Your search keyword '"Rodriguez Gutierrez, D."' showing total 8 results

1. Post-processing analysis for magnetic resonance renography

Author

Rodriguez Gutierrez, D.

Subjects

616.6107548

Abstract

Functional studies are routinely performed to provide quantitative evaluations of renal function. Of these, Nuclear Radioisotope Renography is the current technology of choice in clinical studies. However, there has been considerable interest in using Magnetic Resonance (MR) in these studies, motivated by avoidance of the use of ionising radiation, which is particularly attractive for paediatric subjects and by the availability of high quality anatomical and functional information within a single investigation, thus allowing simultaneous observation of pathology and renal function. The overarching factor preventing widespread use of MR Renography is the lack of image processing techniques capable of robust extraction of quantitative information from the available data. The work presented in this thesis is aimed at addressing this issue. A methodology for estimating renal function is proposed. Movement correction of Dynamic Contrast Enhanced Magnetic Resonance Imaging (DCE-MRI) data was performed using a 3D movement correction method based on the phase difference of time-adjacent data volumes. This was followed by a novel approach demonstrating the first Partial Volume (PV) Effect correction on MR Renography data. For a typical renal Region of Interest, the observed intensity for each voxel was de-composed into its constituent parts, corresponding to the contributions from each tissue, using knowledge of the Point Spread Function (PSF) and high-resolution registered templates for each anatomical tissue type. Thus, non-renal contributions from liver, spleen and other surrounding tissues could be eliminated from time-intensity curves. This produced a change the renal curve that resulted in enhanced Glomerular Filtration Rate (GFR) estimates, as per a Rutland-Patlak analysis of the time intensity data: a cohort of 10 healthy volunteers produced a mean enhancement of 36% in relative GFR with a mean improvement of 5% in R2 fitting the Rutland-Patlak model when PV correction was applied compared to no PV correction. PV correction in small structures (with respect to the PSF) corresponding to arterial vasculature were also investigated using a statistical Partial Volume classifier and a novel mixing prior that models more closely asymmetries in intensity distributions related to small object size than others proposed in the literature. Classifier performance was found to be approximately inversely proportional to Contrast to Noise. An intensity recovery step was also proposed for Arterial Input Functions derived from such small objects. The resolution of the PSF of the DCE-MRI sequence was found to similar to typical aortic diameters and therefore would present intensity reductions due to the PV Effect of ~ 60% that need to be recovered. This work has shown that in addition to movement correction, contrast agent quantification and accurate modelling, absolute GFR measurement via DCE-MRI is significantly affected by the PV Effect, and as such must be robustly accounted for.

Published

2008

2. Post-ischaemic silencing of p66Shc reduces ischaemia/reperfusion brain injury and its expression correlates to clinical outcome in stroke

Author

Spescha, R.D., Klohs, J., Semerano, A., Giacalone, G., Derungs, R.S., Reiner, M.F., Rodriguez Gutierrez, D., Mendez-Carmona, N., Glanzmann, M., Savarese, G., Kränkel, N., Akhmedov, A., Keller, S., Mocharla, P., Kaufmann, M.R., Wenger, R.H., Vogel, J., Kulic, L., Nitsch, R.M., Beer, J.H., Peruzzotti-Jametti, L., Sessa, M., Lüscher, T.F., Camici, G.G., Spescha, R.D., Klohs, J., Semerano, A., Giacalone, G., Derungs, R.S., Reiner, M.F., Rodriguez Gutierrez, D., Mendez-Carmona, N., Glanzmann, M., Savarese, G., Kränkel, N., Akhmedov, A., Keller, S., Mocharla, P., Kaufmann, M.R., Wenger, R.H., Vogel, J., Kulic, L., Nitsch, R.M., Beer, J.H., Peruzzotti-Jametti, L., Sessa, M., Lüscher, T.F., and Camici, G.G.

Abstract

In light of the limited repertoire of therapeutical options available for the treatment of ischaemic stroke, the identification of novel potential targets is vital; in this respect, the present study demonstrates that the adaptor protein p66Shc holds this potential as an adjunct therapy to thrombolysis. Post-ischaemic silencing of p66Shc protein yielded beneficial effects in a mouse model of I/R brain injury underlying an interesting translational perspective for this target protein. Further, in proof-of-principle clinical experiments using PBMs, we demonstrate that p66Shc gene expression is transiently increased and that its levels correlate to short-term outcome in ischaemic stroke patients. Although these latter experiments are not directly relevant to the experiments performed in mice and in human endothelial cells, they provide novel important information about p66Shc regulation in stroke patients and set the basis for further investigations aimed at assessing the potential for p66Shc to become a novel therapeutic target as an adjunct of thrombolysis for the management of acute ischaemic stroke

Published

2017

3. Post-ischaemic silencing of p66Shc reduces ischaemia/reperfusion brain injury and its expression correlates to clinical outcome in stroke

Author

Spescha, R D, Klohs, J, Semerano, A, Giacalone, G, Derungs, R S, Reiner, M F, Rodriguez Gutierrez, D, Mendez-Carmona, N, Glanzmann, M, Savarese, G, Kränkel, N, Akhmedov, A, Keller, S, Mocharla, P, Kaufmann, M R, Wenger, R H, Vogel, J, Kulic, L, Nitsch, R M, Beer, J H, Peruzzotti-Jametti, L, Sessa, Maria, Lüscher, Thomas F, Camici, G G, Spescha, R D, Klohs, J, Semerano, A, Giacalone, G, Derungs, R S, Reiner, M F, Rodriguez Gutierrez, D, Mendez-Carmona, N, Glanzmann, M, Savarese, G, Kränkel, N, Akhmedov, A, Keller, S, Mocharla, P, Kaufmann, M R, Wenger, R H, Vogel, J, Kulic, L, Nitsch, R M, Beer, J H, Peruzzotti-Jametti, L, Sessa, Maria, Lüscher, Thomas F, and Camici, G G

Abstract

Aim: Constitutive genetic deletion of the adaptor protein p66Shc was shown to protect from ischaemia/reperfusion injury. Here, we aimed at understanding the molecular mechanisms underlying this effect in stroke and studied p66Shc gene regulation in human ischaemic stroke. Methods and Results: Ischaemia/reperfusion brain injury was induced by performing a transient middle cerebral artery occlusion surgery on wild-type mice. After the ischaemic episode and upon reperfusion, small interfering RNA targeting p66Shc was injected intravenously. We observed that post-ischaemic p66Shc knockdown preserved blood-brain barrier integrity that resulted in improved stroke outcome, as identified by smaller lesion volumes, decreased neurological deficits, and increased survival. Experiments on primary human brain microvascular endothelial cells demonstrated that silencing of the adaptor protein p66Shc preserves claudin-5 protein levels during hypoxia/reoxygenation by reducing nicotinamide adenine dinucleotide phosphate oxidase activity and reactive oxygen species production. Further, we found that in peripheral blood monocytes of acute ischaemic stroke patients p66Shc gene expression is transiently increased and that this increase correlates with short-term neurological outcome. Conclusion: Post-ischaemic silencing of p66Shc upon reperfusion improves stroke outcome in mice while the expression of p66Shc gene correlates with short-term outcome in patients with ischaemic stroke.

Published

2015

4. Metrics and textural features of MRI diffusion to improve classification of pediatric posterior fossa tumors

Author

Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., Auer, Dorothee P., Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., and Auer, Dorothee P.

Abstract

BACKGROUND AND PURPOSE: Qualitative radiologic MR imaging review affords limited differentiation among types of pediatric posterior fossa brain tumors and cannot detect histologic or molecular subtypes, which could help to stratify treatment. This study aimed to improve current posterior fossa discrimination of histologic tumor type by using support vector machine classifiers on quantitative MR imaging features. MATERIALS AND METHODS: This retrospective study included preoperative MRI in 40 children with posterior fossa tumors (17 medulloblastomas, 16 pilocytic astrocytomas, and 7 ependymomas). Shape, histogram, and textural features were computed from contrast-enhanced T2WI and T1WI and diffusivity (ADC) maps. Combinations of features were used to train tumor-type-specific classifiers for medulloblastoma, pilocytic astrocytoma, and ependymoma types in separation and as a joint posterior fossa classifier. A tumor-subtype classifier was also produced for classic medulloblastoma. The performance of different classifiers was assessed and compared by using randomly selected subsets of training and test data. RESULTS: ADC histogram features (25th and 75th percentiles and skewness) yielded the best classification of tumor type (on average >95.8% of medulloblastomas, >96.9% of pilocytic astrocytomas, and >94.3% of ependymomas by using 8 training samples). The resulting joint posterior fossa classifier correctly assigned >91.4% of the posterior fossa tumors. For subtype classification, 89.4% of classic medulloblastomas were correctly classified on the basis of ADC texture features extracted from the Gray-Level Co-Occurence Matrix. CONCLUSIONS: Support vector machine–based classifiers using ADC histogram features yielded very good discrimination among pediatric posterior fossa tumor types, and ADC textural features show promise for further subtype discrimination. These findings suggest an added diagnostic value of quantitative feature analysis of diffusion MR imaging in pedi

5. Metrics and textural features of MRI diffusion to improve classification of pediatric posterior fossa tumors

Author

Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., Auer, Dorothee P., Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., and Auer, Dorothee P.

Abstract

BACKGROUND AND PURPOSE: Qualitative radiologic MR imaging review affords limited differentiation among types of pediatric posterior fossa brain tumors and cannot detect histologic or molecular subtypes, which could help to stratify treatment. This study aimed to improve current posterior fossa discrimination of histologic tumor type by using support vector machine classifiers on quantitative MR imaging features. MATERIALS AND METHODS: This retrospective study included preoperative MRI in 40 children with posterior fossa tumors (17 medulloblastomas, 16 pilocytic astrocytomas, and 7 ependymomas). Shape, histogram, and textural features were computed from contrast-enhanced T2WI and T1WI and diffusivity (ADC) maps. Combinations of features were used to train tumor-type-specific classifiers for medulloblastoma, pilocytic astrocytoma, and ependymoma types in separation and as a joint posterior fossa classifier. A tumor-subtype classifier was also produced for classic medulloblastoma. The performance of different classifiers was assessed and compared by using randomly selected subsets of training and test data. RESULTS: ADC histogram features (25th and 75th percentiles and skewness) yielded the best classification of tumor type (on average >95.8% of medulloblastomas, >96.9% of pilocytic astrocytomas, and >94.3% of ependymomas by using 8 training samples). The resulting joint posterior fossa classifier correctly assigned >91.4% of the posterior fossa tumors. For subtype classification, 89.4% of classic medulloblastomas were correctly classified on the basis of ADC texture features extracted from the Gray-Level Co-Occurence Matrix. CONCLUSIONS: Support vector machine–based classifiers using ADC histogram features yielded very good discrimination among pediatric posterior fossa tumor types, and ADC textural features show promise for further subtype discrimination. These findings suggest an added diagnostic value of quantitative feature analysis of diffusion MR imaging in pedi

6. Metrics and textural features of MRI diffusion to improve classification of pediatric posterior fossa tumors

Author

Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., Auer, Dorothee P., Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., and Auer, Dorothee P.

Abstract

BACKGROUND AND PURPOSE: Qualitative radiologic MR imaging review affords limited differentiation among types of pediatric posterior fossa brain tumors and cannot detect histologic or molecular subtypes, which could help to stratify treatment. This study aimed to improve current posterior fossa discrimination of histologic tumor type by using support vector machine classifiers on quantitative MR imaging features. MATERIALS AND METHODS: This retrospective study included preoperative MRI in 40 children with posterior fossa tumors (17 medulloblastomas, 16 pilocytic astrocytomas, and 7 ependymomas). Shape, histogram, and textural features were computed from contrast-enhanced T2WI and T1WI and diffusivity (ADC) maps. Combinations of features were used to train tumor-type-specific classifiers for medulloblastoma, pilocytic astrocytoma, and ependymoma types in separation and as a joint posterior fossa classifier. A tumor-subtype classifier was also produced for classic medulloblastoma. The performance of different classifiers was assessed and compared by using randomly selected subsets of training and test data. RESULTS: ADC histogram features (25th and 75th percentiles and skewness) yielded the best classification of tumor type (on average >95.8% of medulloblastomas, >96.9% of pilocytic astrocytomas, and >94.3% of ependymomas by using 8 training samples). The resulting joint posterior fossa classifier correctly assigned >91.4% of the posterior fossa tumors. For subtype classification, 89.4% of classic medulloblastomas were correctly classified on the basis of ADC texture features extracted from the Gray-Level Co-Occurence Matrix. CONCLUSIONS: Support vector machine–based classifiers using ADC histogram features yielded very good discrimination among pediatric posterior fossa tumor types, and ADC textural features show promise for further subtype discrimination. These findings suggest an added diagnostic value of quantitative feature analysis of diffusion MR imaging in pedi

7. Metrics and textural features of MRI diffusion to improve classification of pediatric posterior fossa tumors

Author

Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., Auer, Dorothee P., Rodriguez Gutierrez, D., Awwad, A., Meijer, Lisethe, Manita, M., Jaspan, T., Dineen, Robert A., Grundy, Richard G., and Auer, Dorothee P.

Abstract

BACKGROUND AND PURPOSE: Qualitative radiologic MR imaging review affords limited differentiation among types of pediatric posterior fossa brain tumors and cannot detect histologic or molecular subtypes, which could help to stratify treatment. This study aimed to improve current posterior fossa discrimination of histologic tumor type by using support vector machine classifiers on quantitative MR imaging features. MATERIALS AND METHODS: This retrospective study included preoperative MRI in 40 children with posterior fossa tumors (17 medulloblastomas, 16 pilocytic astrocytomas, and 7 ependymomas). Shape, histogram, and textural features were computed from contrast-enhanced T2WI and T1WI and diffusivity (ADC) maps. Combinations of features were used to train tumor-type-specific classifiers for medulloblastoma, pilocytic astrocytoma, and ependymoma types in separation and as a joint posterior fossa classifier. A tumor-subtype classifier was also produced for classic medulloblastoma. The performance of different classifiers was assessed and compared by using randomly selected subsets of training and test data. RESULTS: ADC histogram features (25th and 75th percentiles and skewness) yielded the best classification of tumor type (on average >95.8% of medulloblastomas, >96.9% of pilocytic astrocytomas, and >94.3% of ependymomas by using 8 training samples). The resulting joint posterior fossa classifier correctly assigned >91.4% of the posterior fossa tumors. For subtype classification, 89.4% of classic medulloblastomas were correctly classified on the basis of ADC texture features extracted from the Gray-Level Co-Occurence Matrix. CONCLUSIONS: Support vector machine–based classifiers using ADC histogram features yielded very good discrimination among pediatric posterior fossa tumor types, and ADC textural features show promise for further subtype discrimination. These findings suggest an added diagnostic value of quantitative feature analysis of diffusion MR imaging in pedi

8. Post-ischaemic silencing of p66Shc reduces ischaemia/reperfusion brain injury and its expression correlates to clinical outcome in stroke

Author

Spescha, R.D., Klohs, J., Semerano, A., Giacalone, G., Derungs, R.S., Reiner, M.F., Rodriguez Gutierrez, D., Mendez-Carmona, N., Glanzmann, M., Savarese, G., Kränkel, N., Akhmedov, A., Keller, S., Mocharla, P., Kaufmann, M.R., Wenger, R.H., Vogel, J., Kulic, L., Nitsch, R.M., Beer, J.H., Peruzzotti-Jametti, L., Sessa, M., Lüscher, T.F., Camici, G.G., Spescha, R.D., Klohs, J., Semerano, A., Giacalone, G., Derungs, R.S., Reiner, M.F., Rodriguez Gutierrez, D., Mendez-Carmona, N., Glanzmann, M., Savarese, G., Kränkel, N., Akhmedov, A., Keller, S., Mocharla, P., Kaufmann, M.R., Wenger, R.H., Vogel, J., Kulic, L., Nitsch, R.M., Beer, J.H., Peruzzotti-Jametti, L., Sessa, M., Lüscher, T.F., and Camici, G.G.

Abstract

In light of the limited repertoire of therapeutical options available for the treatment of ischaemic stroke, the identification of novel potential targets is vital; in this respect, the present study demonstrates that the adaptor protein p66Shc holds this potential as an adjunct therapy to thrombolysis. Post-ischaemic silencing of p66Shc protein yielded beneficial effects in a mouse model of I/R brain injury underlying an interesting translational perspective for this target protein. Further, in proof-of-principle clinical experiments using PBMs, we demonstrate that p66Shc gene expression is transiently increased and that its levels correlate to short-term outcome in ischaemic stroke patients. Although these latter experiments are not directly relevant to the experiments performed in mice and in human endothelial cells, they provide novel important information about p66Shc regulation in stroke patients and set the basis for further investigations aimed at assessing the potential for p66Shc to become a novel therapeutic target as an adjunct of thrombolysis for the management of acute ischaemic stroke