Abstract 2789: Highly multiplexed imaging mass cytometry reveals immune cell composition and spatial heterogeneity in diffuse large B cell lymphoma associated with treatment outcome

Hav, Monirath; Gerdtsson, Erik; Singh, Mohan; Colombo, Anthony; Hicks, James; Kühn, Peter; Siddiqi, Imran; Merchant, Akil

doi:10.1158/1538-7445.am2019-2789

Cited by 4 publications

(3 citation statements)

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“…Genotypic profiles in ctDNA strongly correlate with profiles in tumor tissue. 4. Unique mutations can be detected from ctDNA not detected in tumor tissue.…”

Section: Biological Principlesmentioning

confidence: 99%

“…The criteria that determine the quality of treatment response rely on imaging scans such as computerized tomography (CT) and FDG-positron emission tomography (PET) scans, which lack sensitivity to detect minimal residual disease (MRD) or clonogenic selection (2). Indeed, genomic profiling currently requires invasive tissue biopsies, which are limited by sampling error and do not capture spatial tumor heterogeneity or treatment-emergent clonal evolution (3)(4)(5). Further, tissue biopsies are problematic for numerous anatomic sites such as the central nervous system and deep abdominal compartments.…”

Section: Introductionmentioning

confidence: 99%

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Circulating Tumor DNA in Lymphoma: Principles and Future Directions

Roschewski

Rossi

Kurtz

et al. 2022

Blood Cancer Discovery

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Lymphomas are heterogeneous tumors with striking genetic diversity and variable outcomes even within pathologic diagnoses. Treatment response assessment relies on radiologic and nuclear scans, which cannot detect disease at the molecular level. Molecular tumor analyses require invasive tissue biopsies that cannot accurately capture spatial tumor heterogeneity within each patient. Circulating tumor DNA (ctDNA) is a minimally invasive and highly versatile biomarker that overcomes fundamental limitations of imaging scans and tissue biopsies and may aid clinical decision-making in lymphoma. In this review, we highlight the key established principles regarding ctDNA in lymphoma and emphasize the important research questions and future directions.Significance: ctDNA is an emerging biomarker for lymphomas that noninvasively provides genotypic information and can measure the effectiveness of treatment by detecting the presence of minimal residual disease. Key principles have emerged related to ctDNA for lymphoma, but further studies are needed to standardize its use and establish clinical utility.

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“…Genotypic profiles in ctDNA strongly correlate with profiles in tumor tissue. 4. Unique mutations can be detected from ctDNA not detected in tumor tissue.…”

Section: Biological Principlesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Circulating Tumor DNA in Lymphoma: Principles and Future Directions

Roschewski

Rossi

Kurtz

et al. 2022

Blood Cancer Discovery

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“…At the opposite, markers of exhaustion (Tim3 and Lag3) were associated with refractory disease as was the location of CD4+ T cell further away from the blood vessels. By leading separate analysis in large B-cell lymphoma of germinal center B-cell-like and non-germinal center B-cell-like subtypes, in the latter, high level of regulatory T cells was also associated with refractory disease ( 51 ).…”

Section: Applications Of Imaging Mass Cytometry In Cancer-dedicated S...mentioning

confidence: 99%

Application of High-Throughput Imaging Mass Cytometry Hyperion in Cancer Research

Rochais

Hémon²,

Pers³

et al. 2022

Front. Immunol.

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Imaging mass cytometry (IMC) enables the in situ analysis of in-depth-phenotyped cells in their native microenvironment within the preserved architecture of a single tissue section. To date, it permits the simultaneous analysis of up to 50 different protein- markers targeted by metal-conjugated antibodies. The application of IMC in the field of cancer research may notably help 1) to define biomarkers of prognostic and theragnostic significance for current and future treatments against well-established and novel therapeutic targets and 2) to improve our understanding of cancer progression and its resistance mechanisms to immune system and how to overcome them. In the present article, we not only provide a literature review on the use of the IMC in cancer-dedicated studies but we also present the IMC method and discuss its advantages and limitations among methods dedicated to deciphering the complexity of cancer tissue.

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DNA‐Guided Extracellular‐Vesicle Metallization with High Catalytic Activity for Accurate Diagnosis of Pulmonary Nodules

Chen

Songzhi

et al. 2023

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Sensitive and specific analysis of extracellular vesicles (EVs) offers a promising minimally invasive way to identify malignant pulmonary nodules from benign lesions. However, accurate analysis of EVs is subject to free target proteins in blood samples, which compromises the clinical diagnosis value of EVs. Here a DNA‐guided extracellular‐vesicle metallization (DEVM) strategy is described for ultrasensitive and specific analysis of EV protein biomarkers and classification of pulmonary nodules. The facile DEVM process mainly includes the incorporation of DNA labeled with cholesterol and thiol groups into EV membranes and subsequent deposition of Au3+ and Pt4+ to allow the DNA‐functionalized EVs to be encapsulated with AuPt nanoshells. It is found that the synthesized AuPt‐metallized EVs possess extrinsic peroxidase‐like activity. Utilizing the feature of the catalytic metal nanoshells just growth on the EV membranes, the DEVM method enables multiparametric recognition of target proteins and EV membranes and can produce an amplified colorimetric signal, avoiding the interference of free proteins. By profiling four surface proteins of EVs from 48 patients with pulmonary nodules, the highest area under the receiver operating characteristic curve (0.9983) is obtained. Therefore, this work provides a feasible EVs analysis tool for accurate pulmonary nodules management.

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Abstract 2789: Highly multiplexed imaging mass cytometry reveals immune cell composition and spatial heterogeneity in diffuse large B cell lymphoma associated with treatment outcome

Cited by 4 publications

References 0 publications

Circulating Tumor DNA in Lymphoma: Principles and Future Directions

Circulating Tumor DNA in Lymphoma: Principles and Future Directions

Application of High-Throughput Imaging Mass Cytometry Hyperion in Cancer Research

DNA‐Guided Extracellular‐Vesicle Metallization with High Catalytic Activity for Accurate Diagnosis of Pulmonary Nodules

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