Your search keyword '"Keam, L."' showing total 3 results

1. High content, multi-parameter analyses in buccal cells to identify Alzheimer's disease

Author

François, M., Fenech, M., Thomas, P., Hor, M., Rembach, A., Martins, R.N., Rainey-Smith, S.R., Masters, C.L., Ames, D., Rowe, C.C., Macaulay, S.L., Hill, A.F., Leifert, W.R., Appannah, A., Barnes, M., Barnham, K., Bedo, J., Bellingham, S., Bon, L., Bourgeat, P., Brown, B., Buckley, R., Burnham, S., Bush, A., Chandler, G., Chen, K., Clarnette, R., Collins, S., Cooke, I., Cowie, T., Cox, K., Cuningham, E., Cyarto, E., Dang, P.A.V., Darby, D., Desmond, P., Doecke, J., Dore, V., Downing, H., Dridan, B., Duesing, K., Fahey, M., Farrow, M., Faux, N., Fernandez, S., Fernando, B., Fowler, C., Fripp, J., Frost, S., Gardener, S., Gibson, S., Graham, P., Gupta, V., Hansen, D., Harrington, K., Hone, E., Horne, M., Huckstepp, B., Jones, A., Jones, G., Kamer, A., Kanagasingam, Y., Keam, L., Kowalczyk, A., Krivdic, B., Lam, C.P., Lamb, F., Lautenschlager, N., Laws, S., Lenzo, N., Leroux, H., Lftikhar, F., Li, Q-X, Lim, F., Lim, L., Lockett, L., Lucas, K., Mano, M., Marczak, C., Martins, G., Matsumoto, Y., Bird, S., McBride, S., McKay, R., Mulligan, R., Nash, T., Nigro, J., O'Keefe, G., Ong, K., Parker, B., Pedrini, S., Peiffer, J., Pejoska, S., Penny, L., Perez, K., Pertile, K., Phal, P., Porter, T., Raniga, P., Restrepo, C., Riley, M., Roberts, B., Robertson, J., Rodrigues, M., Rooney, A., Rumble, R., Ryan, T., Salvado, O., Samuel, M., Saunders, I., Savage, G., Silbert, B., Sohrabi, H.R., Syrette, J., Szoeke, C., Taddei, K., Taddei, T., Tan, S., Tegg, M., Trivedi, D., Trounson, B., Veljanovski, R., Verdile, G., Villemagne, V., Volitakis, I., Vockler, C., Vovos, M., Vrantsidis, F., Walker, S., Watt, A., Weinborn, M., Wilson, B., Woodward, M., Yastrubetskaya, O., Yates, P., Zhang, P., Chatterjee, P., Creegan, R., De Ruyck, K., Ding, H., Groth, D., Head, R., Krause, D., Lachovitzki, R., Lim, Y.Y., Lintern, T., Mondal, A., Nuttall, S., O'Callaghan, N., Osborne, L., Pang, C., Patten, G., Tuckfield, A., Varghese, J., Wilson, A., Zhang, Q., François, M., Fenech, M., Thomas, P., Hor, M., Rembach, A., Martins, R.N., Rainey-Smith, S.R., Masters, C.L., Ames, D., Rowe, C.C., Macaulay, S.L., Hill, A.F., Leifert, W.R., Appannah, A., Barnes, M., Barnham, K., Bedo, J., Bellingham, S., Bon, L., Bourgeat, P., Brown, B., Buckley, R., Burnham, S., Bush, A., Chandler, G., Chen, K., Clarnette, R., Collins, S., Cooke, I., Cowie, T., Cox, K., Cuningham, E., Cyarto, E., Dang, P.A.V., Darby, D., Desmond, P., Doecke, J., Dore, V., Downing, H., Dridan, B., Duesing, K., Fahey, M., Farrow, M., Faux, N., Fernandez, S., Fernando, B., Fowler, C., Fripp, J., Frost, S., Gardener, S., Gibson, S., Graham, P., Gupta, V., Hansen, D., Harrington, K., Hone, E., Horne, M., Huckstepp, B., Jones, A., Jones, G., Kamer, A., Kanagasingam, Y., Keam, L., Kowalczyk, A., Krivdic, B., Lam, C.P., Lamb, F., Lautenschlager, N., Laws, S., Lenzo, N., Leroux, H., Lftikhar, F., Li, Q-X, Lim, F., Lim, L., Lockett, L., Lucas, K., Mano, M., Marczak, C., Martins, G., Matsumoto, Y., Bird, S., McBride, S., McKay, R., Mulligan, R., Nash, T., Nigro, J., O'Keefe, G., Ong, K., Parker, B., Pedrini, S., Peiffer, J., Pejoska, S., Penny, L., Perez, K., Pertile, K., Phal, P., Porter, T., Raniga, P., Restrepo, C., Riley, M., Roberts, B., Robertson, J., Rodrigues, M., Rooney, A., Rumble, R., Ryan, T., Salvado, O., Samuel, M., Saunders, I., Savage, G., Silbert, B., Sohrabi, H.R., Syrette, J., Szoeke, C., Taddei, K., Taddei, T., Tan, S., Tegg, M., Trivedi, D., Trounson, B., Veljanovski, R., Verdile, G., Villemagne, V., Volitakis, I., Vockler, C., Vovos, M., Vrantsidis, F., Walker, S., Watt, A., Weinborn, M., Wilson, B., Woodward, M., Yastrubetskaya, O., Yates, P., Zhang, P., Chatterjee, P., Creegan, R., De Ruyck, K., Ding, H., Groth, D., Head, R., Krause, D., Lachovitzki, R., Lim, Y.Y., Lintern, T., Mondal, A., Nuttall, S., O'Callaghan, N., Osborne, L., Pang, C., Patten, G., Tuckfield, A., Varghese, J., Wilson, A., and Zhang, Q.

Abstract

Alzheimer’s disease (AD) is a degenerative brain disorder and is the most common form of dementia. Minimally invasive approaches are required that combine biomarkers to identify individuals who are at risk of developing mild cognitive impairment (MCI) and AD, to appropriately target clinical trials for therapeutic discovery as well as lifestyle strategies aimed at prevention. Buccal mucosa cells from the Australian Imaging, Biomarkers and Lifestyle Flagship Study of Ageing cohort (n=60) were investigated for cytological markers that could be used to identify both MCI and AD individuals. Visual scoring of the buccal cytome demonstrated a significantly lower frequency of basal and karyorrhectic cells in the MCI group compared with controls. A high content, automated assay was developed using laser scanning cytometry to simultaneously measure cell types, nuclear DNA content and aneuploidy, neutral lipid content, putative Tau and amyloid-β (Aβ) in buccal cells. DNA content, aneuploidy, neutral lipids and Tau were similar in all groups. However, there was significantly lower Tau protein in both basal and karyolytic buccal cell types compared with differentiated buccal cells. Aβ, as measured by frequency of cells containing Aβ signal, as well as area and integral of Aβ signal, was significantly higher in the AD group compared with the control group. Buccal cell Aβ was correlated with mini-mental state examination (MMSE) scores (r = -0.436, P=0.001) and several blood-based biomarkers. Combining newly identified biomarkers from buccal cells with those already established may offer a potential route for more specific biomarker panels which may substantially increase the likelihood of better predictive markers for earlier diagnosis of AD.

Published

2016

2. High content, multi-parameter analyses in buccal cells to identify alzheimer’s disease

Author

François, M., Fenech, M. F., Thomas, P., Hor, M., Rembach, A., Martins, R. N., Rainey-Smith, S. R., Masters, C. L., Ames, D., Rowe, C. C., Lance Macaulay, S., Hill, A. F., Leifert, W. R., Appannah, A., Barnes, M., Barnham, K., Bedo, J., Bellingham, S., Bon, L., Bourgeat, P., Brown, B., Buckley, R., Burnham, S., Bush, A., Chandler, G., Chen, K., Clarnette, R., Collins, S., Cooke, I., Cowie, T., Cox, K., Cuningham, E., Cyarto, E., Dang, P. A. V., Darby, D., Desmond, P., Doecke, J., Dore, V., Downing, H., Dridan, B., Duesing, K., Fahey, M., Farrow, M., Faux, N., Fenech, M., Fernandez, S., Fernando, B., Fowler, C., Francois, M., Fripp, J., Frost, S., Gardener, S., Gibson, S., Graham, P., Gupta, V., Hansen, D., Harrington, K., Hill, A., Hone, E., Horne, M., Huckstepp, B., Jones, A., Jones, G., Kamer, A., Kanagasingam, Y., Keam, L., Kowalczyk, A., Krivdic, B., Lam, C. P., Lamb, F., Lautenschlager, N., Laws, S., Leifert, W., Lenzo, N., Leroux, H., Lftikhar, F., Li, Q. -X, Lim, F., Lim, L., Lockett, L., Lucas, K., Mano, M., Marczak, C., Martins, G., Maruff, P., Matsumoto, Y., Bird, S., Mcbride, S., Mckay, R., Mulligan, R., Nash, T., Nigro, J., O Keefe, G., Ong, K., Parker, B., Pedrini, S., Peiffer, J., Pejoska, S., Penny, L., Perez, K., Pertile, K., Phal, P., Porter, T., Rainey-Smith, S., Raniga, P., Restrepo, C., Riley, M., Roberts, B., Robertson, J., Rodrigues, M., Rooney, A., Rumble, R., Ryan, T., Salvado, O., Samuel, M., Saunders, I., Savage, G., Silbert, B., Sohrabi, H., Syrette, J., Cassandra Szoeke, Taddei, K., Taddei, T., Tan, S., Tegg, M., Trivedi, D., Trounson, B., Veljanovski, R., Verdile, G., Villemagne, V., Volitakis, I., Vockler, C., Vovos, M., Vrantsidis, F., Walker, S., Watt, A., Weinborn, M., Wilson, B., Woodward, M., Yastrubetskaya, O., Yates, P., Zhang, P., Chatterjee, P., Creegan, R., Ruyck, K., Ding, H., Groth, D., Head, R., Krause, D., Lachovitzki, R., Lim, Y. Y., Lintern, T., Mondal, A., Nuttall, S., O Callaghan, N., Osborne, L., Pang, C., Patten, G., Tuckfield, A., Varghese, J., Wilson, A., and Zhang, Q.

3. Detection of infectious laryngotracheitis virus in chickens using a non-radioactive DNA probe.

Author

Keam L, York JJ, Sheppard M, and Fahey KJ

Subjects

Animals, Antigens, Viral analysis, Cloning, Molecular, DNA Probes, Enzyme-Linked Immunosorbent Assay, Herpesviridae Infections diagnosis, Herpesviridae Infections microbiology, Herpesvirus 1, Gallid genetics, Herpesvirus 1, Gallid immunology, Nucleic Acid Hybridization, Poultry Diseases diagnosis, Predictive Value of Tests, Specific Pathogen-Free Organisms, Trachea microbiology, Chickens, DNA, Viral analysis, Herpesviridae Infections veterinary, Herpesvirus 1, Gallid isolation & purification, Poultry Diseases microbiology

Abstract

A DNA hybridization assay using a non-radioactive probe has been developed for the detection of infectious laryngotracheitis virus (ILTV) DNA. A 1.4-kilobase pair BamHI fragment of ILTV genomic DNA was cloned and then labeled by one of two methods; nick translation using 32P-dATP or non-radioactive labeling using a commercially available DNA labeling and detection kit. The non-radioactive DNA labeling method proved to be as sensitive as the radioactive method. Using the non-radioactive probe, ILTV DNA was readily detected in tracheal samples from acutely infected chickens and also from convalescent chickens at a time when viral antigen could no longer be detected by the enzyme-linked immunosorbent assay or the virus could no longer be reisolated. This technique provides a safe and effective means of identifying field outbreaks of ILTV and also may detect latent ILTV infections relatively quickly and inexpensively.

Published

1991