Your search keyword '"Maclean NA"' showing total 12 results

1. Prognostic stratification of glioblastoma patients by unsupervised clustering of morphology patterns on whole slide images furthering our disease understanding

Author

Bhakti Baheti, Shubham Innani, MacLean Nasrallah, and Spyridon Bakas

Subjects

glioblastoma, morphology, survival, clustering, stratification, computational pathology, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionGlioblastoma (GBM) is a highly aggressive malignant tumor of the central nervous system that displays varying molecular and morphological profiles, leading to challenging prognostic assessments. Stratifying GBM patients according to overall survival (OS) from H&E-stained whole slide images (WSI) using advanced computational methods is challenging, but with direct clinical implications.MethodsThis work is focusing on GBM (IDH-wildtype, CNS WHO Gr.4) cases, identified from the TCGA-GBM and TCGA-LGG collections after considering the 2021 WHO classification criteria. The proposed approach starts with patch extraction in each WSI, followed by comprehensive patch-level curation to discard artifactual content, i.e., glass reflections, pen markings, dust on the slide, and tissue tearing. Each patch is then computationally described as a feature vector defined by a pre-trained VGG16 convolutional neural network. Principal component analysis provides a feature representation of reduced dimensionality, further facilitating identification of distinct groups of morphology patterns, via unsupervised k-means clustering.ResultsThe optimal number of clusters, according to cluster reproducibility and separability, is automatically determined based on the rand index and silhouette coefficient, respectively. Our proposed approach achieved prognostic stratification accuracy of 83.33% on a multi-institutional independent unseen hold-out test set with sensitivity and specificity of 83.33%.DiscussionWe hypothesize that the quantification of these clusters of morphology patterns, reflect the tumor's spatial heterogeneity and yield prognostic relevant information to distinguish between short and long survivors using a decision tree classifier. The interpretability analysis of the obtained results can contribute to furthering and quantifying our understanding of GBM and potentially improving our diagnostic and prognostic predictions.

Published

2024

2. Live Organoid Cyclic Imaging

Author

David E. Reynolds, Yusha Sun, Xin Wang, Phoebe Vallapureddy, Jianhua Lim, Menghan Pan, Andres Fernandez Del Castillo, Jonathan C. T. Carlson, Mark A. Sellmyer, MacLean Nasrallah, Zev Binder, Donald M. O'Rourke, Guo‐li Ming, Hongjun Song, and Jina Ko

Subjects

biomarker discovery, bioorthogonal click‐chemistry, glioblastoma, longitudinal monitoring, multiplexing, organoids, Science

Abstract

Abstract Organoids are becoming increasingly relevant in biology and medicine for their physiological complexity and accuracy in modeling human disease. To fully assess their biological profile while preserving their spatial information, spatiotemporal imaging tools are warranted. While previously developed imaging techniques, such as four‐dimensional (4D) live imaging and light‐sheet imaging have yielded important clinical insights, these technologies lack the combination of cyclic and multiplexed analysis. To address these challenges, bioorthogonal click chemistry is applied to display the first demonstration of multiplexed cyclic imaging of live and fixed patient‐derived glioblastoma tumor organoids. This technology exploits bioorthogonal click chemistry to quench fluorescent signals from the surface and intracellular of labeled cells across multiple cycles, allowing for more accurate and efficient molecular profiling of their complex phenotypes. Herein, the versatility of this technology is demonstrated for the screening of glioblastoma markers in patient‐derived human glioblastoma organoids while conserving their viability. It is anticipated that the findings and applications of this work can be broadly translated into investigating physiological developments in other organoid systems.

Published

2024

3. 5 Severely immunodeficient NOG-EXL mice allow for humanization and development of a human glioblastoma-derived tumor microenvironment

Author

Cecile Alanio, Zev Binder, Donald O’Rourke, Charles-Antoine Assenmacher, Lamia Lamrani, Anthony Secreto, Nicholas Skuli, Moriah Jacobson, Elinor Willis, Enrico Radaelli, and Maclean Nasrallah

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

4. Abstract 113: A Curious Case of Macrovascular Arteriovenous Shunting in Glioblastoma Multiforme

Author

Ankita Brahmaroutu, Suehyb Alkhatib, Visish Srinivasan, Sara Stone, and Maclean Nasrallah

Subjects

Neurology. Diseases of the nervous system, RC346-429, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Introduction Arteriovenous shunting has been described in glioblastoma multiforme (GBM), also known as WHO grade 4 astrocytoma. This case report demonstrates the diagnostic dilemma of GBM, which was subsequently found to have macrovascular arteriovenous shunting. The lesion was initially treated as an ischemic stroke for months. Methods A 65‐year‐old‐man with a past medical history of hypertension, hyperlipidemia, and diabetes presented to a community hospital in February 2023 with worsening left‐sided weakness. The patient started having left‐sided weakness around December 2023, but no work‐up had been completed. The exam was notable for spastic hemiparesis. Results At the time of initial presentation, a non‐contrasted head computed tomography (NCHCT) was interpreted as normal. Magnetic resonance imaging (MRI) of the brain showed diffusion restriction and fluid attenuated inversion recovery (FLAIR) hyperintensity in the right corona radiata and was interpreted as a subacute right corona radiata and gangliocapsular infarct. Computed tomography angiogram (CTA) of the head and neck was unremarkable. He was discharged on aspirin and a high‐intensity statin. He re‐presented in April 2023 with sepsis and was found to have multiple pressure ulcers; his left‐sided weakness had worsened despite a course of inpatient rehabilitation. A repeat NCHCT demonstrated hyperdensity within the suspected infarct, interpreted as hemorrhagic transformation. The next day, he was found to be difficult to arouse and dysarthric. He was subsequently transferred to our institution for further management. On arrival, a CTA of the head and neck was performed, which suggested that the previously described hyperdensity was possibly a venous varix, and a thrombosed developmental venous anomaly or arteriovenous malformation was suggested. The patient then underwent an MRI brain with and without contrast, which noted that there was an increase in size of a heterogeneously enhancing mass centered in the posterior right basal ganglia/corona radiata with extension into right thalamus, right cerebral peduncle, and posterior right body of corpus callosum. The MRI findings were most consistent with GBM. Given the diagnostic uncertainty, the patient underwent a cerebral angiogram, which demonstrated a hypervascular posterior right basal ganglia mass with arteriovenous shunting from the middle cerebral artery to the internal cerebral veins. Shortly after, the patient underwent a brain biopsy, which demonstrated GBM (IDH‐wildtype, WHO grade 4). The patient was ultimately transitioned to hospice. Conclusion This case highlights the presence of macrovascular shunting in GBM. Intratumoral arteriovenous shunting in GBM has been described, and when present, can lead to delay in treatment due to the broadened differential diagnosis. This patient was first treated for an ischemic stroke with subsequent hemorrhagic transformation. Further imaging suggested a venous varix, thrombosed developmental venous anomaly, or arteriovenous malformation, but the combination of the cerebral angiogram and MRI led to the definitive diagnosis in a patient with a short survival period.

Published

2023

5. Case Report: Multilevel Ossification of the Ligamentum Flavum in a Patient With Spinal Osteoblastoma

Author

Canada T. Montgomery, Stephen P. Miranda, Ernest Nelson, Katie Louka, MacLean Nasrallah, Paul J. Zhang, Joel Stein, and Dmitriy Petrov

Subjects

spinal osteoblastoma, ossification of the ligamentum flavum, myelopathy, neurosurgery, neurological compromise, Surgery, RD1-811

Abstract

IntroductionSpinal osteoblastomas are primary benign bone tumors most commonly presenting as diffuse back pain in young adults. Rarely, spinal osteoblastoma is associated with ossification of the ligamentum flavum (OLF), a form of ectopic bone formation, which can present with myelopathy. This report highlights a unique case of a patient with spinal osteoblastoma, associated OLF, and thoracic myelopathy.Case DescriptionThe patient presented with subtle myelopathy consisting of mid-thoracic back pain, paresthesias, and gait instability. Imaging findings were suggestive of spinal osteoblastoma with multifocal OLF. The patient was consented for thoracic decompression and stabilization at the T6-10 levels. Histopathology confirmed osteoblastoma with associated OLF. At follow up, the patient’s neurological symptoms had completely resolved.ConclusionThis case describes management for a rare presentation of osteoblastoma with associated OLF and myelopathy. Surgeons should be wary of disproportionate neurological compromise when spinal osteoblastoma is associated with OLF. Further study is required to elucidate the pathogenesis of this condition.

Published

2022

6. Adoptive T cell immunotherapy for medullary thyroid carcinoma targeting GDNF family receptor alpha 4

Author

Vijay G. Bhoj, Lucy Li, Kalpana Parvathaneni, Zheng Zhang, Stephen Kacir, Dimitrios Arhontoulis, Kenneth Zhou, Bevin McGettigan-Croce, Selene Nunez-Cruz, Gayathri Gulendran, Alina C. Boesteanu, Laura Johnson, Michael D. Feldman, Enrico Radaelli, Keith Mansfield, MacLean Nasrallah, Rebecca S. Goydel, Haiyong Peng, Christoph Rader, Michael C. Milone, and Don L. Siegel

Subjects

Medullary thyroid carcinoma, immunotherapy, GFRa4, CAR T cells, RETMC, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Metastatic medullary thyroid cancer (MTC) is a rare but often aggressive thyroid malignancy with a 5-year survival rate of less than 40% and few effective therapeutic options. Adoptive T cell immunotherapy using chimeric antigen receptor (CAR)-modified T cells (CAR Ts) is showing encouraging results in the treatment of cancer, but development is challenged by the availability of suitable target antigens. We identified glial-derived neurotrophic factor (GDNF) family receptor alpha 4 (GFRα4) as a putative antigen target for CAR-based therapy of MTC. We show that GFRα4 is highly expressed in MTC, in parafollicular cells within the thyroid from which MTC originates, and in normal thymus. We isolated two single-chain variable fragments (scFvs) targeting GFRα4 isoforms a and b by antibody phage display. CARs bearing the CD3ζ and the CD137 costimulatory domains were constructed using these GFRα4-specific scFvs. GFRα4-specific CAR Ts trigger antigen-dependent cytotoxicity and cytokine production in vitro, and they are able to eliminate tumors derived from the MTC TT cell line in an immunodeficient mouse xenograft model of MTC. These data demonstrate the feasibility of targeting GFRα4 by CAR T and support this antigen as a promising target for adoptive T cell immunotherapy and other antibody-based therapies for MTC.

Published

2021

7. The second window ICG technique demonstrates a broad plateau period for near infrared fluorescence tumor contrast in glioblastoma.

Author

Ryan Zeh, Saad Sheikh, Leilei Xia, John Pierce, Andrew Newton, Jarrod Predina, Steve Cho, MacLean Nasrallah, Sunil Singhal, Jay Dorsey, and John Y K Lee

Subjects

Medicine, Science

Abstract

Fluorescence-guided surgery has emerged as a powerful tool to detect, localize and resect tumors in the operative setting. Our laboratory has pioneered a novel way to administer an FDA-approved near-infrared (NIR) contrast agent to help surgeons with this task. This technique, coined Second Window ICG, exploits the natural permeability of tumor vasculature and its poor clearance to deliver high doses of indocyanine green (ICG) to tumors. This technique differs substantially from established ICG video angiography techniques that visualize ICG within minutes of injection. We hypothesized that Second Window ICG can provide NIR optical contrast with good signal characteristics in intracranial brain tumors over a longer period of time than previously appreciated with ICG video angiography alone. We tested this hypothesis in an intracranial mouse glioblastoma model, and corroborated this in a human clinical trial.Intracranial tumors were established in 20 mice using the U251-Luc-GFP cell line. Successful grafts were confirmed with bioluminescence. Intravenous tail vein injections of 5.0 mg/kg (high dose) or 2.5 mg/kg (low dose) ICG were performed. The Perkin Elmer IVIS Spectrum (closed field) was used to visualize NIR fluorescence signal at seven delayed time points following ICG injection. NIR signals were quantified using LivingImage software. Based on the success of our results, human subjects were recruited to a clinical trial and intravenously injected with high dose 5.0 mg/kg. Imaging was performed with the VisionSense Iridium (open field) during surgery one day after ICG injection.In the murine model, the NIR signal-to-background ratio (SBR) in gliomas peaks at one hour after infusion, then plateaus and remains strong and stable for at least 48 hours. Higher dose 5.0 mg/kg improves NIR signal as compared to lower dose at 2.5 mg/kg (SBR = 3.5 vs. 2.8; P = 0.0624). Although early (≤ 6 hrs) visualization of the Second Window ICG accumulation in gliomas is stronger than late (≥24 hrs) visualization (SBR = 3.94 vs. 2.32; p

Published

2017

8. 2137 Percentage of viable tumor Versus radiation treatment effect in surgical specimens is not associated with outcomes in recurrent glioblastoma

Author

Robert D. Schwab, Stephen Bagley, Zev Binder, Robert Lustig, Donald O’Rourke, Steven Brem, Arati S. Desai, and MacLean Nasrallah

Subjects

Medicine

Abstract

OBJECTIVES/SPECIFIC AIMS: In patients with recurrent glioblastoma (GBM) who undergo a second surgery following standard chemoradiotherapy, histopathologic examination of the resected tissue often reveals a combination of viable tumor and treatment-related inflammatory changes. However, it remains unclear whether the degree of viable tumor Versus “treatment effect” in these specimens impacts prognosis. We sought to determine whether the percentage of viable tumor Versus “treatment effect” in recurrent GBM surgical samples, as assessed by a trained neuropathologist and quantified on a continuous scale, is associated with overall survival. METHODS/STUDY POPULATION: We reviewed the records of 47 patients with histopathologically confirmed GBM who underwent surgical resection as the first therapeutic modality for suspected radiographic progression following standard radiation therapy and temozolomide. The percentage of viable tumor Versus “treatment effect” in each specimen was estimated by one neuropathologist who was blinded to patient outcomes. RESULTS/ANTICIPATED RESULTS: After adjusting for other known prognostic factors in a multivariate Cox proportional hazards model, there was no association between the degree of viable tumor and overall survival (HR 0.83; 95% CI, 0.20–3.4; p=0.20). DISCUSSION/SIGNIFICANCE OF IMPACT: These results suggest that, in patients who undergo resection for recurrent GBM following standard first-line chemoradiotherapy, histopathologic quantification of the degree of viable tumor Versus “treatment effect” present in the surgical specimen has limited prognostic influence and clinical utility.

Published

2018

9. High-resolution large-scale mosaic imaging using multiphoton microscopy to characterize transgenic mouse models of human neurological disorders.

Author

Price DL, Chow SK, Maclean NA, Hakozaki H, Peltier S, Martone ME, and Ellisman MH

Subjects

Animals, Brain Mapping instrumentation, Computer Communication Networks trends, Disease Models, Animal, Humans, Image Processing, Computer-Assisted instrumentation, Image Processing, Computer-Assisted trends, Medical Illustration, Mice, Mice, Transgenic, Microscopy, Fluorescence, Multiphoton trends, Software, User-Computer Interface, Brain pathology, Brain Mapping methods, Image Processing, Computer-Assisted methods, Microscopy, Fluorescence, Multiphoton methods, Nervous System Diseases pathology

Abstract

The thorough characterization of transgenic mouse models of human central nervous system diseases is a necessary step in realizing the full benefit of using animal models to investigate disease processes and potential therapeutics. Because of the labor- and resource-intensive nature of high-resolution imaging, detailed investigation of possible structural or biochemical alterations in brain sections has typically focused on specific regions of interest as determined by the researcher a priori. For example, Parkinson's disease researchers often focus imaging on regions of the brain expected to exhibit pathology such as the substantia nigra and striatum. Because of limitations in acquiring and storing high-resolution imaging data, additional data contained in the specimen is not usually acquired or disseminated/reported to the research community. Here we present a method of imaging large regions of brain at close to the resolution limit of light microscopy using a mosaic imaging technique in conjunction with multiphoton microscopy. These maps are being used to characterize several genetically modified animal models of neurological disease by filling the information "gap" among techniques such as magnetic resonance imaging and electron microscopic analysis.

Published

2006

10. Automated microscopy system for mosaic acquisition and processing.

Author

Chow SK, Hakozaki H, Price DL, MacLean NA, Deerinck TJ, Bouwer JC, Martone ME, Peltier ST, and Ellisman MH

Abstract

An automatic mosaic acquisition and processing system for a multiphoton microscope is described for imaging large expanses of biological specimens at or near the resolution limit of light microscopy. In a mosaic, a larger image is created from a series of smaller images individually acquired systematically across a specimen. Mosaics allow wide-field views of biological specimens to be acquired without sacrificing resolution, providing detailed views of biological specimens within context. The system is composed of a fast-scanning, multiphoton, confocal microscope fitted with a motorized, high-precision stage and custom-developed software programs for automatic image acquisition, image normalization, image alignment and stitching. Our current capabilities allow us to acquire data sets comprised of thousands to tens of thousands of individual images per mosaic. The large number of individual images involved in creating a single mosaic necessitated software development to automate both the mosaic acquisition and processing steps. In this report, we describe the methods and challenges involved in the routine creation of very large scale mosaics from brain tissue labelled with multiple fluorescent probes.

Published

2006

11. Compartmentalization of regulatory proteins in the cell nucleus.

Author

Hendzel MJ, Kruhlak MJ, MacLean NA, Boisvert F, Lever MA, and Bazett-Jones DP

Subjects

Acetylation, Chromatin chemistry, Chromatin metabolism, Histones metabolism, Humans, Interphase, Protein Conformation, Receptors, Estrogen metabolism, Transcription Factors metabolism, Cell Compartmentation, Cell Nucleus metabolism, Nuclear Proteins metabolism

Abstract

The cell nucleus is increasingly recognized as a spatially organized structure. In this review, the nature and controversies associated with nuclear compartmentalization are discussed. The relationship between nuclear structure and organization of proteins involved in the regulation of RNA polymerase II-transcribed genes is then discussed. Finally, very recent data on the mobility of these proteins within the cell nucleus is considered and their implications for regulation through compartmentalization of proteins and genomic DNA are discussed.

Published

2001

12. Immunologic response of rabbits to 6-aminopenicillanic acid.

Author

CHISHOLM DR, ENGLISH AR, and MACLEAN NA

Subjects

Animals, Humans, Rabbits, Antibodies, Lagomorpha, Penicillanic Acid, Penicillins pharmacology

Published

1961