Your search keyword '"Johansen, Mette"' showing total 6 results

1. Special Issue Introduction: Intimate Belongings—Kinship and State Relatedness in Migrant Families in Denmark.

Author

Johansen, Mette-Louise E. and Grøn, Lone

Subjects

*CHRONOLOGY, *DEMOGRAPHY

Published

2022

2. Intimate Belonging—Intimate Becoming: How Police Officers and Migrant Gang Defectors Seek to (Re)shape Ties of Belonging in Denmark.

Author

Johansen, Mette-Louise E.

Subjects

*DIASPORA, *WOMEN immigrants, *WELFARE economics, *KINSHIP, *SOCIAL context

Abstract

This article examines the ways that Danish gang exit programs engage police officers and gang defectors in a pervasive work on belonging between gangs, kinship networks and the state. In urban Denmark, the majority of gang exit candidates are of ethnic-minority background and form part of the street-gang environment in marginalized migrant neighborhoods. This is an intimate social environment constituted by diasporic kinship networks, where gang formations are entangled with kinship formations. Hence, when gang defectors leave their gang, they also often leave their family and childhood home for a life in unfamiliar places and positions. As I show, gang desistance is thus a highly dilemmatic process in which gang defectors find themselves "unhinged" from meaningful social and kinship relationships and in search of new ways of embedding themselves into a social world. Based on an ethnographic study of gang exit processes in Denmark's second largest city, Aarhus, this article shows how police officers and gang defectors seek to (re)shape ties of belonging between gangs, kinship networks and the state. The process, I argue, illuminates the intimate aspect of the notion of belonging, in which kin and state relatedness is deeply rooted in interpersonal spaces and relationships. [ABSTRACT FROM AUTHOR]

Published

2022

3. Molecular Imaging of Tumors Using a Quantitative T1 Mapping Technique via Magnetic Resonance Imaging.

Author

Herrmann, Kelsey, Johansen, Mette L., Craig, Sonya E., Vincent, Jason, Howell, Michael, Ying Gao, Lan Lu, Erokwu, Bernadette, Agnes, Richard S., Zheng-Rong Lu, Pokorski, Jonathan K., Basilion, James, Gulani, Vikas, Griswold, Mark, Flask, Chris, and Brady-Kalnay, Susann M.

Subjects

*MUCINOUS adenocarcinoma, *ONCOLOGY, *CYSTS (Pathology), *RESONANT states, *MAGNETIC moments

Abstract

Magnetic resonance imaging (MRI) of glioblastoma multiforme (GBM) with molecular imaging agents would allow for the specific localization of brain tumors. Prior studies using T1-weighted MR imaging demonstrated that the SBK2-Tris-(Gd-DOTA)3 molecular imaging agent labeled heterotopic xenograft models of brain tumors more intensely than non-specific contrast agents using conventional T1-weighted imaging techniques. In this study, we used a dynamic quantitative T1 mapping strategy to more objectively compare intra-tumoral retention of the SBK2-Tris-(Gd-DOTA)3 agent over time in comparison to non-targeted control agents. Our results demonstrate that the targeted SBK2-Tris-(Gd-DOTA)3 agent, a scrambled-Tris-(Gd-DOTA)3 control agent, and the non-specific clinical contrast agent Optimark™ all enhanced flank tumors of human glioma cells with similar maximal changes on T1 mapping. However, the retention of the agents differs. The non-specific agents show significant recovery within 20 min by an increase in T1 while the specific agent SBK2-Tris-(Gd-DOTA)3 is retained in the tumors and shows little recovery over 60 min. The retention effect is demonstrated by percent change in T1 values and slope calculations as well as by calculations of gadolinium concentration in tumor compared to muscle. Quantitative T1 mapping demonstrates the superior binding and retention in tumors of the SBK2-Tris-(Gd-DOTA)3 agent over time compared to the non-specific contrast agent currently in clinical use. [ABSTRACT FROM AUTHOR]

Published

2015

4. Ultrasound-Based Molecular Imaging of Tumors with PTPmu Biomarker-Targeted Nanobubble Contrast Agents.

Author

Johansen, Mette L., Perera, Reshani, Abenojar, Eric, Wang, Xinning, Vincent, Jason, Exner, Agata A., Brady-Kalnay, Susann M., and Kishore, Uday

Subjects

*MICROBUBBLE diagnosis, *PROTEIN-tyrosine phosphatase, *CONTRAST-enhanced ultrasound, *ULTRASONIC imaging, *PHOSPHOPROTEIN phosphatases, *ULTRASOUND contrast media

Abstract

Ultrasound imaging is a widely used, readily accessible and safe imaging modality. Molecularly-targeted microbubble- and nanobubble-based contrast agents used in conjunction with ultrasound imaging expand the utility of this modality by specifically targeting and detecting biomarkers associated with different pathologies including cancer. In this study, nanobubbles directed to a cancer biomarker derived from the Receptor Protein Tyrosine Phosphatase mu, PTPmu, were evaluated alongside non-targeted nanobubbles using contrast enhanced ultrasound both in vitro and in vivo in mice. In vitro resonant mass and clinical ultrasound measurements showed gas-core, lipid-shelled nanobubbles conjugated to either a PTPmu-directed peptide or a Scrambled control peptide were equivalent. Mice with heterotopic human tumors expressing the PTPmu-biomarker were injected with PTPmu-targeted or control nanobubbles and dynamic contrast-enhanced ultrasound was performed. Tumor enhancement was more rapid and greater with PTPmu-targeted nanobubbles compared to the non-targeted control nanobubbles. Peak tumor enhancement by the PTPmu-targeted nanobubbles occurred within five minutes of contrast injection and was more than 35% higher than the Scrambled nanobubble signal for the subsequent two minutes. At later time points, the signal in tumors remained higher with PTPmu-targeted nanobubbles demonstrating that PTPmu-targeted nanobubbles recognize tumors using molecular ultrasound imaging and may be useful for diagnostic and therapeutic purposes. [ABSTRACT FROM AUTHOR]

Published

2021

5. Detection of Tumor-Specific PTPmu in Gynecological Cancer and Patient Derived Xenografts.

Author

Vincent, Jason, Craig, Sonya E. L., Johansen, Mette L., Narla, Jyosthna, Avril, Stefanie, DiFeo, Analisa, Brady-Kalnay, Susann M., and Pavlik, Edward J.

Subjects

CELL adhesion molecules, CANCER patients, XENOGRAFTS, GYNECOLOGIC cancer, PEPTIDE antibiotics, OVARIAN cancer, WARNING labels

Abstract

Background: We developed a fluorophore-conjugated peptide agent, SBK4, that detects a tumor-specific proteolyzed form of the cell adhesion molecule, PTPmu, found in the tumor microenvironment. We previously demonstrated its tissue specific distribution in high-grade brain tumors. To extend those studies to other aggressive solid tumor types, we assessed the tissue distribution of PTPmu/SBK4 in a set of matched gynecologic cancer patient derived xenografts (PDXs) and primary patient tumors, as well as a limited cohort of tumors from gynecological cancer patients. PDXs isolated from the tissues of cancer patients have been shown to yield experimentally manipulatable models that replicate the clinical characteristics of individual patients' tumors. In this study, gynecological cancer PDXs and patient biopsies were examined to determine if tumor-specific proteolyzed PTPmu was present. Methods: We used the peptide agent SBK4 conjugated to the fluorophore Texas Red (TR) to label tumor tissue microarrays (TMAs) containing patient and/or PDX samples from several high-grade gynecologic cancer types, and quantified the level of staining with Image J. In one TMA, we were able to directly compare the patient and the matched PDX tissue on the same slide. Results: While normal tissue had very little SBK4-TR staining, both primary tumor tissue and PDXs have higher labeling with SBK4-TR. Matched PDXs and patient samples from high-grade endometrial and ovarian cancers demonstrated higher levels of PTPmu by staining with SBK4 than normal tissue. Conclusion: In this sample set, all PDXs and high-grade ovarian cancer samples had increased labeling by SBK4-TR compared with the normal controls. Our results indicate that proteolyzed PTPmu and its novel peptide detection agent, SBK4, allow for the visualization of tumor-specific changes in cell adhesion molecules by tissue-based staining, providing a rationale for further development as an imaging agent in aggressive solid tumors, including gynecological cancers. [ABSTRACT FROM AUTHOR]

Published

2021

6. A PTPmu Biomarker is Associated with Increased Survival in Gliomas.

Author

Johansen, Mette L., Vincent, Jason, Gittleman, Haley, Craig, Sonya E. L., Couce, Marta, Sloan, Andrew E., Barnholtz-Sloan, Jill S., and Brady-Kalnay, Susann M.

Subjects

*GLIOBLASTOMA multiforme, *CELL adhesion, *GLIOMAS, *PATIENTS, BRAIN tumor diagnosis

Abstract

An integrated approach has been adopted by the World Health Organization (WHO) for diagnosing brain tumors. This approach relies on the molecular characterization of biopsied tissue in conjunction with standard histology. Diffuse gliomas (grade II to grade IV malignant brain tumors) have a wide range in overall survival, from months for the worst cases of glioblastoma (GBM) to years for lower grade astrocytic and oligodendroglial tumors. We previously identified a change in the cell adhesion molecule PTPmu in brain tumors that results in the generation of proteolytic fragments. We developed agents to detect this cell surface-associated biomarker of the tumor microenvironment. In the current study, we evaluated the PTPmu biomarker in tissue microarrays and individual tumor samples of adolescent and young adult (n = 25) and adult (n = 69) glioma populations using a fluorescent histochemical reagent, SBK4-TR, that recognizes the PTPmu biomarker. We correlated staining with clinical data and found that high levels of the PTPmu biomarker correlate with increased survival of glioma patients, including those with GBM. Patients with high PTPmu live for 48 months on average, whereas PTPmu low patients live only 22 months. PTPmu high staining indicates a doubling of patient survival. Use of the agent to detect the PTPmu biomarker would allow differentiation of glioma patients with distinct survival outcomes and would complement current molecular approaches used in glioma prognosis. [ABSTRACT FROM AUTHOR]

Published

2019