Your search keyword '"Barber, J.C."' showing total 9 results

1. Clinical feasibility of deep learning-based automatic head CBCT image segmentation and landmark detection in computer-aided surgical simulation for orthognathic surgery

Author

Deng, H.H., primary, Liu, Q., additional, Chen, A., additional, Kuang, T., additional, Yuan, P., additional, Gateno, J., additional, Kim, D., additional, Barber, J.C., additional, Xiong, K.G., additional, Yu, P., additional, Gu, K.J., additional, Xu, X., additional, Yan, P., additional, Shen, D., additional, and Xia, J.J., additional

Published

2022

2. Clinical feasibility of deep learning-based automatic head CBCT image segmentation and landmark detection in computer-aided surgical simulation for orthognathic surgery.

Author

Deng, H.H., Liu, Q., Chen, A., Kuang, T., Yuan, P., Gateno, J., Kim, D., Barber, J.C., Xiong, K.G., Yu, P., Gu, K.J., Xu, X., Yan, P., Shen, D., and Xia, J.J.

Subjects

ORTHOGNATHIC surgery, COMPUTER-aided diagnosis, IMAGE segmentation, CONE beam computed tomography, COMPUTER-assisted image analysis (Medicine), THREE-dimensional imaging

Abstract

The purpose of this ambispective study was to investigate whether deep learning-based automatic segmentation and landmark detection, the SkullEngine, could be used for orthognathic surgical planning. Sixty-one sets of cone beam computed tomography (CBCT) images were automatically inferred for midface, mandible, upper and lower teeth, and 68 landmarks. The experimental group included automatic segmentation and landmarks, while the control group included manual ones that were previously used to plan orthognathic surgery. The qualitative analysis of segmentation showed that all of the automatic results could be used for computer-aided surgical simulation. Among these, 98.4% of midface, 70.5% of mandible, 98.4% of upper teeth, and 93.4% of lower teeth could be directly used without manual revision. The Dice similarity coefficient was 96% and the average symmetric surface distance was 0.1 mm for all four structures. With SkullEngine, it took 4 minutes to complete the automatic segmentation and an additional 10 minutes for a manual touchup. The results also showed the overall mean difference between the two groups was 2.3 mm for the midface and 2.4 mm for the mandible. In summary, the authors believe that automatic segmentation using SkullEngine is ready for daily practice. However, the accuracy of automatic landmark digitization needs to be improved. [ABSTRACT FROM AUTHOR]

Published

2023

3. Further delineation of the 15q13 microdeletion and duplication syndromes: a clinical spectrum varying from non-pathogenic to a severe outcome

Author

van Bon, B.W.M., Mefford, H.C., Menten, B., Koolen, D.A., Sharp, A.J., Nillesen, W.M., Innis, J.W., de Ravel, T.J.L., Mercer, C.L., Fichera, M., Stewart, H., Connell, L.E., Ounap, K., Lachlan, K., Castle, B., Van der Aa, N., van Ravenswaaij, C., Nobrega, M.A., Serra-Juhe, C., Simonic, I., de Leeuw, N., Pfundt, R., Bongers, E.M., Baker, C., Finnemore, P., Huang, S., Maloney, V.K., Crolla, J.A., van Kalmthout, M., Elia, M., Vandeweyer, G., Fryns, J.P., Janssens, S., Foulds, N., Reitano, S., Smith, K., Parkel, S., Loeys, B., Woods, C.G., Oostra, A., Speleman, F., Pereira, A.C., Kurg, A., Willatt, L., Knight, S.J.L., Vermeesch, J.R., Romano, C., Barber, J.C., Mortier, G., Perez-Jurado, L.A., Kooy, F., Brunner, H.G., Eichler, E.E., Kleefstra, T., and de Vries, B.B.A.

Subjects

Chromosome deletion -- Research, Mental retardation -- Genetic aspects, Mental retardation -- Development and progression, Mental retardation -- Patient outcomes, Mental retardation -- Research, Epilepsy -- Genetic aspects, Epilepsy -- Development and progression, Epilepsy -- Patient outcomes, Epilepsy -- Research, Health

Published

2009

4. Further molecular and clinical delineation of the Wisconsin syndrome phenotype associated with interstitial 3q24q25 deletions

Author

Willemsen, M.H., Leeuw, N. de, Mercer, C., Eisenhauer, H., Morris, J., Collinson, M.N., Barber, J.C., Lam, S.T., Lo, I.F., Rensen, H., Ferwerda, A., Hamel, B.C.J., Kleefstra, T., Willemsen, M.H., Leeuw, N. de, Mercer, C., Eisenhauer, H., Morris, J., Collinson, M.N., Barber, J.C., Lam, S.T., Lo, I.F., Rensen, H., Ferwerda, A., Hamel, B.C.J., and Kleefstra, T.

Abstract

Contains fulltext : 97930.pdf (publisher's version ) (Closed access), Deletions of the distal 3q22.3 region encompassing the gene forkhead transcription factor FOXL2 (FOXL2) usually result in intellectual disability (ID) and the highly recognizable blepharophimosis-ptosis-epicanthus inversus syndrome (BPES). We encountered three patients with molecularly defined interstitial deletions distal to the FOXL2 gene. They present with remarkably similar manifestations comprising variable ID, a coarse facial appearance, including prominent nose and eyebrows, hypogonadism and skin pigmentation abnormalities, and they share an approximately 8.8 Mb overlapping 3q24q25 deletion. Interestingly, one of the present patients was described previously in a clinical report with emphasis on her clinical similarity to the Wisconsin syndrome, suggesting that Wisconsin syndrome might be caused by a (micro) deletion within the 3q24q25 region.

Published

2011

5. Further delineation of the 15q13 microdeletion and duplication syndromes: a clinical spectrum varying from non-pathogenic to a severe outcome.

Author

Bon, B.W.M. van, Mefford, H.C., Menten, B., Koolen, D.A., Sharp, A.J., Nillesen, W.M., Innis, J.W., Ravel, T.J. de, Mercer, C.L., Fichera, M., Stewart, H., Connell, L.E., Ounap, K., Lachlan, K., Castle, B., Aa, N. van der, Ravenswaaij-Arts, C.M.A. van, Nobrega, M.A., Serra-Juhe, C., Simonic, I., Leeuw, N. de, Pfundt, R.P., Bongers, E.M.H.F., Baker, C., Finnemore, P., Huang, S., Maloney, V.K., Crolla, J.A., Kalmthout, M. van, Elia, M., Vandeweyer, G., Fryns, J.P., Janssens, S., Foulds, N., Reitano, S., Smith, K., Parkel, S., Loeys, B.L., Woods, C.G., Oostra, A., Speleman, F., Pereira, A.C., Kurg, A., Willatt, L., Knight, S.J., Vermeesch, J.R., Romano, C, Barber, J.C., Mortier, G., Perez-Jurado, L.A., Kooy, F., Brunner, H.G., Eichler, E.E., Kleefstra, T., Vries, L.B.A. de, Bon, B.W.M. van, Mefford, H.C., Menten, B., Koolen, D.A., Sharp, A.J., Nillesen, W.M., Innis, J.W., Ravel, T.J. de, Mercer, C.L., Fichera, M., Stewart, H., Connell, L.E., Ounap, K., Lachlan, K., Castle, B., Aa, N. van der, Ravenswaaij-Arts, C.M.A. van, Nobrega, M.A., Serra-Juhe, C., Simonic, I., Leeuw, N. de, Pfundt, R.P., Bongers, E.M.H.F., Baker, C., Finnemore, P., Huang, S., Maloney, V.K., Crolla, J.A., Kalmthout, M. van, Elia, M., Vandeweyer, G., Fryns, J.P., Janssens, S., Foulds, N., Reitano, S., Smith, K., Parkel, S., Loeys, B.L., Woods, C.G., Oostra, A., Speleman, F., Pereira, A.C., Kurg, A., Willatt, L., Knight, S.J., Vermeesch, J.R., Romano, C, Barber, J.C., Mortier, G., Perez-Jurado, L.A., Kooy, F., Brunner, H.G., Eichler, E.E., Kleefstra, T., and Vries, L.B.A. de

Abstract

Contains fulltext : 80657.pdf (publisher's version ) (Closed access), BACKGROUND: Recurrent 15q13.3 microdeletions were recently identified with identical proximal (BP4) and distal (BP5) breakpoints and associated with mild to moderate mental retardation and epilepsy. METHODS: To assess further the clinical implications of this novel 15q13.3 microdeletion syndrome, 18 new probands with a deletion were molecularly and clinically characterised. In addition, we evaluated the characteristics of a family with a more proximal deletion between BP3 and BP4. Finally, four patients with a duplication in the BP3-BP4-BP5 region were included in this study to ascertain the clinical significance of duplications in this region. RESULTS: The 15q13.3 microdeletion in our series was associated with a highly variable intra- and inter-familial phenotype. At least 11 of the 18 deletions identified were inherited. Moreover, 7 of 10 siblings from four different families also had this deletion: one had a mild developmental delay, four had only learning problems during childhood, but functioned well in daily life as adults, whereas the other two had no learning problems at all. In contrast to previous findings, seizures were not a common feature in our series (only 2 of 17 living probands). Three patients with deletions had cardiac defects and deletion of the KLF13 gene, located in the critical region, may contribute to these abnormalities. The limited data from the single family with the more proximal BP3-BP4 deletion suggest this deletion may have little clinical significance. Patients with duplications of the BP3-BP4-BP5 region did not share a recognisable phenotype, but psychiatric disease was noted in 2 of 4 patients. CONCLUSIONS: Overall, our findings broaden the phenotypic spectrum associated with 15q13.3 deletions and suggest that, in some individuals, deletion of 15q13.3 is not sufficient to cause disease. The existence of microdeletion syndromes, associated with an unpredictable and variable phenotypic outcome, will pose the clinician with diagnosti

Published

2009

6. Recurrent rearrangements of chromosome 1q21.1 and variable pediatric phenotypes.

Author

Mefford, H.C., Sharp, A.J., Baker, C., Itsara, A., Jiang, Z., Buysse, K., Huang, S., Maloney, V.K., Crolla, J.A., Baralle, D., Collins, A., Mercer, C., Norga, K., Ravel, T. de, Devriendt, K., Bongers, E.M.H.F., Leeuw, N. de, Reardon, W., Gimelli, S., Bena, F., Hennekam, R.C.M., Male, A., Gaunt, L., Clayton-Smith, J., Simonic, I., Park, S.M., Mehta, S.G., Nik-Zainal, S., Woods, C.G., Firth, H.V., Parkin, G., Fichera, M., Reitano, S., Giudice, M. Lo, Li, K.E., Casuga, I., Broomer, A., Conrad, B., Schwerzmann, M., Raber, L., Gallati, S., Striano, P., Coppola, A., Tolmie, J.L., Tobias, E.S., Lilley, C., Armengol, L., Spysschaert, Y., Verloo, P., Coene, A. De, Goossens, L., Mortier, G., Speleman, F., Binsbergen, E. van, Nelen, M.R., Hochstenbach, R., Poot, M., Gallagher, L., Gill, M., McClellan, J., King, M.C., Regan, R., Skinner, C., Stevenson, R.E., Antonarakis, S.E., Chen, C., Estivill, X., Menten, B., Gimelli, G., Gribble, S.M., Schwartz, S., Sutcliffe, J.S., Walsh, T., Knight, S.J., Sebat, J., Romano, C, Schwartz, C.E., Veltman, J.A., Vries, L.B.A. de, Vermeesch, J.R., Barber, J.C., Willatt, L., Tassabehji, M., Eichler, E.E., Mefford, H.C., Sharp, A.J., Baker, C., Itsara, A., Jiang, Z., Buysse, K., Huang, S., Maloney, V.K., Crolla, J.A., Baralle, D., Collins, A., Mercer, C., Norga, K., Ravel, T. de, Devriendt, K., Bongers, E.M.H.F., Leeuw, N. de, Reardon, W., Gimelli, S., Bena, F., Hennekam, R.C.M., Male, A., Gaunt, L., Clayton-Smith, J., Simonic, I., Park, S.M., Mehta, S.G., Nik-Zainal, S., Woods, C.G., Firth, H.V., Parkin, G., Fichera, M., Reitano, S., Giudice, M. Lo, Li, K.E., Casuga, I., Broomer, A., Conrad, B., Schwerzmann, M., Raber, L., Gallati, S., Striano, P., Coppola, A., Tolmie, J.L., Tobias, E.S., Lilley, C., Armengol, L., Spysschaert, Y., Verloo, P., Coene, A. De, Goossens, L., Mortier, G., Speleman, F., Binsbergen, E. van, Nelen, M.R., Hochstenbach, R., Poot, M., Gallagher, L., Gill, M., McClellan, J., King, M.C., Regan, R., Skinner, C., Stevenson, R.E., Antonarakis, S.E., Chen, C., Estivill, X., Menten, B., Gimelli, G., Gribble, S.M., Schwartz, S., Sutcliffe, J.S., Walsh, T., Knight, S.J., Sebat, J., Romano, C, Schwartz, C.E., Veltman, J.A., Vries, L.B.A. de, Vermeesch, J.R., Barber, J.C., Willatt, L., Tassabehji, M., and Eichler, E.E.

Abstract

Contains fulltext : 71235.pdf (publisher's version ) (Open Access), BACKGROUND: Duplications and deletions in the human genome can cause disease or predispose persons to disease. Advances in technologies to detect these changes allow for the routine identification of submicroscopic imbalances in large numbers of patients. METHODS: We tested for the presence of microdeletions and microduplications at a specific region of chromosome 1q21.1 in two groups of patients with unexplained mental retardation, autism, or congenital anomalies and in unaffected persons. RESULTS: We identified 25 persons with a recurrent 1.35-Mb deletion within 1q21.1 from screening 5218 patients. The microdeletions had arisen de novo in eight patients, were inherited from a mildly affected parent in three patients, were inherited from an apparently unaffected parent in six patients, and were of unknown inheritance in eight patients. The deletion was absent in a series of 4737 control persons (P=1.1x10(-7)). We found considerable variability in the level of phenotypic expression of the microdeletion; phenotypes included mild-to-moderate mental retardation, microcephaly, cardiac abnormalities, and cataracts. The reciprocal duplication was enriched in nine children with mental retardation or autism spectrum disorder and other variable features (P=0.02). We identified three deletions and three duplications of the 1q21.1 region in an independent sample of 788 patients with mental retardation and congenital anomalies. CONCLUSIONS: We have identified recurrent molecular lesions that elude syndromic classification and whose disease manifestations must be considered in a broader context of development as opposed to being assigned to a specific disease. Clinical diagnosis in patients with these lesions may be most readily achieved on the basis of genotype rather than phenotype.

Published

2008

7. Repetitive DNA and chromosomal rearrangements: speciation-related events in plant genomes

Author

Raskina, O., primary, Barber, J.C., additional, Nevo, E., additional, and Belyayev, A., additional

Published

2008

8. Renewable energy for production of elemental phosphorus.

Author

Barber, J.C.

Published

1989

9. Extensive Normal Copy Number Variation of a β-Defensin Antimicrobial-Gene Cluster.

Author

Hollox, E.J., Armour, J.A., and Barber, J.C.

Subjects

*IN situ hybridization, *DNA, *CHROMOSOMES, *CYTOKINES, *RNA, *IMMUNE response

Abstract

Using a combination of multiplex amplifiable probe hybridization and semiquantitative fluorescence in situ hybridization (SQ-FISH), we analyzed DNA copy number variation across chromosome band 8p23.1, a region that is frequently involved in chromosomal rearrangements. We show that a cluster of at least three antimicrobial β-defensin genes (DEFB4, DEFB103, and DEFB104) at 8p23.1 are polymorphic in copy number, with a repeat unit ≥ 240 kb long. Individuals have 2­12 copies of this repeat per diploid genome. By segregation, microsatellite dosage, and SQ-FISH chromosomal signal intensity ratio analyses, we deduce that individual chromosomes can have one to eight copies of this repeat unit. Chromosomes with seven or eight copies of this repeat unit are identifiable by cytogenetic analysis as a previously described 8p23.1 euchromatic variant. Analysis of RNA from different individuals by semiquantitative reverse-transcriptase polymerase chain reaction shows a significant correlation between genomic copy number of DEFB4 and levels of its messenger RNA (mRNA) transcript. The peptides encoded by these genes are potent antimicrobial agents, especially effective against clinically important pathogens, such as Pseudomonas aeruginosa and Staphylococcus aureus, and DEFB4 has been shown to act as a cytokine linking the innate and adaptive immune responses. Therefore, a copy number polymorphism involving these genes, which is reflected in mRNA expression levels, is likely to have important consequences for immune system function. [ABSTRACT FROM AUTHOR]

Published

2003