Your search keyword '"Blackledge M"' showing total 9 results

1. Targeting of Streptococcus mutans Biofilms by a Novel Small Molecule Prevents Dental Caries and Preserves the Oral Microbiome.

Author

Garcia, S. S., Blackledge, M. S., Michalek, S., Su, L., Ptacek, T., Eipers, P., Morrow, C., Lefkowitz, E. J., Melander, C., and Wu, H.

Subjects

STREPTOCOCCUS mutans, CAVITY prevention, BIOFILMS, SMALL molecules, ORAL microbiology, TOOTH demineralization, DENTAL enamel, PREVENTIVE medicine, PREVENTION, PHYSIOLOGY, ANIMALS, IMIDAZOLES, MICROSCOPY, POLYMERASE chain reaction, RATS, STREPTOCOCCUS, PHARMACODYNAMICS

Abstract

Dental caries is a costly and prevalent disease characterized by the demineralization of the tooth's enamel. Disease outcome is influenced by host factors, dietary intake, cariogenic bacteria, and other microbes. The cariogenic bacterial species Streptococcus mutans metabolizes sucrose to initiate biofilm formation on the tooth surface and consequently produces lactic acid to degrade the tooth's enamel. Persistence of S. mutans biofilms in the oral cavity can lead to tooth decay. To date, no anticaries therapies that specifically target S. mutans biofilms but do not disturb the overall oral microbiome are available. We screened a library of 2-aminoimidazole antibiofilm compounds with a biofilm dispersion assay and identified a small molecule that specifically targets S. mutans biofilms. At 5 µM, the small molecule annotated 3F1 dispersed 50% of the established S. mutans biofilm but did not disperse biofilms formed by the commensal species Streptococcus sanguinis or Streptococcus gordonii. 3F1 dispersed S. mutans biofilms independently of biofilm-related factors such as antigen I/II and glucosyltransferases. 3F1 treatment effectively prevented dental caries by controlling S. mutans in a rat caries model without perturbing the oral microbiota. Our study demonstrates that selective targeting of S. mutans biofilms by 3F1 was able to effectively reduce dental caries in vivo without affecting the overall oral microbiota shaped by the intake of dietary sugars, suggesting that the pathogenic biofilm-specific treatment is a viable strategy for disease prevention. [ABSTRACT FROM AUTHOR]

Published

2017

2. Combination of chemical suppression techniques for dual suppression of fat and silicone at diffusion-weighted MR imaging in women with breast implants.

Author

Koh DM, Blackledge M, Burns S, Hughes J, Stemmer A, Kiefer B, Leach MO, Collins DJ, Koh, Dow-Mu, Blackledge, M, Burns, S, Hughes, J, Stemmer, A, Kiefer, B, Leach, M O, and Collins, D J

Abstract

Objectives: Silicone breast prostheses prove technically challenging when performing diffusion-weighted MR imaging in the breasts. We describe a combined fat and chemical suppression scheme to achieve dual suppression of fat and silicone, thereby improving the quality of diffusion-weighted images in women with breast implants.Methods: MR imaging was performed at 3.0 and 1.5 T in women with silicone breast implants using short-tau inversion recovery (STIR) fat-suppressed echo-planar (EPI) diffusion-weighted MR imaging (DWI) on its own and combined with the slice-select gradient-reversal (SSGR) technique. Imaging was performed using dedicated breast imaging coils.Results: Complete suppression of the fat and silicone signal was possible at 3.0 T using EPI DWI with STIR and SSGR, evaluated with dedicated breast coils. However, a residual silicone signal was still perceptible at 1.5 T using this combined approach. Nevertheless, a further reduction in silicone signal at 1.5 T could be achieved by employing thinner slice partitions and the addition of the chemical-selective fat-suppression (CHESS) technique.Conclusions: DWI using combined STIR and SSGR chemical suppression techniques is feasible to eliminate or reduce silicone signal from prosthetic breast implants.Key Points: Breast magnetic resonance imaging (MRI) is frequently needed following breast implants. Unsuppressed signal from silicone creates artefacts on diffusion-weighted MR sequences. Dual fat/chemical suppression can eliminate signal from fat and silicone. STIR with slice selective gradient reversal can suppress fat and silicone signal. [ABSTRACT FROM AUTHOR]

Published

2012

3. Measurement reproducibility of perfusion fraction and pseudodiffusion coefficient derived by intravoxel incoherent motion diffusion-weighted MR imaging in normal liver and metastases.

Author

Andreou, A., Koh, D., Collins, D., Blackledge, M., Wallace, T., Leach, M., and Orton, M.

Subjects

PERFUSION, LIVER cancer, LIVER metastasis, MAGNETIC resonance imaging, LEAST squares

Abstract

Objective: To determine the measurement reproducibility of perfusion fraction f, pseudodiffusion coefficient D and diffusion coefficient D in colorectal liver metastases and normal liver. Methods: Fourteen patients with known colorectal liver metastases were examined twice using respiratory-triggered echo-planar DW-MRI with eight b values (0 to 900 s/mm) 1 h apart. Regions of interests were drawn around target metastasis and normal liver in each patient to derive ADC (all b values), ADC ( b values ≥100 s/mm) and intravoxel incoherent motion (IVIM) parameters f, D and D by least squares data fitting. Short-term measurement reproducibility of median ADC, ADC, f, D and D values were derived from Bland-Altman analysis. Results: The measurement reproducibility for ADC, ADC and D was worst in colorectal liver metastases (−21 % to +25 %) compared with liver parenchyma (−6 % to +8 %). Poor measurement reproducibility was observed for the perfusion-sensitive parameters of f (−75 % to +241 %) and D (−89 % to +2,120 %) in metastases, and to a lesser extent the f (−24 % to +25 %) and D* (−31 % to +59 %) of liver. Conclusions: Estimates of f and D derived from the widely used least squares IVIM fitting showed poor measurement reproducibility. Efforts should be made to improve the measurement reproducibility of perfusion-sensitive IVIM parameters. Key Points: • Quantitative diffusion-weighted MRI parameters are increasingly used for clinical management decisions. • However perfusion-sensitive intravoxel incoherent motion (IVIM) parameters showed poor measurement reproducibility. • Measurement reproducibility of IVIM parameters was worse in metastases than normal liver. • Efforts to improve measurement reproducibility of IVIM parameters should be explored. [ABSTRACT FROM AUTHOR]

Published

2013

4. Optimising diffusion-weighted imaging in the abdomen and pelvis: comparison of image quality between monopolar and bipolar single-shot spin-echo echo-planar sequences.

Author

Kyriazi S, Blackledge M, Collins DJ, Desouza NM, Kyriazi, Stavroula, Blackledge, Matthew, Collins, David J, and Desouza, Nandita M

Abstract

Objective: To compare geometric distortion, signal-to-noise ratio (SNR), apparent diffusion coefficient (ADC), efficacy of fat suppression and presence of artefact between monopolar (Stejskal and Tanner) and bipolar (twice-refocused, eddy-current-compensating) diffusion-weighted imaging (DWI) sequences in the abdomen and pelvis.Materials and Methods: A semiquantitative distortion index (DI) was derived from the subtraction images with b = 0 and 1,000 s/mm(2) in a phantom and compared between the two sequences. Seven subjects were imaged with both sequences using four b values (0, 600, 900 and 1,050 s/mm(2)) and SNR, ADC for different organs and fat-to-muscle signal ratio (FMR) were compared. Image quality was evaluated by two radiologists on a 5-point scale.Results: DI was improved in the bipolar sequence, indicating less geometric distortion. SNR was significantly lower for all tissues and b values in the bipolar images compared with the monopolar (p < 0.05), whereas FMR was not statistically different. ADC in liver, kidney and sacrum was higher in the bipolar scheme compared to the monopolar (p < 0.03), whereas in muscle it was lower (p = 0.018). Image quality scores were higher for the bipolar sequence (p ≤ 0.025).Conclusion: Artefact reduction makes the bipolar DWI sequence preferable in abdominopelvic applications, although the trade-off in SNR may compromise ADC measurements in muscle. [ABSTRACT FROM AUTHOR]

Published

2010

5. Reproducibility and changes in the apparent diffusion coefficients of solid tumours treated with combretastatin A4 phosphate and bevacizumab in a two-centre phase I clinical trial.

Author

Koh DM, Blackledge M, Collins DJ, Padhani AR, Wallace T, Wilton B, Taylor NJ, Stirling JJ, Sinha R, Walicke P, Leach MO, Judson I, Nathan P, Koh, Dow-Mu, Blackledge, Matthew, Collins, David J, Padhani, Anwar R, Wallace, Toni, Wilton, Benjamin, and Taylor, N Jane

Abstract

The purpose was to determine the reproducibility of apparent diffusion coefficient (ADC) measurements in a two-centre phase I clinical trial; and to track ADC changes in response to the sequential administration of the vascular disrupting agent, combretastatin A4 phosphate (CA4P), and the anti-angiogenic drug, bevacizumab. Sixteen patients with solid tumours received CA4P and bevacizumab treatment. Echo-planar diffusion-weighted MRI was performed using six b values (b = 0-750 s/mm(2)) before (x2), and at 3 and 72 h after a first dose of CA4P. Bevacizumab was given 4 h after a second dose of CA4P, and imaging performed 3 h post CA4P and 72 h after bevacizumab treatment. The coefficient of repeatability (r) of ADC total (all b values), ADC high (b = 100-750) and ADC low (b = 0-100) was calculated by Bland-Altman analysis. The ADC total and ADC high showed good measurement reproducibility (r% = 13.3, 14.1). There was poor reproducibility of the perfusion-sensitive ADC low (r% = 62.5). Significant increases in the median ADC total and ADC high occurred at 3 h after the second dose of CA4P (p < 0.05). ADC measurements were highly reproducible in a two-centre clinical trial setting and appear promising for evaluating the effects of drugs that target tumour vasculature. [ABSTRACT FROM AUTHOR]

Published

2009

6. NMR structures of the C-terminal end of human complement serine pratease Cls

Author

Gans, P., Rossi, V., Gaboriaud, C., Bally, I., Hernandez, J.- F., Blackledge, M. J., and Arlaud, G. J.

Published

1998

7. Human primary brain tumour metabolism in vivo: a phosphorus magnetic resonance spectroscopy study.

Author

Cadoux-Hudson, TAD, Blackledge, MJ, Rajagopalan, B, Taylor, DJ, Radda, GK, Cadoux-Hudson, T A, Blackledge, M J, Taylor, D J, and Radda, G K

Published

1989

8. Measurement of Phosphocreatine to ATP Ratio in Normal and Diseased Human Heart by 31P Magnetic Resonance Spectroscopy Using the Rotating Frame-Depth Selection Techniquea.

Author

RAJAGOPALAN, B., BLACKLEDGE, M. J., McKENNA, W. J., BOLAS, N., and RADDA, G. K.

Published

1987

9. Increased Sensitivity to Renal Ischaemia During Haemorrhagic Hypotension Demonstrated in the Spontaneously Hypertensive Rat by31P-Nuclear Magnetic Resonance.

Author

Ratcliffe, P J, Holloway, P A, Moonen, C T W, Blackledge, M, Ledingham, J G G, and Radda, G K

Published

1985