Your search keyword '"Radlanski RJ"' showing total 112 results

1. Development of the human primary and secondary jaw joints

Author

Fernández-Rubio, EM and Radlanski, RJ

Published

2024

2. Fluorosed Mouse Ameloblasts Have Increased SATB1 Retention and G alpha q Activity

Author

Den Besten, Pamela, Ho, Sunita, Zhang, Y, Kim, J-Y, Horst, O, Nakano, Y, Zhu, L, Radlanski, RJ, and Den, PK

Published

2014

3. The effect of surface chemistry modification of titanium alloy on signalling pathways in human osteoblasts

Author

Zreiqat, H, Valenzuela, SM, Nissan, BB, Roest, R, Knabe, C, Radlanski, RJ, Renz, H, Evans, PJ, Zreiqat, H, Valenzuela, SM, Nissan, BB, Roest, R, Knabe, C, Radlanski, RJ, Renz, H, and Evans, PJ

Abstract

Establishing and maintaining mature bone at the bone-device interface is critical to the long-term success of prosthesis. Poor cell adhesion to orthopaedic and dental implants results in implant failure. Considerable effort has been devoted to alter the surface characteristics of these biomaterials in order to improve the initial interlocking of the device and skeleton. We investigated the effect of surface chemistry modification of titanium alloy (Ti-6Al-4V) with zinc, magnesium or alkoxide-derived hydroxy carbonate apatite (CHAP) on the regulation of key intracellular signalling proteins in human bone-derived cells (HBDC) cultured on these modified Ti-6Al-4V surfaces. Western blotting demonstrated that modifying Ti-6Al-4V with CHAP or Mg results in modulation of key intracellular signalling proteins. We showed an enhanced activation of Shc, a common point of integration between integrins and the Ras/Mapkinase pathway. Mapkinase pathway was also upregulated, suggesting its role in mediating osteoblastic cell interactions with biomaterials. The signalling pathway involving c-fos (member of the activated protein-1) was also shown to be upregulated in osteoblasts cultured on the Mg and CHAP modified Ti-6Al-4V. Thus surface modification with CHAP or Mg may contribute to successful osteoblast function and differentiation at the skeletal tissue-device interface. © 2005 Elsevier Ltd. All rights reserved.

Published

2005

4. Prenatal craniofacial morphogenesis: four‐dimensional visualization of morphogenetic processes

Author

Radlanski, RJ, primary

Published

2003

5. Development of the dentition: four-dimensional visualization and open questions concerning the morphogenesis of tooth form and occlusion

Author

Radlanski, RJ, primary

Published

2003

6. New carbide finishing burs to reduce polishing efforts of light-cured restorations.

Author

Radlanski RJ and Best T

Abstract

OBJECTIVE: To compare, under laboratory conditions, the efficacy of different polishing systems for various light-curing restorative materials. METHOD AND MATERIALS: Class 5 cavities were prepared in 65 human teeth and filled with 5 different light-curing restorative materials. To increase the number of samples, an extra 585 Class 5 cavities were made in resin disks and filled with the 5 different restorative materials. All restorations were polished with 13 polishing procedures commonly used in dental practice. The restoration surfaces were evaluated micromorphologically by means of SEM. A quantitative analysis of the polishing result was performed with the surface tester with waveline profilometry. The time required to achieve a polished surface was also measured. RESULTS: Surfaces of all 5 restorative materials showed a satisfactory finish after treatment. SEM analysis and profilometry showed good surface qualities with large smooth, homogenous areas with low roughness. All polished surfaces were smoother than natural dental enamel. Sof-Lex, Super Snap, and Bush composite finished set 5430 systems showed the best areas with a smooth and homogenous surface. The extra effort required with several systems resulted in a smooth final restoration. CONCLUSION: The surface produced by the carbide finisher H134Q was rough, so it is useful for effective contouring of restorations. Application of the finishers H282K and H22ALGK led to a high share in good surface quality, which could be enhanced by using polishing paste as a final working step. The instruments H22GK and the systems One Gloss and Enhance were not recommendable. In comparison, the combination of H134Q and H22ALGK was effective, at the same time preserving tissue and saving time in finishing light-cured Class 5 restorations. The use of polishing paste as a final step is recommended. [ABSTRACT FROM AUTHOR]

Published

2007

7. Development of the primary and secondary jaw joints in the mouse.

Author

Fernández-Rubio EM and Radlanski RJ

Subjects

Mice, Animals, Temporomandibular Joint, Jaw

Abstract

This study assesses the morphogenesis of the primary and secondary jaw joints. A collection of 11 murine heads, ranging from prenatal stage E13.5 to postnatal stage P10, were prepared as histological serial sections (thickness 8-10 µm) and stained conventionally in order to examine them with light microscopy. Next, the regions of the developing temporomandibular joint and the middle ear ossicles were three dimensionally reconstructed using AnalySIS® software. This study gained new insight into the spatio-temporal development of the temporomandibular joint and the auditory ossicles. Furthermore, we newly visualized in 3D that during the developmental period from stages E16 to P4 two morphologically well-functional joints (the primary and secondary jaw joints) exist on either side and are mechanically connected via Meckel's cartilage. Potential separation mechanisms of these two joints are discussed and options for mathematical analysis are suggested., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier GmbH. All rights reserved.)

Published

2023

8. Hypothesis for the lack of a muscular antagonist to the lateral pterygoid.

Author

Fernández Rubio EM and Radlanski RJ

Subjects

Animals, Humans, Masticatory Muscles, Mice, Pterygoid Muscles, Temporomandibular Joint

Abstract

Background: During physiological function of the temporomandibular joint, we have to rely only on elastic structures (in particular the bilaminar zone) for repositioning of the articular disc. A real muscle, however, would be functionally more reasonable. In patients, a decrease of this elasticity is possibly one of the reasons for temporomandibular joint malfunctions, which affect between 16% and 36% of the population., Method: This study assesses the morphogenesis of the murine (Mus musculus) temporomandibular joint with particular regard to the masticatory muscles, to throw light on this topic. To that end, a collection of 11 murine heads ranging from prenatal stages E13.25 to E20 was used and early postnatal stages P0 to P4, which were prepared as histological sections (thickness 8-10 µm) and stained conventionally in order to examine them with light microscopy. Next, the temporomandibular joint and selected surrounding structures, along with the masticatory muscles, were threedimensionally reconstructed using analySIS® software. Subsequently, specific morphometric analyses were performed., Results and Conclusions: The evaluation of the results led to the following conclusions., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021. Published by Elsevier GmbH.)

Published

2022

9. A method to calibrate fetal μCT scans using histological sections from the same specimens.

Author

Radlanski RJ, Weinhold J, Jerichow S, Mehner M, Schwandt H, Keilig L, and Bourauel C

Subjects

Bone and Bones, Fetus diagnostic imaging, Histological Techniques, Imaging, Three-Dimensional, Tomography, X-Ray Computed

Abstract

Craniofacial morphogenesis is an intricate developmental process in 3D, which therefore merits visualization and investigation in 3D. To better understand the process, we utilize μCT imaging, and describe a method to calibrate each cone beam μCT individually. Calibration is necessary, because during development, fetuses undergo tissue differentiation, which affects the acquisition process for radiographic images. Additionally, tissue fixation and conservation agents may influence the physical properties of the specimens and may affect image acquisition. After taking a μCT scan from each specimen, we separated a horizontal slice from each neck (which is inconsequential to our question with relation to the whole head). These neck specimens were prepared as horizontal histological serial sections and stained. With these as a reference, the μCT visualization parameters could be adjusted until they matched the selected virtual section planes, which correspond exactly to the planes of the histological sections with a precision (pixel size) of 0.69μm., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

10. Structural, mechanical and chemical evaluation of molar-incisor hypomineralization-affected enamel: A systematic review.

Author

Elhennawy K, Manton DJ, Crombie F, Zaslansky P, Radlanski RJ, Jost-Brinkmann PG, and Schwendicke F

Subjects

Dental Enamel chemistry, Dental Enamel physiology, Elasticity, Hardness, Humans, Surface Properties, Dental Enamel Hypoplasia pathology, Incisor pathology, Molar pathology

Abstract

Objectives: To systematically assess and contrast reported differences in microstructure, mineral density, mechanical and chemical properties between molar-incisor-hypomineralization-affected (MIH) enamel and unaffected enamel., Methods: Studies on extracted human teeth, clinically diagnosed with MIH, reporting on the microstructure, mechanical properties or the chemical composition and comparing them to unaffected enamel were reviewed. Electronic databases (PubMed, Embase and Google Scholar) were screened; hand searches and cross-referencing were also performed., Results: Twenty-two studies were included. Fifteen studies on a total of 201 teeth investigated the structural properties, including ten (141 teeth) on microstructure and seven (60 teeth) on mineral density; six (29 teeth) investigated the mechanical properties and eleven (87 teeth) investigated the chemical properties of MIH-affected enamel and compared them to unaffected enamel. Studies unambiguously found a reduction in mineral quantity and quality (reduced Ca and P content), reduction of hardness and modulus of elasticity (also in the clinically sound-appearing enamel bordering the MIH-lesion), an increase in porosity, carbon/carbonate concentrations and protein content compared to unaffected enamel., Findings: were ambiguous with regard to the extent of the lesion through the enamel to the enamel-dentin junction, the Ca/P ratio and the association between clinical appearance and defect severity., Conclusions: There is an understanding of the changes related to MIH-affected enamel. The association of these changes with the clinical appearance and resulting implications for clinical management are unclear., Clinical Significance: MIH-affected enamel is greatly different from unaffected enamel. This has implications for management strategies. The possibility of correlating the clinical appearance of MIH-affected enamel with the severity of enamel changes and deducing clinical concepts (risk stratification etc.) is limited., (Crown Copyright © 2017. Published by Elsevier Ltd. All rights reserved.)

Published

2017

11. [Cleft lip and palate].

Author

Voigt A, Radlanski RJ, Sarioglu N, and Schmidt G

Subjects

Cleft Lip embryology, Cleft Lip epidemiology, Cleft Lip genetics, Cleft Palate embryology, Cleft Palate epidemiology, Cleft Palate genetics, Cross-Sectional Studies, Female, Forensic Medicine, Gingiva embryology, Gingiva pathology, Humans, Infant, Newborn, Lip embryology, Lip pathology, Palate embryology, Palate pathology, Pierre Robin Syndrome embryology, Pierre Robin Syndrome epidemiology, Pierre Robin Syndrome genetics, Pierre Robin Syndrome pathology, Pregnancy, Prognosis, Risk Factors, Statistics as Topic, Cleft Lip pathology, Cleft Palate pathology

Abstract

Background: Cleft lip and palate (CLP) represents a group of malformations of unknown etiology but similar phenotypes. This implies consequences for the diagnostics, therapy, prevention, prognosis and risk estimation., Objective: Definition of CLP subtypes and the embryonic development, clarification of correlations and differences between entities using epidemiological data, overview of the present state of genetic analyses, correlation to syndromes, sequences and associations and resulting consequences for clinical practice., Material and Methods: Update on embryological development of the face, summary of epidemiological and genetic studies and considerations on pedopathological and forensic aspects., Results: Syndromic and non-syndromic CLP exhibit different and highly variable etiologies, therapeutic needs and prognosis. A thorough understanding is mandatory to distinguish between the different subgroups. In addition to specific aspects of CLP for the pediatric (forensic) pathologist this article provides an overall view of the topic which aims to help understand these malformations.

Published

2017

12. Chondral ossification centers next to dental primordia in the human mandible: A study of the prenatal development ranging between 68 to 270mm CRL.

Author

Radlanski RJ, Renz H, Zimmermann CA, Schuster FP, Voigt A, and Heikinheimo K

Subjects

Aging pathology, Aging physiology, Crown-Rump Length, Embryonic Development physiology, Female, Gestational Age, Humans, Imaging, Three-Dimensional methods, Male, Mandible anatomy & histology, Tooth Socket anatomy & histology, Mandible embryology, Mandible growth & development, Maxillofacial Development physiology, Osteogenesis, Tooth Socket embryology, Tooth Socket growth & development

Abstract

The human mandible is said to arise from desmal ossification, which, however, is not true for the entire body of the mandible: Meckel's cartilage itself is prone to ossification, at least its anterior part in the canine and incisor region. Also, within the coronoid and in the condylar processes there are cartilaginous cores, which eventually undergo ossification. Furthermore, there are a number of additional single cartilaginous islets arising in fetuses of 95mm CRL and more. They are located predominantly within the bone at the buccal sides of the brims of the dental compartments, mostly in the gussets between the dental primordia. They become wedge-shaped or elongated with a diameter of around 150-500μm and were also found in older stages up to 225mm CRL, which was the oldest specimen used in this study. This report is intended to visualize these single cartilaginous islets histologically and in 3-D reconstructions in stereoscopic images. Although some singular cartilaginous tissue within the mandible may be remains of the decaying Meckel's cartilage, our 3-D reconstructions clearly show that the aforementioned cartilaginous islets are independent thereof, as can be derived from their separate locations within the mandibular bone. The reasons that lead to these cartilaginous formations have remained unknown so far., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2016

13. The remodeling pattern of human mandibular alveolar bone during prenatal formation from 19 to 270mm CRL.

Author

Radlanski RJ, Renz H, Tsengelsaikhan N, Schuster F, and Zimmermann CA

Subjects

Aging pathology, Crown-Rump Length, Embryonic Development physiology, Female, Gestational Age, Humans, Male, Mandible anatomy & histology, Tooth Socket anatomy & histology, Aging physiology, Bone Remodeling physiology, Mandible embryology, Mandible growth & development, Tooth Socket embryology, Tooth Socket growth & development

Abstract

The underlying mechanisms of human bone morphogenesis leading to a topologically specific shape remain unknown, despite increasing knowledge of the basic molecular aspects of bone formation and its regulation. The formation of the alveolar bone, which houses the dental primordia, and later the dental roots, may serve as a model to approach general questions of bone formation. Twenty-five heads of human embryos and fetuses (Radlanski-Collection, Berlin) ranging from 19mm to 270mm (crown-rump-length) CRL were prepared as histological serial sections. For each stage, virtual 3D-reconstructions were made in order to study the morphogenesis of the mandibular molar primordia with their surrounding bone. Special focus was given to recording the bone-remodeling pattern, as diagnosed from the histological sections. In early stages (19-31mm CRL) developing bone was characterized by appositional only. At 41, in the canine region, mm CRL bony extensions were found forming on the bottom of the trough. Besides general apposition, regions with resting surfaces were also found. At a fetal size of 53mm CRL, septa have developed and led to a compartment for canine development. Furthermore, one shared compartment for the incisor primordia and another shared compartment for the molars also developed. Moreover, the inner surfaces of the dental crypts showed resorption of bone. From this stage on, a general pattern became established such that the compartmentalizing ridges and septa between all of the dental primordia and the brims of the crypts were noted, and were due to appositional growth of bone, while the crypts enlarged on their inner surfaces by resorption. By 160mm CRL, the dental primordia were larger, and all of the bony septa had become reduced in size. The primordia for the permanent teeth became visible at 225mm CRL and shared the crypts of their corresponding deciduous primordia., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2016

14. Mouse Incisor Stem Cell Niche and Myb Transcription Factors.

Author

Svandova E, Vesela B, Smarda J, Hampl A, Radlanski RJ, and Matalova E

Subjects

Animals, Cell Differentiation, Cell Proliferation, Dental Enamel cytology, Gene Expression Regulation, Developmental, Incisor embryology, Mesoderm cytology, Mice, Cell Cycle Proteins metabolism, Incisor anatomy & histology, Proto-Oncogene Proteins c-myb metabolism, Stem Cell Niche physiology, Stem Cells cytology, Trans-Activators metabolism

Abstract

Dental hard tissues are formed particularly by odontoblasts (dentin) and ameloblasts (enamel). Whereas the reparation of dentin is often observed, enamel does not regenerate in most species. However, in mouse incisor, a population of somatic stem cells in the cervical loop is responsible for the incisor regeneration. Understanding of the specificities of these cells is therefore of an interest in basic research as well as regenerative therapies. The Myb transcription factors are involved in essential cellular processes. B-Myb is often linked to the stem cell phenotype, and c-Myb expression marks undifferentiated and proliferating cells such as the stem cells. In the presented study, temporo-spatial expression of B-Myb and c-Myb proteins was correlated with localisation of putative somatic stem cells in the mouse incisor cervical loop by immunohistochemistry. B-Myb expression was localised mostly in the zone of transit-amplifying cells, and c-Myb was found in the inner enamel epithelium, the surrounding mesenchyme and in differentiated cells. Taken together, neither B-Myb nor c-Myb was exclusively present or abundant in the area of the incisor stem cell niche. Their distribution, however, supports recently reported novel functions of c-Myb in differentiation of hard tissue cells., (© 2014 Blackwell Verlag GmbH.)

Published

2015

15. Effect of methotrexate upon antigen-induced arthritis of the rabbit temporomandibular joint.

Author

Rafayelyan S, Meyer P, Radlanski RJ, Minden K, Jost-Brinkmann PG, and Präger TM

Subjects

Animals, Arthritis, Experimental pathology, Cartilage, Articular pathology, Disease Models, Animal, Female, Inflammation pathology, Injections, Intra-Articular, Ovalbumin administration & dosage, Rabbits, Random Allocation, Temporomandibular Joint pathology, Temporomandibular Joint Disorders pathology, Antirheumatic Agents pharmacology, Arthritis, Experimental drug therapy, Methotrexate pharmacology, Temporomandibular Joint Disorders drug therapy

Abstract

Background: Juvenile idiopathic arthritis (JIA) of the temporomandibular joint (TMJ) can cause severe growth disturbances of the craniomandibular system. Antigen-induced arthritis (AIA) of the rabbit TMJ is simulating the inflammatory process of the TMJ in JIA. The aim of this study was to investigate the effect of a systemic administration of methotrexate (MTX) on AIA in rabbits by means of three different histological staining methods., Methods: After sensitization, a bilateral arthritis of the TMJ was induced by an intra-articular administration of ovalbumin in 12 New Zealand white rabbits aged 10 weeks. From the 13th week of age, six of the 12 rabbits received weekly intramuscular injections of MTX, and the other six animals remained without therapy. Another six animals served as controls, receiving no treatment or intra-articular injections at all. After euthanasia at the age of 22 weeks, all TMJs were retrieved en bloc. Sagittal sections were cut and stained with haematoxylin-eosin (H-E), Safranin-O for the evaluation of the Mankin score and tartrate-resistant acid phosphatase (TRAP)., Results: In the arthritis group, a chronic inflammation with degeneration of the articular cartilage was visible. In the MTX group, the signs of cartilage degeneration were significantly reduced compared with the arthritis group. In contrast, the joints in the control group were inconspicuous. A correlation between the Mankin score and TRAP-positive cells could be found., Conclusions: Systemic administration of MTX seems to have a positive effect upon the inflammatory process in the rabbit TMJ but fails to eliminate the sign of arthritis completely., (© 2014 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2015

16. Morphogenesis of the compartmentalizing bone around the molar primordia in the mouse mandible during dental developmental stages between lamina, bell-stage, and root formation (E13-P20).

Author

Radlanski RJ, Renz H, Zimmermann CA, Mey R, and Matalova E

Subjects

Aging physiology, Animals, Bone Development, Bone Remodeling, Bone Resorption pathology, Dental Occlusion, Image Processing, Computer-Assisted, Mandible growth & development, Mice, Mice, Inbred C57BL, Molar growth & development, Tooth Eruption, Tooth Root growth & development, Bone and Bones anatomy & histology, Mandible anatomy & histology, Molar anatomy & histology, Morphogenesis physiology, Tooth Root anatomy & histology

Abstract

Despite increasing knowledge of the basic molecular aspects of bone formation and its regulation, the mechanisms of bone morphogenesis leading to a topologically specific shape remain unknown. The formation of the alveolar bone, which houses the dental primordia and later, the dental roots, may serve as a model to understand the formation of bone form in general. Thirty-eight heads of mice (C57 Bl/6J) ranging from stages E13-P20 were used to prepare histological serial sections. For each stage, virtual 3D-reconstructions were made in order to study the morphogenesis of the mandibular molar primordia concomitantly with their surrounding bone. Special focus was given to recording the remodeling pattern. It has been shown that, in early stages (E13, E14), bone formation is characterized by apposition only. In stage E15, the bony crypt around the dental primordia is remodeled mostly by resorption of bone. In stage E18, the bone remodeling pattern shows resorption all along the bony gutter, which houses the molar primordia. The medial and lateral margins are characterized by apposition. At birth (stage P0), a bony septum has begun to form between the primordium m1 and of m2, arising from both sides and characterized by pure apposition of bone. In stage P4, the crypts of m1 and m2, and also that of m3, show bone resorption inside, while the medial and lateral bony margins show apposition of bone throughout. Generally, during development, the bone gradually encapsulates the dental primordia, in such a way that the bone reaches over the dental primordia and leaves only a continuous longish opening of about 200μm width. The opening at the occlusal surface of m1, at the time of eruption, starting at stage P14, appears to have increased in size again. The distance between bone and dental primordium undergoes change during development. In erupted molars, it is around 100μm, during early developmental stages, it may be as less as 20μm. These data show the inevitability of bone remodeling., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2015

17. Osteogenic Profile of Mesenchymal Cell Populations Contributing to Alveolar Bone Formation.

Author

Minaříková M, Oralová V, Veselá B, Radlanski RJ, and Matalová E

Subjects

Animals, Collagen metabolism, Gene Expression Regulation, Developmental, Mice, Tooth cytology, Tooth embryology, Tooth Germ embryology, Tooth Germ metabolism, Bone Development physiology, Mesenchymal Stem Cells cytology, Osteogenesis physiology, Periodontal Ligament metabolism, Tooth metabolism

Abstract

Teeth develop within the surrounding periodontal tissues, involving the alveolar bone, periodontal ligament and cementum. The alveolar bone originates through the process of intramembranous ossification involving mesenchymal cells from the tooth germ. As most available data are related to endochondral ossification, we examined the molecular background of alveolar bone development. We investigated the osteogenic profile of mesenchymal cells dissected from mouse mandible slices at the stage of early alveolar bone formation. Relative monitoring of gene expression was undertaken using PCR Arrays; this included the profiles of 84 genes associated with osteogenesis. To examine the tooth-bone interface, stages with detectable changes in bone remodelling during development (E13.0, E14.0 and E15.0) were chosen and compared with each other. These results showed a statistically significant increase in the expression of the genes Fgf3, Ctsk, Icam-1, Mmp9, Itga3 and Tuft1, and of a wide range of collagens (Col1a2, Col3a1, Col7a1, Col12a1, Col14a1). Decreased expression was detected in the case of Col2a1, Sox9, Smad2 and Vegfb. To confirm these changes in gene expression, immunofluorescence analyses of Mmp9 and Sox9 proteins were performed in situ. Our research has identified several candidate genes that may be crucial for the initiation of alveolar bone formation and is the basis for further functional studies., (© 2015 S. Karger AG, Basel.)

Published

2015

18. Histomorphometry in antigen-induced arthritis of the rabbit temporomandibular joint.

Author

Rafayelyan S, Radlanski RJ, Minden K, Pischon N, Jost-Brinkmann PG, and Präger TM

Subjects

Acid Phosphatase analysis, Animals, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Arthritis, Experimental pathology, Arthritis, Juvenile pathology, Biomarkers analysis, Cartilage, Articular pathology, Coloring Agents, Disease Models, Animal, Etanercept administration & dosage, Female, Freund's Adjuvant administration & dosage, Injections, Intra-Articular, Injections, Subcutaneous, Isoenzymes analysis, Mandibular Condyle pathology, Osteoclasts pathology, Ovalbumin administration & dosage, Phenazines, Rabbits, Random Allocation, Tartrate-Resistant Acid Phosphatase, Temporomandibular Joint Disorders pathology, Time Factors, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Arthritis, Experimental drug therapy, Arthritis, Juvenile drug therapy, Etanercept therapeutic use, Temporomandibular Joint Disorders drug therapy

Abstract

Background: Juvenile idiopathic arthritis (JIA) of the temporomandibular joint (TMJ) can cause severe growth disturbances of the craniomandibular system. Antigen-induced arthritis (AIA) of the rabbit TMJ is simulating the inflammatory process of the TMJ in JIA. The aim of this study was to investigate the effect of a systemic administration of the tumor necrosis factor-alpha (TNF-α) antagonist etanercept on AIA in rabbits by means of three different histological staining methods., Methods: After sensitization, a bilateral arthritis of the TMJ was induced and maintained by repeated intra-articular administrations of ovalbumin in 12 New Zealand white rabbits aged 10 weeks. From the 13th week of age, 6 of the 12 rabbits received weekly subcutaneous injections of etanercept, and the other 6 animals remained without therapy. Another 6 animals served as controls, receiving no treatment or intra-articular injections at all. After euthanasia at the age of 22 weeks, all TMJs were retrieved en bloc. Sagittal sections were cut and stained with hematoxylin-eosin (H-E), Safranin-O for the evaluation of the Mankin score, and tartrate-resistant acid phosphatase (TRAP)., Results: In the arthritis group, a chronic inflammation with degeneration of the articular cartilage was visible. In the etanercept group, the signs of cartilage degeneration were significantly reduced but present. In contrast, the joints in the control group were inconspicuous. A strong correlation between the Mankin score and TRAP-positive cells could be found., Conclusions: Antigen-induced arthritis causes severe damage in the TMJ of young rabbits. An improvement seems to be achievable by a systemic administration of etanercept., (© 2014 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2015

19. Distribution of BMP6 in the alveolar bone during mouse mandibular molar eruption.

Author

Oralová V, Chlastáková I, Radlanski RJ, and Matalová E

Subjects

Animals, Bone Remodeling genetics, Diazonium Compounds, Immunohistochemistry, In Situ Nick-End Labeling, Methyl Green, Mice, Osteoblasts metabolism, Osteocalcin metabolism, Periodontal Ligament metabolism, Alveolar Process physiology, Bone Morphogenetic Protein 6 metabolism, Bone Remodeling physiology, Gene Expression Regulation, Developmental physiology, Molar physiology, Tooth Eruption physiology

Abstract

Eruption requires synchrony of the tooth with the surrounding tissues, particularly the bone. One important step during eruption is remodelling of the alveolar bone at the base of the tooth and along the roots. Expression of BMP6 was reported to be increased in the basal half of the dental follicle prior to eruption and inhibition of BMP6 affected bone formation at the base of the alveolar crypt. The aim of this study was to further investigate BMP6 protein in relation to tooth eruption and the corresponding bone remodelling using temporospatial correlations of BMP6 localization with morphogenetic events (proliferation, differentiation, apoptosis and bone apposition/resorption), other BMPs (BMP2 and BMP7) and three-dimensional images of tooth-bone development. BMP6 expression pattern was mapped in the mandibular molar teeth and related structures around eruption. Localization of BMP6 dominated in osteoblasts, in regions of bone formation within the alveolar crypt. These findings positively correlated with proliferation at the tooth base region, osteocalcin expression in the osteoblasts/osteocytes and BMP2 and BMP7 presence in the alveolar bone surrounding the tooth. Osteoclast activity and apoptotic elimination in the root region gradually decreased before eruption and totally ceased at eruption stages. Generally, BMP6 positively correlated with BMP2, BMP7 and osteocalcin-positive osteoblasts, and areas of bone remodelling. Moreover, BMP6 was found in the periodontium and cementoblasts. BMP6 expression in the alveolar bone accompanied tooth eruption. Notably, the expression pattern of BMP6 in the bone did not differ around individual molar teeth at the same stage of development. The expression of BMP6 in periodontal ligaments may contribute to interaction between the tooth and bone during the eruption and anchoring process.

Published

2014

20. Fluorosed mouse ameloblasts have increased SATB1 retention and Gαq activity.

Author

Zhang Y, Kim JY, Horst O, Nakano Y, Zhu L, Radlanski RJ, Ho S, and Den Besten PK

Subjects

Ameloblasts pathology, Amelogenesis genetics, Animals, Caspase 6 genetics, Caspase 6 metabolism, Dental Enamel metabolism, Dental Enamel pathology, Diglycerides metabolism, Female, Fluorosis, Dental metabolism, Fluorosis, Dental pathology, GTP-Binding Protein alpha Subunits, Gq-G11 metabolism, Gene Expression Profiling, Gene Expression Regulation, Humans, Incisor metabolism, Incisor pathology, Male, Matrix Attachment Region Binding Proteins metabolism, Matrix Metalloproteinase 20 genetics, Matrix Metalloproteinase 20 metabolism, Mice, Oligonucleotide Array Sequence Analysis, Phosphorylation, Protein Kinase C-alpha genetics, Protein Kinase C-alpha metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Signal Transduction, Ameloblasts metabolism, Amelogenesis drug effects, Fluorosis, Dental genetics, GTP-Binding Protein alpha Subunits, Gq-G11 genetics, Matrix Attachment Region Binding Proteins genetics, Sodium Fluoride pharmacology

Abstract

Dental fluorosis is characterized by subsurface hypomineralization and increased porosity of enamel, associated with a delay in the removal of enamel matrix proteins. To investigate the effects of fluoride on ameloblasts, A/J mice were given 50 ppm sodium fluoride in drinking water for four weeks, resulting serum fluoride levels of 4.5 µM, a four-fold increase over control mice with no fluoride added to drinking water. MicroCT analyses showed delayed and incomplete mineralization of fluorosed incisor enamel as compared to control enamel. A microarray analysis of secretory and maturation stage ameloblasts microdissected from control and fluorosed mouse incisors showed that genes clustered with Mmp20 appeared to be less downregulated in maturation stage ameloblasts of fluorosed incisors as compared to control maturation ameloblasts. One of these Mmp20 co-regulated genes was the global chromatin organizer, special AT-rich sequence-binding protein-1 (SATB1). Immunohistochemical analysis showed increased SATB1 protein present in fluorosed ameloblasts compared to controls. In vitro, exposure of human ameloblast-lineage cells to micromolar levels of both NaF and AlF3 led to a significantly increase in SATB1 protein content, but not levels of Satb1 mRNA, suggesting a fluoride-induced mechanism protecting SABT1 from degradation. Consistent with this possibility, we used immunohistochemistry and Western blot to show that fluoride exposed ameloblasts had increased phosphorylated PKCα both in vivo and in vitro. This kinase is known to phosphorylate SATB1, and phosphorylation is known to protect SATB1 from degradation by caspase-6. In addition, production of cellular diacylglycerol (DAG) was significantly increased in fluorosed ameloblasts, suggesting that the increased phosphorylation of SATB1 may be related to an effect of fluoride to enhance Gαq activity of secretory ameloblasts.

Published

2014

21. Cephalometric assessment of human fetal head specimens.

Author

Radlanski RJ, Heikinheimo K, and Gruda A

Subjects

Facial Bones growth & development, Female, Head growth & development, Humans, Male, Cephalometry methods, Facial Bones anatomy & histology, Facial Bones embryology, Head anatomy & histology, Head embryology, Maxillofacial Development physiology

Abstract

Background: Past investigations of prenatal craniofacial growth have largely relied on histological sections. Few studies have taken measurements on three-dimensional representations (3D reconstruction, 3D CT, postmortem) or varying depth levels (ultrasound), and we know of no craniofacial growth studies done on cleared-and-stained specimens of whole fetal heads., Materials and Methods: This study comprised 14 human fetal head specimens cleared and stained with alizarin red and alcian blue. They had been stored in glycerol and represented weeks 8-12 of gestation, with crown-rump lengths ranging from 23-145 mm. These specimens were cephalometrically analyzed in norma frontalis and norma lateralis, which notably included the opportunity for side-to-side comparison., Results: As the cranial membrane bones progressively approached each other, the orbits, maxilla, and mandible gradually grew wider. Likewise, the sagittal dimensions of the maxilla and mandible increased continuously and synchronically. We noted side-to-side differences ranging from 2-5 mm. Another notable finding concerned the inclination of the maxilla relative to the cranial base, which increased more on the right than on the left side., Conclusion: This is the first investigation presenting side-to-side comparative measurements of human fetal head specimens. Such measurements are essential in the quest toward validating the findings of other imaging techniques such as CT or MRI and-most importantly-intrauterine sonography.

Published

2013

22. Sexual dimorphism in teeth? Clinical relevance.

Author

Radlanski RJ, Renz H, and Hopfenmüller W

Subjects

Adolescent, Adult, Aged, Bicuspid anatomy & histology, Child, Cuspid anatomy & histology, Dental Assistants, Dental Technicians, Dentists, Female, Humans, Incisor anatomy & histology, Male, Middle Aged, Odontometry, Photography, Dental, Sex Determination by Skeleton, Students, Dental, Young Adult, Sex Characteristics, Tooth anatomy & histology

Abstract

Many morphometric studies show a sexual dimorphism in human teeth. We wanted to know whether it is possible to determine the sex of an individual if only the anterior teeth are visible. Fifty intraoral photographs showing the front tooth region of female and male individuals (age: from 7 to 75 years) were randomly arranged in actual size on a questionnaire. The lip region was covered in each case. Besides "female" and "male", one was also able to check "?" if undecided. The questionnaires were distributed to 50 expert test persons (dentists, dental technicians, dental assistants, and students of dental medicine) and to 50 laymen and were all returned for evaluation. Although the correct sex was recognized on single photographs to a maximum of 76%, it was incorrect in 69% on other photographs. Altogether, the statistical evaluation showed that in most cases, the sex was only recognized correctly by one half, and incorrect by the other half. It can be concluded that a sexual dimorphism of human teeth-although measurable morphometrically-could not be recognized visually on the basis of photographs of the front tooth region. Neither experts in the field of dentistry nor laymen were able to properly distinguish between male and female teeth.

Published

2012

23. Morphogenesis and bone integration of the mouse mandibular third molar.

Author

Chlastakova I, Lungova V, Wells K, Tucker AS, Radlanski RJ, Misek I, and Matalova E

Subjects

Acid Phosphatase analysis, Alveolar Process anatomy & histology, Alveolar Process growth & development, Animals, Apoptosis physiology, Biomarkers analysis, Bone Resorption pathology, Bone Resorption physiopathology, Cell Proliferation, Enamel Organ anatomy & histology, Enamel Organ growth & development, Fibroblast Growth Factor 4 analysis, Hedgehog Proteins analysis, Image Processing, Computer-Assisted methods, Imaging, Three-Dimensional methods, In Situ Hybridization, Isoenzymes analysis, Mandible anatomy & histology, Mice, Molar anatomy & histology, Molar growth & development, Molar, Third anatomy & histology, Osteoblasts physiology, Osteoclasts physiology, Osteogenesis physiology, Proliferating Cell Nuclear Antigen analysis, Tartrate-Resistant Acid Phosphatase, Tissue Culture Techniques, Tooth Calcification physiology, Tooth Eruption physiology, Tooth Germ anatomy & histology, Tooth Germ growth & development, Tooth Root anatomy & histology, Tooth Root growth & development, Mandible growth & development, Molar, Third growth & development, Morphogenesis physiology, Odontogenesis physiology

Abstract

The mouse third molar (M3) develops postnatally and is thus a unique model for studying the integration of a non-mineralized tooth with mineralized bone. This study assessed the morphogenesis of the mouse M3, related to the alveolar bone, comparing M3 development with that of the first molar (M1), the most common model in odontogenesis. The mandibular M3 was evaluated from initiation to eruption by morphology and by assessing patterns of proliferation, apoptosis, osteoclast distribution, and gene expression. Three-dimensional reconstruction and explant cultures were also used. Initiation of M3 occurred perinatally, as an extension of the second molar (M2) which grew into a region of soft mesenchymal tissue above the M2, still far away from the alveolar bone. The bone-free M3 bud gradually became encapsulated by bone at the cap stage at postnatal day 3. Osteoclasts were first visible at postnatal day 4 when the M3 came into close contact with the bone. The number of osteoclasts increased from postnatal day 8 to postnatal day 12 to form a space for the growing tooth. The M3 had erupted by postnatal day 26. The M3, although smaller than the M1, passed through the same developmental stages over a similar time span but showed differences in initiation and in the timing of bone encapsulation., (© 2011 Eur J Oral Sci.)

Published

2011

24. Tooth-bone morphogenesis during postnatal stages of mouse first molar development.

Author

Lungová V, Radlanski RJ, Tucker AS, Renz H, Míšek I, and Matalová E

Subjects

Animals, Apoptosis physiology, Cell Proliferation, Immunohistochemistry, Mice, Osteoclasts metabolism, Proliferating Cell Nuclear Antigen metabolism, Molar growth & development, Odontogenesis

Abstract

The first mouse molar (M1) is the most common model for odontogenesis, with research particularly focused on prenatal development. However, the functional dentition forms postnatally, when the histogenesis and morphogenesis of the tooth is completed, the roots form and the tooth physically anchors into the jaw. In this work, M1 was studied from birth to eruption, assessing morphogenesis, proliferation and apoptosis, and correlating these with remodeling of the surrounding bony tissue. The M1 completed crown formation between postnatal (P) days 0-2, and the development of the tooth root was initiated at P4. From P2 until P12, cell proliferation in the dental epithelium reduced and shifted downward to the apical region of the forming root. In contrast, proliferation was maintained or increased in the mesenchymal cells of the dental follicle. At later stages, before tooth eruption (P20), cell proliferation suddenly ceased. This withdrawal from the cell cycle correlated with tooth mineralization and mesenchymal differentiation. Apoptosis was observed during all stages of M1 postnatal morphogenesis, playing a role in the removal of cells such as osteoblasts in the mandibular region and working together with osteoclasts to remodel the bone around the developing tooth. At more advanced developmental stages, apoptotic cells and bodies accumulated in the cell layers above the tooth cusps, in the path of eruption. Three-dimensional reconstruction of the developing postnatal tooth and bone indicates that the alveolar crypts form by resorption underneath the primordia, whereas the ridges form by active bone growth between the teeth and roots to form a functional complex., (© 2011 The Authors. Journal of Anatomy © 2011 Anatomical Society of Great Britain and Ireland.)

Published

2011

25. Interdental spacing and orthodontic treatment in competitive athletes: clues to doping with growth hormones?

Author

Türp JC, Lünsch H, and Radlanski RJ

Subjects

Adult, Female, Humans, Male, Malocclusion therapy, Risk Factors, Doping in Sports, Growth Hormone adverse effects, Illicit Drugs adverse effects, Malocclusion chemically induced, Orthodontic Space Closure, Sports, Substance-Related Disorders complications, Tooth Movement Techniques

Abstract

Unlabelled: The aim of this report is to examine clues of a suspected link between the artificial ingestion of human growth hormone (rh- GH) and resulting interdental spaces in adult athletes. We conducted an electronic search in the German-language versions of the search engines Google and Google Scholar as well as in the database PubMed. While no explicit articles could be identified in PubMed, the search in Google and Google Scholar produced 1370 and 6 hits, respectively. Original quotes from 20 sources show that in the media the wearing of orthodontic multibracket appliances among athletes is largely attributed to changes in tooth position as a consequence of the illegal ingestion of rhGH. On the other hand, there are few references to the possibility that orthodontic treatments with fixed appliances might be carried out for reasons unrelated to doping., Conclusion: A definitive assessment of this issue is not possible at present. In view of its major importance of the subject, the relationships depicted here should be investigated in greater depth.

Published

2010

26. An atlas of prenatal development of the human orofacial region.

Author

Radlanski RJ and Renz H

Subjects

Embryonic Development, Fetal Development, Gestational Age, Humans, Image Processing, Computer-Assisted methods, Imaging, Three-Dimensional methods, Osteogenesis physiology, User-Computer Interface, Anatomy, Artistic, Atlases as Topic, Face embryology, Facial Bones embryology, Mouth embryology, Skull embryology

Abstract

There are several atlases available showing prenatal human development. However, none is focused on prenatal orofacial development during maxillary and mandibular bone formation. These events, together with dental development and formation of the temporomandibular joint, take place during several fetal stages. While photographic atlases are limited to depicting the outer shape, and atlases based on histological sections only show a series of single sections, an atlas based on three-dimensional reconstructions from serial sections can show both the outer skin and the structures underneath, which can be electronically dissected layer by layer. In this Focus article, we present our atlas on prenatal human orofacial development, which is accessible online at the Journal's website., ((c) 2010 The Authors. Journal compilation (c) 2010 Eur J Oral Sci.)

Published

2010

27. Ameloblast differentiation in the human developing tooth: effects of extracellular matrices.

Author

He P, Zhang Y, Kim SO, Radlanski RJ, Butcher K, Schneider RA, and DenBesten PK

Subjects

Ameloblasts physiology, Amelogenin genetics, Basement Membrane ultrastructure, Blotting, Western, Cell Adhesion physiology, Cell Differentiation physiology, Collagen Type I genetics, Fetus, Histocytochemistry, Humans, In Situ Hybridization, Incisor ultrastructure, Microscopy, Phase-Contrast, RNA, Messenger chemistry, RNA, Messenger genetics, Reverse Transcriptase Polymerase Chain Reaction, Amelogenin physiology, Basement Membrane physiology, Collagen Type I physiology, Incisor physiology, Signal Transduction physiology, Up-Regulation physiology

Abstract

Tooth enamel is formed by epithelially-derived cells called ameloblasts, while the pulp dentin complex is formed by the dental mesenchyme. These tissues differentiate with reciprocal signaling interactions to form a mature tooth. In this study we have characterized ameloblast differentiation in human developing incisors, and have further investigated the role of extracellular matrix proteins on ameloblast differentiation. Histological and immunohistochemical analyses showed that in the human tooth, the basement membrane separating the early developing dental epithelium and mesenchyme was lost shortly before dentin deposition was initiated, prior to enamel matrix secretion. Presecretary ameloblasts elongated as they came into contact with the dentin matrix, and then shortened to become secretory ameloblasts. In situ hybridization showed that the presecretory stage of odontoblasts started to express type I collagen mRNA, and also briefly expressed amelogenin mRNA. This was followed by upregulation of amelogenin mRNA expression in secretory ameloblasts. In vitro, amelogenin expression was upregulated in ameloblast lineage cells cultured in Matrigel, and was further up-regulated when these cells/Matrigel were co-cultured with dental pulp cells. Co-culture also up-regulated type I collagen expression by the dental pulp cells. Type I collagen coated culture dishes promoted a more elongated ameloblast lineage cell morphology and enhanced cell adhesion via integrin alpha2beta1. Taken together, these results suggest that the basement membrane proteins and signals from underlying mesenchymal cells coordinate to initiate differentiation of preameloblasts and regulate type I collagen expression by odontoblasts. Type I collagen in the dentin matrix then anchors the presecretary ameloblasts as they further differentiate to secretory cells. These studies show the critical roles of the extracellular matrix proteins in ameloblast differentiation., (Copyright (c) 2010 Elsevier B.V. All rights reserved.)

Published

2010

28. Formation of the tooth-bone interface.

Author

Fleischmannova J, Matalova E, Sharpe PT, Misek I, and Radlanski RJ

Subjects

Animals, Dental Cementum physiology, Genes, Homeobox, Humans, Osteoblasts physiology, Periodontal Ligament embryology, Signal Transduction, Tooth Crown embryology, Tooth Eruption, Tooth Root embryology, Alveolar Process embryology, Odontogenesis genetics, Osteogenesis genetics, Tooth Germ embryology

Abstract

Not only are teeth essential for mastication, but also missing teeth are considered a social handicap due to speech and aesthetic problems, with a resulting high impact on emotional well-being. Several treatment procedures are currently available for tooth replacement with mostly inert prosthetic materials and implants. Natural tooth substitution based on copying the developmental process of tooth formation is particularly challenging and creates a rapidly developing area of molecular dentistry. In any approach, functional interactions among the tooth, the surrounding bone, and the periodontium must be established. Therefore, recent research in craniofacial genetics searches for mechanisms responsible for correct cell and tissue interactions, not only within a specific structure, but also in the context of supporting structures. A tooth crown that is not functionally anchored to roots and bone is useless. This review aims to summarize the developmental and tissue homeostatic aspects of the tooth-bone interface, from the initial patterning toward tooth eruption and lifelong interactions between the tooth and its surrounding alveolar bone.

Published

2010

29. [Genes, forces and forms: mechanical aspects of prenatal craniofacial development].

Author

Radlanski RJ and Renz H

Subjects

Facial Muscles embryology, Humans, Signal Transduction, Stress, Mechanical, Embryonic Induction, Genes, Developmental, Maxillofacial Development, Skull embryology

Abstract

Current knowledge of molecular signaling during craniofacial development is advancing rapidly. We know that cells can respond to mechanical stimuli by biochemical signaling. Thus, the link between mechanical stimuli and gene expression has become a new and important area of the morphological sciences. This field of research seems to be a revival of the old approach of developmental mechanics, which goes back to the embryologists His [36], Carey [13, 14], and Blechschmidt [5]. These researchers argued that forces play a fundamental role in tissue differentiation and morphogenesis. They understood morphogenesis as a closed system with living cells as the active part and biological, chemical, and physical laws as the rules. This review reports on linking mechanical aspects of developmental biology with the contemporary knowledge of tissue differentiation. We focus on the formation of cartilage (in relation to pressure), bone (in relation to shearing forces), and muscles (in relation to dilation forces). The cascade of molecules may be triggered by forces, which arise during physical cell and tissue interaction. Detailed morphological knowledge is mandatory to elucidate the exact location and timing of the regions where forces are exerted. Because this finding also holds true for the exact timing and location of signals, more 3D images of the developmental processes are required. Further research is also required to create methods for measuring forces within a tissue. The molecules whose presence and indispensability we are investigating appear to be mediators rather than creators of form.

Published

2007

30. Anodic cell-protein deposition on inverse inkjet printed micro structured gold surfaces.

Author

Zehbe R, Gross U, Knabe C, Radlanski RJ, and Schubert H

Subjects

Animals, Cell Line, Electrodes, Humans, Mice, Fibrin biosynthesis, Fibrin chemistry, Fibrinogen chemistry, Fibrinogen metabolism, Fibroblasts, Gold, Keratinocytes

Abstract

The transformation of fibrinogen into fibrin is biologically activated in a complex multi-step process known as the coagulation cascade. This transformation can also be triggered by anodic surfaces. It has been suggested that this mechanism is a result of an electron transfer from the anode to the fibrinogen molecule resulting in the formation of fibrin. In this study we used this pathway to simultaneously deposit vital cells (fibroblasts and keratinocytes) and fibrin on micro structured gold electrodes. The electrodes were produced using a novel inverse inkjet-printing technology in combination with subsequent gold-sputtering, resulting in minimal structure-sizes of 35 microm (+/-6 microm). Cell deposition and fibrin-coagulation were found to occur on the anode only, following exactly the micro structured electrode surface. Successful deposition was limited by the minimal voltage (0.8 V) needed for the formation of fibrin and the maximum voltage (1.85 V) resulting in the deterioration of the Au-electrodes due to electrolysis and possible damaging of the deposited cells due to the formation of molecular chlorine. Furthermore, it was demonstrated that this technique is suitable to co-cultivate different cell types in a layered fashion. Subsequent to the electrically mediated anodic cell-protein deposition, cells were cultivated for up to 4 days and then characterized by vital fluorescence staining, methyl violet-staining and scanning electron microscopy. Cell-vitality was found to be dependent on the experimental setup; in this study non-vital cells were only observed, when sequentially depositing two different cell types. Finally, the coagulation mechanism was studied using HPLC, SDS-gel-chromatography and ATR/FTIR.

Published

2007

31. Insular dentin formation pattern in human odontogenesis in relation to the scalloped dentino-enamel junction.

Author

Radlanski RJ and Renz H

Subjects

Dental Enamel ultrastructure, Dentin ultrastructure, Humans, Incisor embryology, Incisor ultrastructure, Microscopy, Electron, Scanning, Molar ultrastructure, Morphogenesis, Tooth, Deciduous embryology, Dental Enamel embryology, Dentin embryology, Odontogenesis physiology, Tooth, Deciduous ultrastructure

Abstract

This study is a first report on the modality of early dentin formation in respect to the scalloped pattern of the dentino-enamel junction (DEJ). We applied scanning electron microscopy (SEM), transmission electron microscopy (TEM), histological serial sections, and three-dimensional (3D) reconstructions. TEM and SEM showed scallops and secondary scallops on the DEJ of deciduous dental primordia and on deciduous teeth with the enamel cap removed. This peculiar outline of the DEJ requires a specific dentin formation pattern; histological sections showed that dentin formation began at the brims of the scallops, seen as triangular spikes in serial sections. The dentin formation front was not uniform; instead, it was characterized by multiple, insular forming centers, as revealed by our 3D reconstructions. As thicker dentin layers formed, the islands became confluent. Factors are discussed, which may lead to crimpling of the inner enamel epithelium, and maintained as the scalloped pattern of the DEJ develops. Signaling patterns in accordance with the insular dentin formation are unknown so far.

Published

2007

32. Genes, forces, and forms: mechanical aspects of prenatal craniofacial development.

Author

Radlanski RJ and Renz H

Subjects

Animals, Biomechanical Phenomena, Face embryology, Head embryology, Humans, Maxillofacial Development genetics, Signal Transduction genetics, Skull embryology

Abstract

Current knowledge of molecular signaling during craniofacial development is advancing rapidly. We know that cells can respond to mechanical stimuli by biochemical signaling. Thus, the link between mechanical stimuli and gene expression has become a new and important area of the morphological sciences. This field of research seems to be a revival of the old approach of developmental mechanics, which goes back to the embryologists His (1874), Carey (1920), and Blechschmidt (1948). These researchers argued that forces play a fundamental role in tissue differentiation and morphogenesis. They understood morphogenesis as a closed system with living cells as the active part and biological, chemical, and physical laws as the rules. This review reports on linking mechanical aspects of developmental biology with the contemporary knowledge of tissue differentiation. We focus on the formation of cartilage (in relation to pressure), bone (in relation to shearing forces), and muscles (in relation to dilation forces). The cascade of molecules may be triggered by forces, which arise during physical cell and tissue interaction. Detailed morphological knowledge is mandatory to elucidate the exact location and timing of the regions where forces are exerted. Because this finding also holds true for the exact timing and location of signals, more 3D images of the developmental processes are required. Further research is also required to create methods for measuring forces within a tissue. The molecules whose presence and indispensability we are investigating appear to be mediators rather than creators of form., ((c) 2006 Wiley-Liss, Inc.)

Published

2006

33. Developmental movements of the inner enamel epithelium as derived from micromorphological features.

Author

Radlanski RJ and Renz H

Subjects

Acid Etching, Dental, Ameloblasts physiology, Ameloblasts ultrastructure, Amelogenesis physiology, Cell Division physiology, Crystallization, Dentin ultrastructure, Epithelium ultrastructure, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Tooth Germ ultrastructure, Tooth, Deciduous ultrastructure, Dental Enamel ultrastructure

Abstract

It was the purpose of this article to analyze the (micro) morphological structure of enamel at different stages of development in order to deduce movement patterns of ameloblasts during formation of the human dental primordium. Developing enamel and overlying ameloblasts were dried and fractured for scanning electron microscopy (SEM) and sectioned for transmission electron microscopy (TEM). Specimens of human permanent enamel were either fractured and/or ground and etched to visualize the enamel rods. All specimens were viewed by SEM. Moreover, three-dimensional reconstructions were made from serial ground sections of enamel blocks to follow the enamel rods for a longer distance. In addition, the outline of the dentino-enamel junction was analyzed under the SEM after removal (using nitric acid) of the enamel cap, and in serial histological sections. Two basic movements of the inner enamel epithelium can be derived from the micromorphological features: (i) the scalloped dentino-enamel junction may be a consequence of a bulged inner enamel epithelium owing to initial spatial impediment; and (ii) the undulating path of the enamel rods may be a consequence of unequal growth of the cells in the cervical loop.

Published

2006

34. Incremental lines in root cementum of human teeth--a reliable age marker?

Author

Renz H and Radlanski RJ

Subjects

Adult, Aged, Aged, 80 and over, Bicuspid ultrastructure, Female, Humans, Middle Aged, Reproducibility of Results, Age Determination by Teeth methods, Tooth Root growth & development, Tooth Root ultrastructure

Abstract

In root cementum of teeth, alternating dark and light lines become visible in cross-sections under the light microscope. These lines bear an apparent resemblance to the annual rings of trees. Numerous studies have been done to correlate the number of cementum lines with the dental age by examining a great number of teeth of known age. Our study used a different approach. If lines in root cementum develop in an annual rhythm and are thus comparable to annual rings of trees, the same or at least a very similar number of these structures should be found in all areas of the root cementum of the same tooth. We counted cementum lines in the buccal, lingual, distal and mesial region of different sections, all from the middle third of the same root. This was repeated in eight teeth. To our surprise, we had immense difficulty in counting reproducible line numbers in the same cementum area at repeated counts. Nevertheless, the same tooth was found to differ markedly in the number of lines in different sections as well as in different regions of the same sections. These differences cannot be ascribed to variations caused by difficulties with reproducible line counting. Therefore, we are more than skeptical about the reliability of counting lines in root cementum as a method for determining the age of human teeth.

Published

2006

35. The effect of surface chemistry modification of titanium alloy on signalling pathways in human osteoblasts.

Author

Zreiqat H, Valenzuela SM, Nissan BB, Roest R, Knabe C, Radlanski RJ, Renz H, and Evans PJ

Subjects

Apatites chemistry, Biocompatible Materials chemistry, Blotting, Western, Bone and Bones cytology, Bone and Bones metabolism, Carbonates chemistry, Cell Adhesion, Cells, Cultured, Extracellular Signal-Regulated MAP Kinases metabolism, Humans, Hydroxyapatites chemistry, Integrins chemistry, Integrins metabolism, Ions, MAP Kinase Signaling System, Magnesium chemistry, Microscopy, Electron, Scanning, Osseointegration, Osteoblasts metabolism, Phase Transition, Phosphorylation, Proto-Oncogene Proteins c-fos chemistry, Proto-Oncogene Proteins c-fos metabolism, Surface Properties, Time Factors, Up-Regulation, Zinc chemistry, Alloys chemistry, Osteoblasts cytology, Signal Transduction, Titanium chemistry

Abstract

Establishing and maintaining mature bone at the bone-device interface is critical to the long-term success of prosthesis. Poor cell adhesion to orthopaedic and dental implants results in implant failure. Considerable effort has been devoted to alter the surface characteristics of these biomaterials in order to improve the initial interlocking of the device and skeleton. We investigated the effect of surface chemistry modification of titanium alloy (Ti-6Al-4V) with zinc, magnesium or alkoxide-derived hydroxy carbonate apatite (CHAP) on the regulation of key intracellular signalling proteins in human bone-derived cells (HBDC) cultured on these modified Ti-6Al-4V surfaces. Western blotting demonstrated that modifying Ti-6Al-4V with CHAP or Mg results in modulation of key intracellular signalling proteins. We showed an enhanced activation of Shc, a common point of integration between integrins and the Ras/Mapkinase pathway. Mapkinase pathway was also upregulated, suggesting its role in mediating osteoblastic cell interactions with biomaterials. The signalling pathway involving c-fos (member of the activated protein-1) was also shown to be upregulated in osteoblasts cultured on the Mg and CHAP modified Ti-6Al-4V. Thus surface modification with CHAP or Mg may contribute to successful osteoblast function and differentiation at the skeletal tissue-device interface.

Published

2005

36. Growth factor expression following clinical mandibular distraction osteogenesis in humans and its comparison with existing animal studies.

Author

Knabe C, Nicklin S, Yu Y, Walsh WR, Radlanski RJ, Marks C, and Hoffmeister B

Subjects

Adolescent, Adult, Animals, Bone Morphogenetic Protein 2, Bone Morphogenetic Protein 4, Bone Morphogenetic Protein 7, Bone Morphogenetic Proteins analysis, Collagen Type IV analysis, Extracellular Matrix chemistry, Female, Fibroblast Growth Factor 2 analysis, Humans, Male, Mandible pathology, Matrix Metalloproteinase 1 analysis, Matrix Metalloproteinase 3 analysis, Middle Aged, Models, Animal, Platelet Endothelial Cell Adhesion Molecule-1 analysis, Platelet-Derived Growth Factor analysis, Sheep, Transforming Growth Factor beta analysis, Vascular Endothelial Growth Factor A analysis, Growth Substances analysis, Mandible surgery, Osteogenesis, Distraction

Abstract

Aim: Lengthening the mandible by distraction osteogenesis (DO) is nowadays a well recognized technique in maxillofacial surgery. In this study growth factor expression profiles were examined in biopsies taken from six patients undergoing mandibular DO and compared with findings from a sheep model for mandibular DO., Study Design: In all patients (and sheep), the ascending ramus was distracted 10-15 mm at a rate of 1mm/day using an intraoral device. Biopsies were taken from the centre of the distraction zone 21 days after completion of distraction. Using standard immunohistochemical techniques, samples were stained for platelet-derived growth factor (PDGF), transforming growth factor beta (TGF-beta), basic fibroblast growth factor (bFGF) and bone morphogenetic proteins-2, -4 and -7 (BMP-2, -4, -7), matrix metalloproteinases-1 and -3 (MMP-1, -3), the vascular endothelial growth factor (VEGF), a marker for endothelial cells (CD-31) and type IV collagen (Col IV)., Results: Positive staining for PDGF, bFGF, TGF-beta, BMP-2, -4, and -7 was noted in cells and matrix components. There was intense staining for MMP-1. Strong staining for CD-31 and COL IV was observed adjacent to vessels. VEGF staining was less specific. Similar findings were noted in the sheep model., Conclusion: Growth factor expression in the human distraction site is similar to that in the sheep model.

Published

2005

37. Explainable and critical periods during human dental morphogenesis and their control.

Author

Radlanski RJ and Renz H

Subjects

Computer Graphics, Dental Arch ultrastructure, Enamel Organ ultrastructure, Humans, Imaging, Three-Dimensional, Incisor embryology, Microscopy, Electron, Scanning, Molar embryology, Odontogenesis physiology

Abstract

Objective: To what extent is the current knowledge about regulatory and patterning processes gained from research on animal models (predominantly mouse) applicable to describe certain aspect of human prenatal dental development?, Methods: 3D-reconstructions were produced from serial sections of human dental primordia (Radlanski collection, Berlin) and scanning electron microscopic visualisation techniques were applied., Results and Conclusion: There are several examples, where present knowledge of regulatory processes allows the understanding of changes in outline and form. However, many other examples show that much more complex regulatory mechanisms should be expected to explain the details of human prenatal dental development.

Published

2005

38. Development of multinuclear giant cells during the degradation of Bioglass particles in rabbits.

Author

Vogel M, Voigt C, Knabe C, Radlanski RJ, Gross UM, and Müller-Mai CM

Subjects

Animals, Biocompatible Materials chemistry, Ceramics chemistry, Female, Femur cytology, Femur metabolism, Femur pathology, Giant Cells cytology, Knee Joint surgery, Materials Testing, Microscopy, Electron, Prostheses and Implants, Rabbits, Biocompatible Materials metabolism, Bone Regeneration physiology, Ceramics metabolism, Giant Cells metabolism

Abstract

Bioglass particles of the compositions 45s5, 52s, and 55s were implanted in the distal femoral epiphysis of rabbits. Animals were sacrificed at 7, 28, and 84 days postoperatively and specimens investigated using electron microscopy and electron dispersive X-ray analysis. The intention was to correlate the finding of different types of multinuclear giant cells (MNGC) in the center of the implantation bed with earlier hypothesized accumulated particle eluates and changed particle compositions. The distribution of Si, Na, Ca, P, O, S, and Cl throughout the implantation bed was analyzed. Bioglass particles degraded either in Si-rich remnants or in CaP-shells. MNGC of foreign body giant cell type in high numbers as well as of osteoclast-like type at later time intervals in small numbers were found on the surface of Si-rich as well as on Ca- and P-rich particle remnants. Osteoclast-like cells were detected on the particles after transformation in CaP-shells. It is concluded that the formation of different types of MNGC is determined by the composition of the substrate, that is, osteoclast-like cells develop exclusively on resorbable substrates. The absolute number of MNGC depended on the time after implantation and the solubility of the implant. Bone bonding, however, only occurred on Ca- and P-rich surfaces., (Copyright 2004 Wiley Periodicals, Inc.)

Published

2004

39. Bone remodeling during prenatal morphogenesis of the human mental foramen.

Author

Radlanski RJ, Renz H, Lajvardi S, and Schneider RA

Subjects

Chin embryology, Crown-Rump Length, Embryonic and Fetal Development, Humans, Imaging, Three-Dimensional, Mandibular Nerve embryology, Morphogenesis, Tooth Germ embryology, Bone Remodeling, Mandible embryology

Abstract

From a morphogenetic point of view, the mental foramen of the mandible is a highly suitable model to study the interactions of different tissues such as nerves, vessels, mesenchymal cells, cartilage, and bone. In previous work, we provided a three-dimensional description of the mental foramen at different developmental stages, and now we complement those studies with a three-dimensional visualization of different bone remodeling activities around the mental foramen. Histological serial sections of human embryos and fetuses, ranging in size from 25 to 117 mm crown-rump-length (CRL), were used to characterize the bone remodeling activity (apposition, inactivity, and resorption). We quantified and reconstructed this activity in three dimensions, and included information on the spatial relationship of the nerves, vessels, and dental primordia. In general, the mandible showed strong apposition at its outer surfaces. The brim of the mental foramen, however, displayed changing remodeling activity at different stages. In the depth of the bony gutter, which provides space for the nerve and the blood vessels, we found bone resorption beneath the inferior alveolar vein. Bone was also resorbed in proximity to the dental primordia. In future studies, we will relate gene expression data to these morphological findings in order to identify molecular mechanisms that regulate this complex system.

Published

2004

40. Prenatal morphogenesis of the human incisive canal.

Author

Radlanski RJ, Emmerich S, and Renz H

Subjects

Body Patterning physiology, Humans, Image Processing, Computer-Assisted, Maxilla embryology, Maxillary Nerve embryology, Nasal Septum embryology, Organogenesis physiology, Vomeronasal Organ embryology, Palate embryology, Palate, Hard embryology

Abstract

The literature describing the formation of the incisive canal is very bizarre. The fusion of the primary and secondary palatal processes leads to formation of a triangular seam, which erroneously has been taken for the future incisive canal. If so, the nasopalatine (incisive) nerve and its accompanying vessels were to run through the primary oronasal cavity, which is not compatible with our biological experience. This study was undertaken to shed light on this region of fusion. We focus on the formation of the incisive canal; the neighboring nasopalatine ducts, which are a transient formation, are mentioned where present. A series of seven horizontal cross-sections of human embryos and fetuses from the 7th to the 24th week of pregnancy (between 25 and 225 mm CRL, crown-rump-length) were examined histologically and partly reconstructed in 3D applying the software analySIS (Soft Imaging Systems, Münster, Germany). The incisive canal did not develop at the junction of the primary and the secondary palate, but within the primary palate rostral to that location. The nasopalatine nerve and the nasopalatine artery are structures that exist before ossification starts in the area of the future incisive canal. The neighboring nasopalatine ducts were found in regions laterally and anterolaterally of the nasopalatine nerve, and it was mostly separated from it by bone. In advanced stages of development, the nasopalatine duct only existed as single epithelial remnants and was prone to obliteration., (Copyright 2004 Springer-Verlag)

Published

2004

41. Stability of the bonded lingual wire retainer-a study of the initial bond strength.

Author

Radlanski RJ and Zain ND

Subjects

Adhesiveness, Dental Materials, Humans, In Vitro Techniques, Prosthesis Failure, Shear Strength, Stress, Mechanical, Tensile Strength, Tongue, Dental Bonding instrumentation, Dental Bonding methods, Equipment Failure Analysis methods, Orthodontic Retainers, Orthodontic Wires, Tooth physiology, Tooth ultrastructure

Abstract

Bonded lingual retainers (individually adjusted multistranded wires with one bond site per tooth) are used extensively to maintain the orthodontic treatment result. Failure or loss often leads to a relapse. The bond strength of bonded lingual retainers has not yet been studied in respect of the loads that can be withstood by them through deflection of the interdental archwire region. Furthermore, human anterior teeth have never before been used for a study of this kind. Six different wire/composite combinations were studied (wires: Dentaflex co-axial 0.018", Dentaflex multistranded 0.018", and Respond Dead Soft straight, length 0.0175"; composites: Tetric Flow and Heliosit Orthodontic) by bonding 1 cm lengths of wire to the lingual surfaces of 360 extracted lower anterior teeth. Using an Instron 6025 universal testing machine, vertical shear bond strength tests at the bond site as well as vertical shear bond strength tests and horizontal tensile strength tests were performed. The failure characteristics after failure at maximum force were evaluated by light microscopy, scanning electron microscopy, and morphometry. Most failures were observed at the enamel/composite interface. The selected wires displayed no significant differences; Tetric Flow proved to be the most stable resin; and no enamel tear-outs were observed.

Published

2004

42. A possible interdependency between the wavy path of enamel rods, distances of Retzius lines, and mitotic activity at the cervical loop in human teeth: a hypothesis.

Author

Radlanski RJ and Renz H

Subjects

Ameloblasts physiology, Cell Movement, Dental Enamel metabolism, Epithelium, Humans, Microscopy, Electron, Scanning, Models, Anatomic, Models, Biological, Tooth ultrastructure, Dental Enamel anatomy & histology, Mitosis, Tooth pathology

Abstract

In human enamel, the enamel rods do not run straight in most regions. Instead, they obtain an undulated path. The diameter of the enamel rods remains constant all the way, and a wavy pattern is necessary to produce the volume of the enamel mantle. It is not understood, how this undulated migration of ameloblasts is created. Considerations are presented to explain causal interdependencies between the wavy path of the enamel rods, unequal growth of the cervical loop cells and unequal distances of the striae of Retzius. To test these considerations, further research must record mitotic activity at the cervical loop during the stages of dental development. The distances of Retzius lines must be measured at different spots all over the whole enamel mantle, preferably in 3D. As a result, knowledge of the interdependency between the inner structure and the outer form of each tooth crown will lead to an understanding of tooth form and occlusion.

Published

2004

43. Prenatal development of the human mandible. 3D reconstructions, morphometry and bone remodelling pattern, sizes 12-117 mm CRL.

Author

Radlanski RJ, Renz H, and Klarkowski MC

Subjects

Cartilage growth & development, Embryo, Mammalian, Female, Fetus, Gestational Age, Humans, Morphogenesis, Pregnancy, Bone Remodeling, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Mandible embryology, Osteogenesis

Abstract

Human embryos and fetuses ( n=25) ranging from 12 to 117 mm CRL (crown-rump-length) were serially sectioned and the mandibles were reconstructed in 3D. In addition, characteristic areas of apposition, resorption and resting zones were projected onto the surface of the mandibular reconstructions after histological evaluation of the remodeling processes. Furthermore, morphometric data were taken to describe growth processes in horizontal views. In this way the changing outlines as seen in 3D could be correlated with the remodeling patterns and with the changes in growth. In these stages the mandible showed a general appositional growth, but resorption areas were found at the posterior margins of the mental foramen and at the lateral and medial posterior bony planes at concave surfaces. The bulging of bone underneath and over Meckel's cartilage could be recognized as active appositional growth areas. Meckel's cartilage itself lay in a trough which could be characterized by less apposition and even resorption. Questions were raised in how much the gap between our present knowledge of genetic expression of signaling molecules and the precise morphologic description of the mandibles can be bridged.

Published

2003

44. Distribution of the cement film beneath the orthodontic band: a morphometric in vitro study.

Author

Radlanski RJ, Renz H, and Reulen A

Subjects

Humans, Risk Factors, Composite Resins, Dental Caries etiology, Glass Ionomer Cements, Orthodontic Appliances adverse effects, Resin Cements, Tooth Demineralization etiology

Abstract

Background: During orthodontic treatment with a multiband appliance, enamel decalcifications and periodontal irritation may occur due to inevitable plaque retention. Besides the band itself, non-cemented gaps between tooth and band constitute a problem that has not yet been investigated from quantitative aspects., Materials and Methods: In this in vitro study, the cement distribution beneath the orthodontic band was investigated on 48 identical transparent resin replicas of upper molars and lower molars, respectively. The replicas with the cemented orthodontic bands were divided into buccal, distal, oral, and mesial segments so that the inner surfaces of the bands could undergo morphometric analysis for areas not covered with cement. Two different molar bands (Dentaform Snap by Dentaurum, Ispringen, Germany, and "Washbon" by Ormco, Orange, CA, USA), and two glass-ionomer cements (OptiBand by Ormco and Ultra Band-Lok Blue by GAC, Gräfelfing, Germany) were used. In this way, 8 test series with twelve specimens each were performed., Results: Not one cement-band combination was without defects in the cement film, with poorer cement flow properties being observed at the upper than at the lower molars. In general, fewer defects were recorded in the occlusal than in the cervical areas. Overall, the buccal surfaces yielded the best results, and the mesial surfaces the poorest., Conclusions: Since defects in the cement film have so far been unavoidable, the indication for orthodontic treatment with a multiband appliance must continue to be strict. Unless accompanying professional prophylactic care coupled with optimal oral hygiene is ensured, multiband appliances should be used with great caution.

Published

2003

45. Prenatal morphogenesis of the human mental foramen.

Author

Radlanski RJ, Renz H, Müller U, Schneider RS, Marcucio RS, and Helms JA

Subjects

Chin blood supply, Chin innervation, Crown-Rump Length, Embryonic and Fetal Development, Humans, Imaging, Three-Dimensional, Mandible blood supply, Mandible innervation, Mandibular Nerve embryology, Morphogenesis, Chin embryology, Mandible embryology

Abstract

The mental foramen, at first glance, merely looks like a hole where the mental nerve and the vascular bundle runs through. From a morphogenetic point of view, however, the mental foramen is a suitable model to study the development of a structure where different components are involved. To understand this developmental process, a three-dimensional description at different developmental stages first has to be given. From histological serial sections of human embryos and fetuses, ranging in size from 19 to 117 mm crown rump length (CRL), three-dimensional reconstructions of the foraminar regions were made. Outline and form of the developing foramen, size, course of the mental nerve and the adjacent blood vessels could be shown in detail. In this way, the formation of these structures became concrete in three dimensions. In the future, to understand the mechanisms regulating this complex system, where a nerve and blood vessels became successively surrounded by bone, molecular biological data have to be correlated with morphological findings.

Published

2002

46. In vitro investigation of titanium and hydroxyapatite dental implant surfaces using a rat bone marrow stromal cell culture system.

Author

Knabe C, Klar F, Fitzner R, Radlanski RJ, and Gross U

Subjects

Animals, Bone Marrow Cells cytology, Bone Marrow Cells metabolism, Calcium metabolism, Cells, Cultured, Dental Materials, In Vitro Techniques, Materials Testing, Microscopy, Electron, Scanning, Phosphates metabolism, Rats, Stromal Cells cytology, Stromal Cells metabolism, Surface Properties, Dental Implants, Durapatite, Titanium

Abstract

In this study, rat bone marrow cells (RBM) were used to evaluate different titanium and hydroxyapatite dental implant surfaces. The implant surfaces investigated were: a titanium surface having a porous titanium plasma-sprayed coating (sample code Ti-TPS), a titanium surface with a deep profile structure (sample code Ti-DPS), an uncoated titanium substrate with a machined surface (sample code Ti-ma) and a machined titanium substrate with a porous hydroxyapatite plasma-sprayed coating (sample code Ti-HA). RBM cells were cultured on the disc-shaped test substrates for 14 days. The culture medium was changed daily and examined for calcium and phosphate concentrations. After 14 days specimens were examined by light microscopy, scanning electron microscopy, energy dispersive X-ray analysis and morphometry of the cell-covered substrate surface. All test substrates facilitated RBM growth of extracellular matrix formation. Ti-DPS and Ti-TPS to the highest degree, followed by Ti-ma and Ti-HA. Ti-DPS and Ti-TPS displayed the highest cell density and thus seem to be well suited for the endosseous portion of dental implants. RBM cells cultured on Ti-HA showed a delayed growth pattern. This may be related to its high phosphate ion release.

Published

2002

47. Bilateral open bite in dicygotic twins. A combined orthodontic-prosthetic approach.

Author

Radlanski RJ and Freesmeyer WB

Subjects

Adult, Combined Modality Therapy, Humans, Male, Malocclusion, Angle Class III therapy, Open Bite therapy, Twins, Dizygotic, Denture, Overlay, Denture, Partial, Fixed, Diseases in Twins, Malocclusion, Angle Class III genetics, Open Bite genetics, Orthodontics, Corrective

Abstract

Case Report: Dizygotic twins, male, 25 years of age, required treatment for an identical orthodontic diagnosis., Diagnosis: Class III malocclusion with mesial molar relation and frontal edge-to-edge bite, lyrate upper dental arch, grouped cross-bite and bilateral open bite in the molar and bicuspid region, retention and lingual inclination respectively of the lower left second bicuspid, mesial inclination of both lower first molars. The severity of the malocclusion differed in the two brothers., Therapy: Orthodontic treatment was successful concerning the transversal expansion and alignment of the maxillary dental arch, the functional relation of the anterior teeth, the transversally correct relation of the upper and lower dental arches and, following surgical removal of the lower second bicuspids, the reduction of crowding in the lower arch. An attempt was made to upright the molars in the mandibular arch and to close the lateral open bite by means of vertical elastics. However, the 10-month period of resistance to the therapy suggested, after a tongue protrusion habit had been ruled out, a diagnosis of ankylosis. Further orthodontic treatment was renounced and a prosthetic solution was pursued instead: the teeth in infraocclusion were treated with full ceramic overlays and, in the regions with residual gaps, with pontics (Empress II, Ivoclar, Schaan, Liechtenstein), after minimally invasive preparation (confined to removal of existing fillings)., Conclusion: This case is particularly interesting because the infrapositioned molars in both brothers were very likely due to ankylosis, suggesting a genetic cause.

Published

2002

48. Outline and arrangement of enamel rods in human deciduous and permanent enamel. 3D-reconstructions obtained from CLSM and SEM images based on serial ground sections.

Author

Radlanski RJ, Renz H, Willersinn U, Cordis CA, and Duschner H

Subjects

Dentition, Permanent, Humans, Imaging, Three-Dimensional, Microscopy, Confocal, Microscopy, Electron, Scanning, Tooth Cervix anatomy & histology, Tooth, Deciduous anatomy & histology, Dental Enamel anatomy & histology

Abstract

Human enamel rods were made visible continuously from the dentino-enamel junction (DEJ) up to the enamel surface. From 12 teeth (1st and 2nd dentition) enamel blocks from the cervical third were prepared with perpendicular planes, embedded in resin, and ground down in steps of 15 microm parallel to the enamel surface. Enamel rods were made visible by acid etching (35% H3PO4, 45 s), sputtered and examined in the scanning electron microscope (SEM). Prior to this, the enamel blocks were viewed under the CLSM and optical sections at distances of 2 microm were obtained, starting in the same plane as the grinding surface. The outlines of the rods were digitized and reconstructed three dimensionally. For the first time, the path of single and grouped enamel rods on their way through the entire enamel layer was depicted. 3D images obtained from confocal laser scanning microscopy (CLSM) data were similar to those gained from SEM images. Single rods did not maintain their same outline throughout their path; arcade outlines predominated close to the DEJ, while keyhole outlines prevailed at the enamel surface. Within a group of rods, neighborhood relations changed, and neighbor rods influenced their outlines mutually, including the variable extent of the tail. The interdependence between the plasticity of the rods and the ameloblasts' forms should be topics of further research.

Published

2001

49. Prenatal development of the muscles in the floor of the mouth in human embryos and fetuses from 6.9 to 76 mm CRL.

Author

Radlanski RJ, Renz H, and Tabatabai A

Subjects

Cartilage embryology, Embryo, Mammalian, Fetus, Gestational Age, Humans, Image Processing, Computer-Assisted, Embryonic and Fetal Development, Masticatory Muscles embryology, Mouth embryology

Abstract

The development of the muscles in the floor of the mouth is described in 10 human embryos and fetuses ranging from 6.9 to 76 mm CRL by means of computer-aided graphical 3D-reconstructions. All primordia of the muscles in the floor of the mouth could be identified from the 15.6 mm CRL stage on. The proportions and insertion lines of the early muscles were found to be different from adult anatomy. Each muscle first inserted in the medial surface of Meckels cartilage, but during the developmental period between 19 and 68 mm CRL the insertion lines were gradually transposed to the bony ridges of the mandible which progrediently embraced Meckels cartilage. The fibers of the mylohyoid muscles left the anterior region near the symphysis mentalis free during all stages of this study. The digastric muscle revealed only one belly with a constriction of its continuous fibers where it passed the hyoid bone primordium. There was no attachment of digastric muscle fibers to the hyoid; only geniohyoid and mylohyoid fibers. Geniohyoid and genioglossus muscles basically correspond to their definite arrangement, but they underwent proportional changes. Individual specimens embodied irregularities such as accessory geniohyoid and hyoid portions and muscle fibers separate from the mylohyoide muscle.

Published

2001

50. A new carbide finishing bur for bracket debonding.

Author

Radlanski RJ

Subjects

Dental Enamel, Humans, Incisor, Microscopy, Electron, Scanning, Time Factors, Dental Debonding, Dental Polishing, Orthodontic Brackets

Abstract

Background: The removal of residual bonding resin with rotary instruments after bracket debonding may damage the enamel surface. Conventional carbide burs may scratch the enamel due to the shape and sharpness of their blades., Carbide Finishing Bur: A new carbide finishing bur with a slightly tapered shape, rounded tip and eight twisted blades has been developed. As a special feature the wedge angle of the blades has been enlarged to ca. 130-135 degrees by means of an oblique ground chamfer (relief angle ca. 0-5 degrees). The transition from head to shaft has been smoothed off with a safety chamfer. Overall, the cutting capacity has been reduced in the enamel, while the bur has remained sufficiently sharp within the adhesive resin., Prototype Testing: For prototype testing, incisor brackets were bonded in vitro to 70 human incisors according to the standard clinical technique and removed after 7 days. Residual bonding resin was removed with conventional carbide burs and with gradually modified prototypes of the new finishing instrument respectively. The resulting enamel surfaces were evaluated by scanning electron microscopy. The specimens were then treated with a polishing paste and evaluated again., Results: Conventional carbide burs remove not only residual bonding resin but also some enamel; scoring may occur. The newly developed finishing bur has been proven by morphological evaluation to be less aggressive in removing residual bonding resin after bracket debonding.

Published

2001