major, Paul W., and Almeida, Fabiana T.

Published

2024

44. Chondrosarcoma evaluation using hematein-based x-ray staining and high-resolution 3D micro-CT: a feasibility study

Author

Alexandra S. Gersing, Melanie A. Kimm, Christine Bollwein, Patrick Ilg, Carolin Mogler, Felix G. Gassert, Georg C. Feuerriegel, Carolin Knebel, Klaus Woertler, Daniela Pfeiffer, Madleen Busse, and Franz Pfeiffer

Subjects

Bone neoplasms, Chondrosarcoma, Hematein, Staining and labeling, X-ray microtomography, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Chondrosarcomas are rare malignant bone tumors diagnosed by analyzing radiological images and histology of tissue biopsies and evaluating features such as matrix calcification, cortical destruction, trabecular penetration, and tumor cell entrapment. Methods We retrospectively analyzed 16 cartilaginous tumor tissue samples from three patients (51-, 54-, and 70-year-old) diagnosed with a dedifferentiated chondrosarcoma at the femur, a moderately differentiated chondrosarcoma in the pelvis, and a predominantly moderately differentiated chondrosarcoma at the scapula, respectively. We combined a hematein-based x-ray staining with high-resolution three-dimensional (3D) microscopic x-ray computed tomography (micro-CT) for nondestructive 3D tumor assessment and tumor margin evaluation. Results We detected trabecular entrapment on 3D micro-CT images and followed bone destruction throughout the volume. In addition to staining cell nuclei, hematein-based staining also improved the visualization of the tumor matrix, allowing for the distinction between the tumor and the bone marrow cavity. The hematein-based staining did not interfere with further conventional histology. There was a 5.97 ± 7.17% difference between the relative tumor area measured using micro-CT and histopathology (p = 0.806) (Pearson correlation coefficient r = 0.92, p = 0.009). Signal intensity in the tumor matrix (4.85 ± 2.94) was significantly higher in the stained samples compared to the unstained counterparts (1.92 ± 0.11, p = 0.002). Conclusions Using nondestructive 3D micro-CT, the simultaneous visualization of radiological and histopathological features is feasible. Relevance statement 3D micro-CT data supports modern radiological and histopathological investigations of human bone tumor specimens. It has the potential for being an integrative part of clinical preoperative diagnostics. Key points • Matrix calcifications are a relevant diagnostic feature of bone tumors. • Micro-CT detects all clinically diagnostic relevant features of x-ray-stained chondrosarcoma. • Micro-CT has the potential to be an integrative part of clinical diagnostics. Graphical Abstract

Published

2024

45. A dataset of µCT images of small samples of constructed Technosol from bioretention cellsDataverse

Author

Petra Marešová, John Koestel, Aleš Klement, Radka Kodešová, and Michal Sněhota

Subjects

X-ray microtomography, Constructed Technosols, Biofilter, Bioretention cell, Swale, Rain garden, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

The dataset represents micro computed tomography (µCT) images of undisturbed samples of constructed Technosol, obtained by sampling from the top layer of the biofilter in two bioretention cells. A bioretention cell is a stormwater management system designed to collect and temporarily retain stormwater runoff and treat it by filtering it through a soil media called a biofilter. Soil samples were collected at 7, 12, 18, 23, and 31 months after the establishment of bioretention cells. The constructed Technosol was composed of 50% sand, 30% compost, and 20% topsoil. The bioretention cell 1 (BC1) was designed to collect water from the nearby building roof, and bioretention cell 2 (BC2) was without regular inflow for possible irrigation events. This allowed for the capture of the dynamics of early soil structure development. The dataset comprises a total of 120 three-dimensional µCT images. The 16-bit µCT images obtained by industrial scanner have resolutions of 12 and 20 µm. The characteristics of total porosity, volumetric weight of the dry sample and field capacity were determined in the laboratory for each sample. The generated dataset captures the soil structure development within the biofilter during the initial years of operation of bioretention cells with two distinct water regimes. Originally produced to describe the development of the macropore system during early biofilter evolution, this extensive and high-quality dataset can be reused for further studies on constructed Technosol evolution, focusing on soil structure or hydraulic properties. It is particularly beneficial for research into macropore network development and changes in hydraulic properties in constructed soils. The dataset can support model validation and improve understanding of soil property variability in bioretention systems. It serves as a valuable resource for researchers who lack the means to collect and scan their own samples.

Published

2024

46. Subcortical life, evolution of flattened body, and constrained mating posture in the earwig Platylabia major (Insecta: Dermaptera: Anisolabididae).

Author

Kamimura, Yoshitaka and Lee, Chow-Yang

Subjects

Animals, Male, X-Ray Microtomography, Insecta, Reproduction, Penis, Abdominal Muscles, Neoptera

Abstract

Many animals take advantage of the shaded, humid, and protected environments in subcortical spaces, i.e., thin spaces under the loosened bark of dead trees. Permanent inhabitants of subcortical spaces often show specialized morphologies, such as a miniaturized or dorsoventrally flattened body. However, the evolutionary consequences of these specialized morphologies on behavioral, ecological, and life-history traits have been little studied. We studied the mating biology and anatomy of Platylabia major (usually placed in the family Anisolabididae), which is an obligate inhabitant of subcortical spaces with a paper-like flattened body, and compared them with those of two thicker, spongiphorid earwigs, Nesogaster amoenus and Paralabellula curvicauda. Mating trials in various settings showed that Pl. major requires thin spaces sandwiched by two planes to accomplish genital coupling and insemination. In contrast, the thicker species, although also frequently found in subcortical spaces, could mate on a single horizontal plane due to the ability of the male to twist its abdomen through approximately 180°. Examination by micro-computed tomography and a reagent-based clearing technique revealed no substantive differences in the configuration of mid-abdominal musculature between the species. The dorsal and lateral muscles of Pl. major, which are almost parallel to the antero-posterior body axis for accommodation within the thin abdomen, seemed incapable of producing the power to twist the abdomen. The abdominal musculature conforms to a simple pattern in both male and female earwigs, which is repeated in each of the pregenital segments. We conclude that small differences in the range of motion of each abdominal segment can result in large differences in possible mating postures and positions. Surgical experiments also demonstrated that both right and left penises of Pl. major are competent and used for insemination with no lateral bias, as in most other earwigs with twin penises studied to date.

Published

2023

47. Kalkitoxin: A Potent Suppressor of Distant Breast Cancer Metastasis

Author

Shrestha, Saroj Kumar, Min, Kyung Hyun, Kim, Woong, Kim, Hyoungsu, Gerwick, William H, and Soh, Yunjo

Subjects

Microbiology, Biochemistry and Cell Biology, Biological Sciences, Breast Cancer, Cancer, Aetiology, 2.1 Biological and endogenous factors, Animals, Mice, Osteolysis, X-Ray Microtomography, Osteoclasts, Lipids, Cell Movement, Cell Line, Tumor, Neoplasm Metastasis, kalkitoxin, breast cancer, metastasis, EMT markers, an anti-cancer medicine, Other Chemical Sciences, Genetics, Other Biological Sciences, Chemical Physics, Biochemistry and cell biology, Medicinal and biomolecular chemistry

Abstract

Bone metastasis resulting from advanced breast cancer causes osteolysis and increases mortality in patients. Kalkitoxin (KT), a lipopeptide toxin derived from the marine cyanobacterium Moorena producens (previously Lyngbya majuscula), has an anti-metastatic effect on cancer cells. We verified that KT suppressed cancer cell migration and invasion in vitro and in animal models in the present study. We confirmed that KT suppressed osteoclast-soup-derived MDA-MB-231 cell invasion in vitro and induced osteolysis in a mouse model, possibly enhancing/inhibiting metastasis markers. Furthermore, KT inhibits CXCL5 and CXCR2 expression, suppressing the secondary growth of breast cancer cells on the bone, brain, and lungs. The breast-cancer-induced osteolysis in the mouse model further reveals that KT plays a protective role, judging by micro-computed tomography and immunohistochemistry. We report for the first time the novel suppressive effects of KT on cancer cell migration and invasion in vitro and on MDA-MB-231-induced bone loss in vivo. These results suggest that KT may be a potential therapeutic drug for the treatment of breast cancer metastasis.

Published

2023

48. Measuring compound eye optics with microscope and microCT images

Author

Currea, John Paul, Sondhi, Yash, Kawahara, Akito Y, and Theobald, Jamie

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Bioengineering, Animals, Bees, X-Ray Microtomography, Engineering, Algorithms, Ants, Drosophila, Biological sciences, Biomedical and clinical sciences

Abstract

With a great variety of shapes and sizes, compound eye morphologies give insight into visual ecology, development, and evolution, and inspire novel engineering. In contrast to our own camera-type eyes, compound eyes reveal their resolution, sensitivity, and field of view externally, provided they have spherical curvature and orthogonal ommatidia. Non-spherical compound eyes with skewed ommatidia require measuring internal structures, such as with MicroCT (µCT). Thus far, there is no efficient tool to characterize compound eye optics, from either 2D or 3D data, automatically. Here we present two open-source programs: (1) the ommatidia detecting algorithm (ODA), which measures ommatidia count and diameter in 2D images, and (2) a µCT pipeline (ODA-3D), which calculates anatomical acuity, sensitivity, and field of view across the eye by applying the ODA to 3D data. We validate these algorithms on images, images of replicas, and µCT eye scans from ants, fruit flies, moths, and a bee.

Published

2023

49. The feasibility study of XACT imaging for characterizing osteoporosis

Author

Li, Yizhou, Samant, Pratik, Cochran, Christian, zhao, Yue, Keyak, Joyce H, Hu, Xiang, Yu, Aixi, and Xiang, Liangzhong

Subjects

Medical and Biological Physics, Engineering, Physical Sciences, Biomedical Engineering, Bioengineering, Biomedical Imaging, Women's Health, Osteoporosis, Aging, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Musculoskeletal, Mice, Animals, Feasibility Studies, X-Ray Microtomography, Bone Density, Acoustics, osteoporosis, porosity, simulation, spectra slope, X-ray-induced acoustic computed tomography, Other Physical Sciences, Oncology and Carcinogenesis, Nuclear Medicine & Medical Imaging, Biomedical engineering, Medical and biological physics

Abstract

BackgroundOsteoporosis is a progressive bone disease that is characterized by a decrease in bone mass and the deterioration in bone microarchitecture, which might be related to age and space travel. An unmet need exists for the development of novel imaging technologies to characterize osteoporosis.PurposeThe purpose of our study is to investigate the feasibility of X-ray-induced acoustic computed tomography (XACT) imaging for osteoporosis detection.MethodsAn in-house simulation workflow was developed to assess the ability of XACT for osteoporosis detection. To evaluate this simulation workflow, a three-dimensional digital bone phantom for XACT imaging was created by a series of two-dimensional micro-computed tomography (micro-CT) slices of normal and osteoporotic bones in mice. In XACT imaging, the initial acoustic pressure rise caused by the X-ray induce acoustic (XA) effect is proportional to bone density. First, region growing was deployed for image segmentation of different materials inside the bone. Then k-wave simulations were deployed to model XA wave propagation, attenuation, and detection. Finally, the time-varying pressure signals detected at each transducer location were used to reconstruct the XACT image with a time-reversal reconstruction algorithm.ResultsThrough the simulated XACT images, cortical porosity has been calculated, and XA signal spectra slopes have been analyzed for the detection of osteoporosis. The results have demonstrated that osteoporotic bones have lower bone mineral density and higher spectra slopes. These findings from XACT images were in good agreement with porosity calculation from micro-CT images.ConclusionThis work explores the feasibility of using XACT imaging as a new imaging tool for Osteoporosis detection. Considering that acoustic signals are generated by X-ray absorption, XACT imaging can be combined with traditional X-ray imaging that holds potential for clinical management of osteoporosis and other bone diseases.

Published

2022

50. Digital Light Processing Route for 3D Printing of Acrylate-Modified PLA/Lignin Blends: Microstructure and Mechanical Performance.

Author

Guessasma, Sofiane, Stephant, Nicolas, Durand, Sylvie, and Belhabib, Sofiane

Subjects

*THREE-dimensional printing, *X-ray computed microtomography, *LIGNINS, *POLYLACTIC acid, *MICROSTRUCTURE, *PHOTOPOLYMERIZATION, *SOFTWOOD

Abstract

In this study, digital light processing (DLP) was utilized to generate 3D-printed blends composed of photosensitive acrylate-modified polylactic acid (PLA) resin mixed with varying weight ratios of lignin extracted from softwood, typically ranging from 5 wt% to 30 wt%. The microstructure of these 3D-printed blends was examined through X-ray microtomography. Additionally, the tensile mechanical properties of all blends were assessed in relation to the weight ratio and post-curing treatment. The results suggest that post-curing significantly influences the tensile properties of the 3D-printed composites, especially in modulating the brittleness of the prints. Furthermore, an optimal weight ratio was identified to be around 5 wt%, beyond which UV light photopolymerization experiences compromises. These findings regarding acrylate-modified PLA/lignin blends offer a cost-effective alternative for producing 3D-printed bio-sourced components, maintaining technical performance in reasonable-cost, low-temperature 3D printing, and with a low environmental footprint. [ABSTRACT FROM AUTHOR]

Published

2024