Your search keyword '"Markert JM"' showing total 170 results

1. The use of a genetically engineered herpes simplex virus (R7020) with ionizing radiation for experimental hepatoma

Author

Chung, S-M, Advani, SJ, Bradley, JD, Kataoka, Y, Vashistha, K, Yan, SY, Markert, JM, Gillespie, GY, Whitley, RJ, Roizman, B, and Weichselbaum, RR

Published

2002

2. Treatment of intracranial gliomas in immunocompetent mice using herpes simplex viruses that express murine interleukins

Author

Andreansky, S, He, B, van Cott, J, McGhee, J, Markert, JM, Gillespie, GY, Roizman, B, and Whitley, RJ

Published

1998

3. Extended disease-free interval of 6 years in a recurrent glioblastoma multiforme patient treated with G207 oncolytic viral therapy

Author

Whisenhunt Jr TR, Rajneesh KF, Hackney JR, and Markert JM

Subjects

Oncolytic Virotherapy, Tumor, Malignant Glioma, Glioblastoma, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, lcsh:RC254-282

Abstract

Thomas R Whisenhunt Jr, Kiran F Rajneesh, James R Hackney, James M Markert Department of Neurosurgery, University of Alabama at Birmingham, Birmingham, AL, USA Background: Glioblastoma multiforme (GBM) is a relentless primary central nervous system malignancy that remains resistant to conventional therapy despite major advances in clinical neurooncology. This report details the case of a patient who had failed conventional treatment for recurrent GBM and was ultimately treated with a genetically engineered herpes simplex virus (HSV) type 1 vector, G207. Methods: Case report detailing the outcomes of one patient enrolled into the gene therapy arm of the Neurovir G207 protocol whereby stereotactic injection of 120 µL G207 viral suspension containing 1×107 plaque-forming units (or active viral particles) was made into the enhancing region of the tumor. Results: In this patient, despite aggressive surgical resection, adjuvant radiotherapy and chemotherapy, tumor progression occurred. However, with G207 oncolytic therapy and brief exposures to second and third treatments, this patient had an extended survival time of 7.5 years and a 6-year apparent disease-free interval, an extraordinarily unusual finding in the pretemozolomide era. Conclusion: With minimal adjunctive chemotherapy, including one course of temozolomide, one course of procarbazine, and four cycles of irinotecan, the patient survived over 7 years before the next recurrence. Addition of G207 to this patient’s traditional therapy may have been the critical treatment producing her prolonged survival. This report demonstrates the potential for long-term response to a one-time treatment with oncolytic HSV and encourages continued research on oncolytic viral therapy for GBM. Keywords: oncolytic virotherapy, malignant glioma, tumor, herpes simplex, HSV-1, immunotherapy

Published

2015

4. Herpes Simplex Oncolytic Viral Therapy for Malignant Glioma and Mechanisms of Delivery.

Author

Erickson NJ, Stavarache M, Ibrahim T, Kaplitt MG, and Markert JM

Abstract

The authors present a comprehensive review on the history and development of oncolytic herpes simplex viral therapies for malignant glioma with a focus on mechanisms of delivery in prior and ongoing clinical trials. This review highlights the advancements made with regard to delivering these therapies to a highly complex immunologic environment in the setting of the blood brain and blood tumor barrier in a safe and effective manner., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

5. Oncolytic virotherapy augments self-maintaining natural killer cell line cytotoxicity against neuroblastoma.

Author

Quinn CH, Julson JR, Markert HR, Nazam N, Butey S, Stewart JE, Coleman JC, Markert JM, Leavenworth JW, and Beierle EA

Subjects

Humans, Animals, Mice, Cell Line, Tumor, Oncolytic Viruses immunology, Cytotoxicity, Immunologic, Simplexvirus immunology, Xenograft Model Antitumor Assays, Neuroblastoma therapy, Neuroblastoma immunology, Killer Cells, Natural immunology, Oncolytic Virotherapy methods

Abstract

Background: Neuroblastoma is the most common extracranial solid tumor in children and accounts for 15% of pediatric cancer related deaths. Targeting neuroblastoma with immunotherapies has proven challenging due to a paucity of immune cells in the tumor microenvironment and the release of immunosuppressive cytokines by neuroblastoma tumor cells. We hypothesized that combining an oncolytic Herpes Simplex Virus (oHSV) with natural killer (NK) cells might overcome these barriers and incite tumor cell death., Methods: We utilized MYCN amplified and non-amplified neuroblastoma cell lines, the IL-12 expressing oHSV, M002, and the human NK cell line, NK-92 MI. We assessed the cytotoxicity of NK cells against neuroblastoma with and without M002 infection, the effects of M002 on NK cell priming, and the impact of M002 and priming on the migratory capacity and CD107a expression of NK cells. To test clinical applicability, we then investigated the effects of M002 and NK cells on neuroblastoma in vivo., Results: NK cells were more attracted to neuroblastoma cells that were infected with M002. There was an increase in neuroblastoma cell death with the combination treatment of M002 and NK cells both in vitro and in vivo. Priming the NK cells enhanced their cytotoxicity, migratory capacity and CD107a expression., Conclusions: To the best of our knowledge, these investigations are the first to demonstrate the effects of an oncolytic virus combined with self-maintaining NK cells in neuroblastoma and the priming effect of neuroblastoma on NK cells. The current studies provide a deeper understanding of the relation between NK cells and neuroblastoma and these data suggest that oHSV increases NK cell cytotoxicity towards neuroblastoma., (© 2024. The Author(s).)

Published

2024

6. Combination Immunotherapy with Vaccine and Oncolytic HSV Virotherapy Is Time Dependent.

Author

Totsch SK, Ishizuka AS, Kang KD, Gary SE, Rocco A, Fan AE, Zhou L, Valdes PA, Lee S, Li J, Peruzzotti-Jametti L, Blitz S, Garliss CM, Johnston JM, Markert JM, Lynn GM, Bernstock JD, and Friedman GK

Subjects

Animals, Mice, Humans, Combined Modality Therapy, Simplexvirus, Oncolytic Viruses immunology, Oncolytic Viruses genetics, Cell Line, Tumor, Female, Xenograft Model Antitumor Assays, Oncolytic Virotherapy methods, Immunotherapy methods, Cancer Vaccines immunology, Cancer Vaccines administration & dosage

Abstract

Oncolytic virotherapy or immunovirotherapy is a strategy that utilizes viruses to selectively infect and kill tumor cells while also stimulating an immune response against the tumor. Early clinical trials in both pediatric and adult patients using oncolytic herpes simplex viruses (oHSV) have demonstrated safety and promising efficacy; however, combinatorial strategies designed to enhance oncolysis while also promoting durable T-cell responses for sustaining disease remission are likely required. We hypothesized that combining the direct tumor cell killing and innate immune stimulation by oHSV with a vaccine that promotes T cell-mediated immunity may lead to more durable tumor regression. To this end, we investigated the preclinical efficacy and potential synergy of combining oHSV with a self-assembling nanoparticle vaccine codelivering peptide antigens and Toll-like receptor 7 and 8 agonists (referred to as SNAPvax),which induces robust tumor-specific T-cell immunity. We then assessed how timing of the treatments (i.e., vaccine before or after oHSV) impacts T-cell responses, viral replication, and preclinical efficacy. The sequence of treatments was critical, as survival was significantly enhanced when the SNAPvax vaccine was given prior to oHSV. Increased clinical efficacy was associated with reduced tumor volume and increases in virus replication and tumor antigen-specific CD8+ T cells. These findings substantiate the criticality of combination immunotherapy timing and provide preclinical support for combining SNAPvax with oHSV as a promising treatment approach for both pediatric and adult tumors., (©2024 American Association for Cancer Research.)

Published

2024

7. Understanding and therapeutically exploiting cGAS/STING signaling in glioblastoma.

Author

Low JT, Brown MC, Reitman ZJ, Bernstock JD, Markert JM, Friedman GK, Waitkus MS, Bowie ML, and Ashley DM

Subjects

Humans, Nucleotidyltransferases genetics, Nucleotidyltransferases metabolism, Signal Transduction, DNA, Tumor Microenvironment, Glioblastoma therapy, Glioma

Abstract

Since the discovery that cGAS/STING recognizes endogenous DNA released from dying cancer cells and induces type I interferon and antitumor T cell responses, efforts to understand and therapeutically target the STING pathway in cancer have ensued. Relative to other cancer types, the glioma immune microenvironment harbors few infiltrating T cells, but abundant tumor-associated myeloid cells, possibly explaining disappointing responses to immune checkpoint blockade therapies in cohorts of patients with glioblastoma. Notably, unlike most extracranial tumors, STING expression is absent in the malignant compartment of gliomas, likely due to methylation of the STING promoter. Nonetheless, several preclinical studies suggest that inducing cGAS/STING signaling in the glioma immune microenvironment could be therapeutically beneficial, and cGAS/STING signaling has been shown to mediate inflammatory and antitumor effects of other modalities either in use or being developed for glioblastoma therapy, including radiation, tumor-treating fields, and oncolytic virotherapy. In this Review, we discuss cGAS/STING signaling in gliomas, its implications for glioma immunobiology, compartment-specific roles for STING signaling in influencing immune surveillance, and efforts to target STING signaling - either directly or indirectly - for antiglioma therapy.

Published

2024

8. [ 89 Zr]-CD8 ImmunoPET imaging of glioblastoma multiforme response to combination oncolytic viral and checkpoint inhibitor immunotherapy reveals CD8 infiltration differential changes in preclinical models.

Author

Gallegos CA, Lu Y, Clements JC, Song PN, Lynch SE, Mascioni A, Jia F, Hartman YE, Massicano AVF, Houson HA, Lapi SE, Warram JM, Markert JM, and Sorace AG

Subjects

Animals, Mice, Humans, Tomography, X-Ray Computed, Immunotherapy, Positron-Emission Tomography, CD8-Positive T-Lymphocytes, Tumor Microenvironment, Glioblastoma diagnostic imaging, Glioblastoma therapy

Abstract

Rationale: Novel immune-activating therapeutics for the treatment of glioblastoma multiforme (GBM) have shown potential for tumor regression and increased survival over standard therapies. However, immunotherapy efficacy remains inconsistent with response assessment being complicated by early treatment-induced apparent radiological tumor progression and slow downstream effects. This inability to determine early immunotherapeutic benefit results in a drastically decreased window for alternative, and potentially more effective, treatment options. The objective of this study is to evaluate the effects of combination immunotherapy on early CD8 + cell infiltration and its association with long term response in orthotopic syngeneic glioblastoma models. Methods: Luciferase positive GBM orthotopic mouse models (GSC005-luc) were imaged via [ 89 Zr]-CD8 positron emission tomography (PET) one week following treatment with saline, anti-PD1, M002 oncolytic herpes simplex virus (oHSV) or combination immunotherapy. Subsequently, brains were excised, imaged via [ 89 Zr]-CD8 ImmunoPET and evaluated though autoradiography and histology for H&E and CD8 immunohistochemistry. Longitudinal immunotherapeutic effects were evaluated through [ 89 Zr]-CD8 PET imaging one- and three-weeks following treatment, with changes in tumor volume monitored on a three-day basis via bioluminescence imaging (BLI). Response classification was then performed based on long-term BLI signal changes. Statistical analysis was performed between groups using one-way ANOVA and two-sided unpaired T-test, with p < 0.05 considered significant. Correlations between imaging and biological validation were assessed via Pearson's correlation test. Results: [ 89 Zr]-CD8 PET standardized uptake value (SUV) quantification was correlated with ex vivo SUV quantification (r = 0.61, p < 0.01), autoradiography (r = 0.46, p < 0.01), and IHC tumor CD8 + cell density (r = 0.55, p < 0.01). Classification of therapeutic responders, via bioluminescence signal, revealed a more homogeneous CD8 + immune cell distribution in responders (p < 0.05) one-week following immunotherapy. Conclusions: Assessment of early CD8 + cell infiltration and distribution in the tumor microenvironment provides potential imaging metrics for the characterization of oHSV and checkpoint blockade immunotherapy response in GBM. The combination therapies showed enhanced efficacy compared to single agent immunotherapies. Further development of immune-focused imaging methods can provide clinically relevant metrics associated with immune cell localization that can inform immunotherapeutic efficacy and subsequent treatment response in GBM patients., Competing Interests: Competing Interests: James M. Markert has the following relationships which may pose or be perceived as posing a financial conflict of interest. He is a board and equity holding member, in Aettis, Inc. and may receive royalties. The company holds frozen oncolytic viral stocks. Mustang Bio Tech is licensing the IP of C134 an oncolytic viral therapy. Markert is blinded to the conditions for the C134 clinical trials. He is a shareholder for this privately held Small Business Innovation Research LLC, Treovir, Inc., concerning G207 oncolytic viral therapy now in clinical trial. Merck, Inc. provides industry grant support by providing Keytruda (pembrolizumab) for a clinical trial of M032 oncolytic virotherapy now in clinical trial. Markert is a listee on Intellectual Property, related to a cancer immunotherapy system filed by in8Bio, formerly Incysus, Ltd. This IP has royalty earning potential., (© The author(s).)

Published

2024

9. Understanding the Effect of Prescription Isodose in Single-Fraction Stereotactic Radiosurgery on Plan Quality and Clinical Outcomes for Solid Brain Metastases.

Author

Brown MH, Marcrom SR, Patel MP, Popple RA, Travis RL, McDonald AM, Riley KO, Markert JM, Willey CD, Bredel M, Fiveash JB, and Thomas EM

Subjects

Humans, Neoplasm Recurrence, Local surgery, Brain pathology, Radiometry, Radiotherapy Dosage, Radiotherapy Planning, Computer-Assisted methods, Radiosurgery adverse effects, Radiosurgery methods, Brain Neoplasms radiotherapy, Brain Neoplasms surgery, Brain Neoplasms pathology, Radiotherapy, Intensity-Modulated

Abstract

Background and Objectives: There is wide variation in treatment planning strategy for central nervous system (CNS) stereotactic radiosurgery. We sought to understand what relationships exist between intratumor maximum dose and local control (LC) or CNS toxicity, and dosimetric effects of constraining hotspots on plan quality of multiple metastases volumetric modulated arc therapy radiosurgery plans., Methods: We captured brain metastases from 2015 to 2017 treated with single-isocenter volumetric modulated arc therapy radiosurgery. Included tumors received single-fraction stereotactic radiosurgery, had no previous surgery or radiation, and available follow-up imaging. Our criterion for local failure was 25% increase in tumor diameter on follow-up MRI or pathologic confirmation of tumor recurrence. We defined significant CNS toxicity as Radiation Therapy Oncology Group irreversible Grade 3 or higher. We performed univariate and multivariate analyses evaluating factors affecting LC. We examined 10 stereotactic radiosurgery plans with prescriptions of 18 Gy to all targets originally planned without constraints on the maximum dose within the tumor. We replanned each with a constraint of Dmax 120%. We compared V50%, mean brain dose, and Dmax between plans., Results: Five hundred and thirty tumors in 116 patients were available for analysis. Median prescription dose was 18 Gy, and median prescription isodose line (IDL) was 73%. Kaplan-Meier estimate of 12-month LC only tumor volume (HR 1.43 [1.22-1.68] P < .001) was predictive of local failure on univariate analysis; prescription IDL and histology were not. In multivariate analysis, tumor volume impacted local failure (HR 1.43 [1.22-1.69] P < .001) but prescription IDL did not (HR 0.95 [0.86-1.05] P = .288). Only a single grade 3 and 2 grade 4 toxicities were observed; tumor volume was predictive of CNS toxicity (HR 1.58 [1.25-2.00]; P < .001), whereas prescription IDL was not (HR 1.01 [0.87-1.17] P = .940)., Conclusion: The prescription isodose line had no impact on local tumor control or CNS toxicity. Penalizing radiosurgery hotspots resulted in worse radiosurgery plans with poorer gradient. Limiting maximum dose in gross tumor causes increased collateral exposure to surrounding tissue and should be avoided., (Copyright © 2023 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the Congress of Neurological Surgeons.)

Published

2023

10. Racial and socioeconomic disparities in glioblastoma outcomes: A single-center, retrospective cohort study.

Author

Estevez-Ordonez D, Abdelrashid M, Coffee E, Laskay NMB, Atchley TJ, Chkheidze R, Fiveash JB, Markert JM, Lobbous M, Maveal BM, and Burt Nabors L

Subjects

Adult, Humans, Retrospective Studies, Socioeconomic Disparities in Health, Survival Analysis, Healthcare Disparities, Glioblastoma genetics, Glioblastoma therapy, Glioblastoma diagnosis, Brain Neoplasms genetics, Brain Neoplasms therapy, Brain Neoplasms diagnosis

Abstract

Background: Glioblastoma (GBM) is the most common malignant primary brain tumor. Emerging reports have suggested that racial and socioeconomic disparities influence the outcomes of patients with GBM. No studies to date have investigated these disparities controlling for isocitrate dehydrogenase (IDH) mutation and O-6-methylguanine-DNA methyltransferase (MGMT) status., Methods: Adult patients with GBM were retrospectively reviewed at a single institution from 2008 to 2019. Univariable and multivariable complete survival analyses were performed. A Cox proportional hazards model was used to assess the effect of race and socioeconomic status controlling for a priori selected variables with known relevance to survival., Results: In total, 995 patients met inclusion criteria. Of these, 117 patients (11.7%) were African American (AA). The median overall survival for the entire cohort was 14.23 months. In the multivariable model, AA patients had better survival compared with White patients (hazard ratio [HR], 0.37; 95% confidence interval [CI], 0.2-0.69). The observed survival difference was significant in both a complete case analysis model and a multiple imputations model accounting for missing molecular data and controlling for treatment and socioeconomic status. AA patients with low income (HR, 2.17; 95% CI, 1.04-4.50), public insurance (HR, 2.25; 95% CI, 1.04-4.87), or no insurance (HR, 15.63; 95% CI, 2.72-89.67) had worse survival compared with White patients with low income, public insurance, or no insurance, respectively., Conclusions: Significant racial and socioeconomic disparities were identified after controlling for treatment, GBM genetic profile, and other variables associated with survival. Overall, AA patients demonstrated better survival. These findings may suggest the possibility of a protective genetic advantage in AA patients., Plain Language Summary: To best personalize treatment for and understand the causes of glioblastoma, racial and socioeconomic influences must be examined. The authors report their experience at the O'Neal Comprehensive Cancer Center in the deep south. In this report, contemporary molecular diagnostic data are included. The authors conclude that there are significant racial and socioeconomic disparities that influence glioblastoma outcome and that African American patients do better., (© 2023 The Authors. Cancer published by Wiley Periodicals LLC on behalf of American Cancer Society.)

Published

2023

11. Clinical Applications of Immunotherapy for Recurrent Glioblastoma in Adults.

Author

Olivet MM, Brown MC, Reitman ZJ, Ashley DM, Grant GA, Yang Y, and Markert JM

Abstract

Glioblastoma (GBM) is the most common malignant primary brain tumor in adults. Despite standard therapies, including resection and chemoradiation, recurrence is virtually inevitable. Current treatment for recurrent glioblastoma (rGBM) is rapidly evolving, and emerging therapies aimed at targeting primary GBM are often first tested in rGBM to demonstrate safety and feasibility, which, in recent years, has primarily been in the form of immunotherapy. The purpose of this review is to highlight progress in clinical trials of immunotherapy for rGBM, including immune checkpoint blockade, oncolytic virotherapy, chimeric antigen receptor (CAR) T-cell therapy, cancer vaccine and immunotoxins. Three independent reviewers covered literature, published between the years 2000 and 2022, in various online databases. In general, the efficacy of immunotherapy in rGBM remains uncertain, and is limited to subsets/small cohorts of patients, despite demonstrating feasibility in early-stage clinical trials. However, considerable progress has been made in understanding the mechanisms that may preclude rGBM patients from responding to immunotherapy, as well as in developing new approaches/combination strategies that may inspire optimism for the utility of immunotherapy in this devastating disease. Continued trials are necessary to further assess the best therapeutic avenues and ascertain which treatments might benefit each patient individually.

Published

2023

12. Oncolytic virotherapies for pediatric tumors.

Author

Gross EG, Hamo MA, Estevez-Ordonez D, Laskay NM, Atchley TJ, Johnston JM, and Markert JM

Subjects

Humans, Child, Simplexvirus genetics, Vaccinia virus, Genetic Therapy, Oncolytic Virotherapy, Oncolytic Viruses genetics, Neoplasms therapy

Abstract

Introduction: Many pediatric patients with malignant tumors continue to suffer poor outcomes. The current standard of care includes maximum safe surgical resection followed by chemotherapy and radiation which may be associated with considerable long-term morbidity. The emergence of oncolytic virotherapy (OVT) may provide an alternative or adjuvant treatment for pediatric oncology patients., Areas Covered: We reviewed seven virus types that have been investigated in past or ongoing pediatric tumor clinical trials: adenovirus (AdV-tk, Celyvir, DNX-2401, VCN-01, Ad-TD-nsIL-12), herpes simplex virus (G207, HSV-1716), vaccinia (JX-594), reovirus (pelareorep), poliovirus (PVSRIPO), measles virus (MV-NIS), and Senecavirus A (SVV-001). For each virus, we discuss the mechanism of tumor-specific replication and cytotoxicity as well as key findings of preclinical and clinical studies., Expert Opinion: Substantial progress has been made in the past 10 years regarding the clinical use of OVT. From our review, OVT has favorable safety profiles compared to chemotherapy and radiation treatment. However, the antitumor effects of OVT remain variable depending on tumor type and viral agent used. Although the widespread adoption of OVT faces many challenges, we are optimistic that OVT will play an important role alongside standard chemotherapy and radiotherapy for the treatment of malignant pediatric solid tumors in the future.

Published

2023

13. In Reply to "Assessing the Impact of Changes to USMLE Step 1 Grading on Evaluation of Neurosurgery Residency Applicants in the United States: A Program Director Survey".

Author

Stein JS, Estevez-Ordonez D, Laskay NMB, Atchley TJ, and Markert JM

Subjects

Humans, United States, Neurosurgical Procedures, Surveys and Questionnaires, Neurosurgery education, Internship and Residency

Published

2023

14. Safety and Efficacy of Intraventricular Immunovirotherapy with Oncolytic HSV-1 for CNS Cancers.

Author

Kang KD, Bernstock JD, Totsch SK, Gary SE, Rocco A, Nan L, Li R, Etminan T, Han X, Beierle EA, Eisemann T, Wechsler-Reya RJ, Bae S, Whitley R, Gillespie GY, Markert JM, and Friedman GK

Subjects

Mice, Animals, Cell Line, Tumor, Mice, Inbred CBA, Poly I, Herpesvirus 1, Human genetics, Oncolytic Viruses genetics, Oncolytic Virotherapy adverse effects, Oncolytic Virotherapy methods, Brain Neoplasms pathology

Abstract

Purpose: Oncolytic virotherapy with herpes simplex virus-1 (HSV) has shown promise for the treatment of pediatric and adult brain tumors; however, completed and ongoing clinical trials have utilized intratumoral/peritumoral oncolytic HSV (oHSV) inoculation due to intraventricular/intrathecal toxicity concerns. Intratumoral delivery requires an invasive neurosurgical procedure, limits repeat injections, and precludes direct targeting of metastatic and leptomeningeal disease. To address these limitations, we determined causes of toxicity from intraventricular oHSV and established methods for mitigating toxicity to treat disseminated brain tumors in mice., Experimental Design: HSV-sensitive CBA/J mice received intraventricular vehicle, inactivated oHSV, or treatment doses (1×107 plaque-forming units) of oHSV, and toxicity was assessed by weight loss and IHC. Protective strategies to reduce oHSV toxicity, including intraventricular low-dose oHSV or interferon inducer polyinosinic-polycytidylic acid (poly I:C) prior to oHSV treatment dose, were evaluated and then utilized to assess intraventricular oHSV treatment of multiple models of disseminated CNS disease., Results: A standard treatment dose of intraventricular oHSV damaged ependymal cells via virus replication and induction of CD8+ T cells, whereas vehicle or inactivated virus resulted in no toxicity. Subsequent doses of intraventricular oHSV caused little additional toxicity. Interferon induction with phosphorylation of eukaryotic initiation factor-2α (eIF2α) via intraventricular pretreatment with low-dose oHSV or poly I:C mitigated ependyma toxicity. This approach enabled the safe delivery of multiple treatment doses of clinically relevant oHSV G207 and prolonged survival in disseminated brain tumor models., Conclusions: Toxicity from intraventricular oHSV can be mitigated, resulting in therapeutic benefit. These data support the clinical translation of intraventricular G207., (©2022 American Association for Cancer Research.)

Published

2022

15. Undesired impact of iron supplement on MRI assessment of post-treatment glioblastoma.

Author

Park D, Lobbous M, Nabors LB, Markert JM, and Kim J

Subjects

Adult, Female, Humans, Aged, 80 and over, Ferrosoferric Oxide, Contrast Media, Magnetic Resonance Imaging, Iron, Glioblastoma diagnostic imaging, Glioblastoma drug therapy, Brain Neoplasms diagnostic imaging, Brain Neoplasms drug therapy

Abstract

Glioblastoma (GBM) is the most common malignant adult brain and has a poor prognosis. Routine post-treatment MRI evaluations are required to assess treatment response and disease progression. We present a case of an 83-year-old female who underwent MRI assessment of post-treatment GBM after intravenous iron replacement therapy, ferumoxytol. The brain MRI revealed unintended alteration of MRI signal characteristics from the iron containing agent which confounded diagnostic interpretation and subsequently, the treatment planning. Ferumoxytol injection prior to contrast enhanced MRI must be screened in post-treatment GBM patients to accurately evaluate tumor activity.

Published

2022

16. Clinical advances in oncolytic virotherapy for pediatric brain tumors.

Author

Ghajar-Rahimi G, Kang KD, Totsch SK, Gary S, Rocco A, Blitz S, Kachurak K, Chambers MR, Li R, Beierle EA, Bag A, Johnston JM, Markert JM, Bernstock JD, and Friedman GK

Subjects

Adult, Child, Humans, Adenoviridae, Immunotherapy, Oncolytic Virotherapy, Brain Neoplasms therapy

Abstract

Malignant brain tumors constitute nearly one-third of cancer diagnoses in children and have recently surpassed hematologic malignancies as the most lethal neoplasm in the pediatric population. Outcomes for children with brain tumors are unacceptably poor and current standards of care-surgical resection, chemotherapy, and radiation-are associated with significant long-term morbidity. Oncolytic virotherapy has emerged as a promising immunotherapy for the treatment of brain tumors. While the majority of brain tumor clinical trials utilizing oncolytic virotherapy have been in adults, five viruses are being tested in pediatric brain tumor clinical trials: herpes simplex virus (G207), reovirus (pelareorep/Reolysin), measles virus (MV-NIS), poliovirus (PVSRIPO), and adenovirus (DNX-2401, AloCELYVIR). Herein, we review past and current pediatric immunovirotherapy brain tumor trials including the relevant preclinical and clinical research that contributed to their development. We describe mechanisms by which the viruses may overcome barriers in treating pediatric brain tumors, examine challenges associated with achieving effective, durable responses, highlight unique aspects and successes of the trials, and discuss future directions of immunovirotherapy research for the treatment of pediatric brain tumors., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

17. Assessing the Impact of Changes to USMLE Step 1 Grading on Evaluation of Neurosurgery Residency Applicants in the United States: A Program Director Survey.

Author

Stein JS, Estevez-Ordonez D, Laskay NMB, Atchley TJ, Saccomano BW, Hale AT, Patel OU, Burge K, Haynes W, Yadav I, Van Wagoner N, and Markert JM

Subjects

Educational Measurement, Efficiency, Humans, Surveys and Questionnaires, United States, Internship and Residency, Medicine, Neurosurgery education

Abstract

Background: Neurosurgery (NS) is among the most selective specialties in the United States. As the United States Medical Licensing Examination (USMLE) Step 1 transitions to a binary pass/fail score, residency programs face unclear challenges in screening and evaluating applicants. The aim of this study is to provide insights into the perceived impact of changes to the USMLE Step 1 grading in the applicant selection process., Methods: We created a survey using questions regarding NS program demographics, the perceived predictive abilities of Step 1 and Step 2 clinical knowledge (CK), and several factors that programs consider when assessing applicants. We queried program directors (PDs), program coordinators (PCs), and assistant PDs at 117 NS residency programs. Respondents were asked to rank these factors in order of importance for selection at their respective training program. We used descriptive statistics and a Wilcoxon matched-pairs signed-rank test to evaluate the effects of these changes using STATA 17., Results: A total of 35 (30%) residency programs responded with 26 (74%) completing the factor ranking questions. 86% (95% confidence interval, 71.5%-94.3%) disagreed that the changes will better prepare students clinically. USMLE Step 2 CK scores, class rank, and away rotations saw significant increases in priority in the absence of a graded Step 1, whereas letters of recommendation and surrogates for research productivity saw notable, but not significant, changes after adjusting for multiple testing., Conclusions: Reporting binary Step 1 grades marks a significant shift in assessing applicants for NS residency by emphasizing Step 2 CK, class rank, and research productivity., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

18. High-dose methotrexate and rituximab induction regimen in immunocompetent patients with primary CNS lymphoma: a retrospective single-center study of survival predictors.

Author

DeAtkine AB, Abdelrashid M, Tucker Z, Mehta A, Markert JM, Kim J, Fiveash JB, Oster RA, Lobbous M, and Nabors LB

Subjects

Adult, Aged, Antineoplastic Combined Chemotherapy Protocols adverse effects, Humans, Methotrexate therapeutic use, Prospective Studies, Retrospective Studies, Rituximab therapeutic use, Central Nervous System Neoplasms pathology, Lymphoma drug therapy, Lymphoma pathology

Abstract

Purpose: Primary Central Nervous System Lymphoma (PCNSL) is an aggressive tumor that is confined to the CNS. Although the provision of high-dose methotrexate (HD-MTX) has remarkably improved outcomes in PCNSL patients, the optimal treatment regimens and standard MTX dose for induction therapy have been largely controversial. Herein, we sought to explore the impact of adjuvant rituximab and different dosages of induction HD-MTX on survival outcomes of immunocompetent patients with PCNSL., Methods: In this study, we examined patients with PCNSL treated at a single NCI-designated comprehensive cancer center to evaluate their survival outcomes. We conducted a retrospective analysis of 51 immunocompetent patients with PCNSL who received their induction chemotherapy at the University of Alabama at Birmingham (UAB) between 2001 and 2019. Only adult patients with a confirmed diagnosis of PCNSL who had either HD-MTX alone or in combination with rituximab were included. Patients' demographics, clinical characteristics, and survival data were collected and analyzed., Results: There is no significant difference in survival among patients who received MTX alone versus MTX plus rituximab (HR = 0.996 (95% CI: 0.398-2.493), p = 0.994). Lower doses of MTX were associated with worse survival outcomes (HR = 0.680 (95% CI: 0.530-0.872), p = 0.002); however, this difference in survival was not significant when adjusted to age (HR = 0.797 (95% CI: 0.584-1.088), p = 0.153)., Conclusion: Our experience challenges the role of rituximab in PCNSL during induction therapy. Our study also highlights the shorter survival in elderly patients with PCNSL which can be related, to some extent, to the relatively lower doses of HD-MTX. There is an unmet need to establish a consensus on the most effective upfront regimen in PCNSL through prospective studies., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

19. Immune Activity and Response Differences of Oncolytic Viral Therapy in Recurrent Glioblastoma: Gene Expression Analyses of a Phase IB Study.

Author

Miller KE, Cassady KA, Roth JC, Clements J, Schieffer KM, Leraas K, Miller AR, Prasad N, Leavenworth JW, Aban IB, Whitley RJ, Gillespie GY, Mardis ER, and Markert JM

Subjects

Adult, Aged, Brain Neoplasms immunology, Brain Neoplasms mortality, Female, Glioblastoma immunology, Glioblastoma mortality, Humans, Male, Middle Aged, Neoplasm Recurrence, Local mortality, Survival Rate, Brain Neoplasms genetics, Brain Neoplasms therapy, Clinical Trials, Phase I as Topic, Gene Expression Profiling methods, Glioblastoma genetics, Glioblastoma therapy, Neoplasm Recurrence, Local genetics, Neoplasm Recurrence, Local immunology, Neoplasm Recurrence, Local therapy, Oncolytic Virotherapy methods, Oncolytic Viruses, RNA, Neoplasm genetics, Simplexvirus

Abstract

Purpose: Previously, clinical trials of experimental virotherapy for recurrent glioblastoma multiforme (GBM) demonstrated that inoculation with a conditionally replication-competent Δγ 1 34.5 oncolytic herpes simplex virus (oHSV), G207, was safe. Following the initial safety study, a phase Ib trial enrolled 6 adult patients diagnosed with GBM recurrence from which tumor tissue was banked for future studies., Patients and Methods: Here, we analyzed tumor RNA sequencing (RNA-seq) data obtained from pre- and posttreatment (collected 2 or 5 days after G207 injection) biopsies from the phase Ib study patients., Results: Using a Spearman rank-order correlation analysis, we identified approximately 500 genes whose expression pattern correlated with survival duration. Many of these genes were enriched for the intrinsic IFN-mediated antiviral and adaptive immune functional responses, including immune cell chemotaxis and antigen presentation to T-cells. Furthermore, we show that the expression of several T-cell-related genes was highest in the patient with the longest survival after G207 inoculation., Conclusions: Our data support that the oHSV-induced type I IFN production and the subsequent recruitment of an adaptive immune response differed between enrolled patients and showed association with survival duration in patients with recurrent malignant glioma after treatment with an early generation oHSV., (©2022 The Authors; Published by the American Association for Cancer Research.)

Published

2022

20. Targeting High-Risk Neuroblastoma Patient-Derived Xenografts with Oncolytic Virotherapy.

Author

Quinn CH, Beierle AM, Hutchins SC, Marayati R, Bownes LV, Stewart JE, Markert HR, Erwin MH, Aye JM, Yoon KJ, Friedman GK, Willey CD, Markert JM, and Beierle EA

Abstract

Cancer is the leading cause of death by disease in children, and over 15% of pediatric cancer-related mortalities are due to neuroblastoma. Current treatment options for neuroblastoma remain suboptimal as they often have significant toxicities, are associated with long-term side effects, and result in disease relapse in over half of children with high-risk disease. There is a dire need for new therapies, and oncolytic viruses may represent an effective solution. Oncolytic viruses attack tumor cells in two ways: direct infection of tumor cells leading to cytolysis, and production of a debris field that stimulates an anti-tumor immune response. Our group has previously shown that M002, an oncolytic herpes simplex virus (oHSV), genetically engineered to express murine interleukin-12 (mIL-12), was effective at targeting and killing long term passage tumor cell lines. In the current study, we investigated M002 in three neuroblastoma patient-derived xenografts (PDXs). PDXs better recapitulate the human condition, and these studies were designed to gather robust data for translation to a clinical trial. We found that all three PDXs expressed viral entry receptors, and that the virus actively replicated in the cells. M002 caused significant tumor cell death in 2D culture and 3D bioprinted tumor models. Finally, the PDXs displayed variable susceptibility to M002, with a more profound effect on high-risk neuroblastoma PDXs compared to low-risk PDX. These findings validate the importance of incorporating PDXs for preclinical testing of oncolytic viral therapeutics and showcase a novel technique, 3D bioprinting, to test therapies in PDXs. Collectively, our data indicate that oHSVs effectively target high-risk neuroblastoma, and support the advancement of this therapy to the clinical setting.

Published

2022

21. A combined treatment regimen of MGMT-modified γδ T cells and temozolomide chemotherapy is effective against primary high grade gliomas.

Author

Lamb LS, Pereboeva L, Youngblood S, Gillespie GY, Nabors LB, Markert JM, Dasgupta A, Langford C, and Spencer HT

Subjects

Animals, Brain Neoplasms metabolism, Brain Neoplasms pathology, Glioma metabolism, Glioma pathology, Humans, Mice, Nude, O(6)-Methylguanine-DNA Methyltransferase biosynthesis, O(6)-Methylguanine-DNA Methyltransferase economics, Xenograft Model Antitumor Assays, Mice, Brain Neoplasms therapy, Glioma therapy, Immunotherapy, Receptors, Antigen, T-Cell, gamma-delta, T-Lymphocytes enzymology, T-Lymphocytes transplantation, Temozolomide pharmacology, Transgenes

Abstract

Chemotherapeutic drugs such as the alkylating agent Temozolomide (TMZ), in addition to reducing tumor mass, can also sensitize tumors to immune recognition by transient upregulation of multiple stress induced NKG2D ligands (NKG2DL). However, the potential for an effective response by innate lymphocyte effectors such as NK and γδ T cells that recognize NKG2DL is limited by the drug's concomitant lymphodepleting effects. We have previously shown that modification of γδ T cells with a methylguanine DNA methyltransferase (MGMT) transgene confers TMZ resistance via production of O 6 -alkylguanine DNA alkyltransferase (AGT) thereby enabling γδ T cell function in therapeutic concentrations of TMZ. In this study, we tested this strategy which we have termed Drug Resistant Immunotherapy (DRI) to examine whether combination therapy of TMZ and MGMT-modified γδ T cells could improve survival outcomes in four human/mouse xenograft models of primary and refractory GBM. Our results confirm that DRI leverages the innate response of γδ T cells to chemotherapy-induced stress associated antigen expression and achieves synergies that are significantly greater than either individual approach., (© 2021. The Author(s).)

Published

2021

22. Author Correction: Positron emission tomography imaging with 89 Zr-labeled anti-CD8 cys-diabody reveals CD8 + cell infiltration during oncolytic virus therapy in a glioma murine model.

Author

Kasten BB, Houson HA, Coleman JM, Leavenworth JW, Markert JM, Wu AM, Salazar F, Tavaré R, Massicano AVF, Gillespie GY, Lapi SE, Warram JM, and Sorace AG

Published

2021

23. Anti-SSTR2 antibody-drug conjugate for neuroendocrine tumor therapy.

Author

Si Y, Kim S, Ou J, Lu Y, Ernst P, Chen K, Whitt J, Carter AM, Markert JM, Bibb JA, Chen H, Zhou L, Jaskula-Sztul R, and Liu XM

Subjects

Animals, Humans, Immunoconjugates pharmacology, Mice, Mice, Nude, Immunoconjugates therapeutic use, Neuroendocrine Tumors drug therapy

Abstract

Neuroendocrine (NE) tumors include a diverse spectrum of hormone-secreting neoplasms that arise from the endocrine and nervous systems. Current chemo- and radio-therapies have marginal curative benefits. The goal of this study was to develop an innovative antibody-drug conjugate (ADC) to effectively treat NE tumors (NETs). First, we confirmed that somatostatin receptor 2 (SSTR2) is an ideal cancer cell surface target by analyzing 38 patient-derived NET tissues, 33 normal organs, and three NET cell lines. Then, we developed a new monoclonal antibody (mAb, IgG1, and kappa) to target two extracellular domains of SSTR2, which showed strong and specific surface binding to NETs. The ADC was constructed by conjugating the anti-SSTR2 mAb and antimitotic monomethyl auristatin E. In vitro evaluations indicated that the ADC can effectively bind, internalize, release payload, and kill NET cells. Finally, the ADC was evaluated in vivo using a NET xenograft mouse model to assess cancer-specific targeting, tolerated dosage, pharmacokinetics, and antitumor efficacy. The anti-SSTR2 ADC exclusively targeted and killed NET cells with minimal toxicity and high stability in vivo. This study demonstrates that the anti-SSTR2 ADC has a high-therapeutic potential for NET therapy., (© 2020. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published

2021

24. Positron emission tomography imaging with 89 Zr-labeled anti-CD8 cys-diabody reveals CD8 + cell infiltration during oncolytic virus therapy in a glioma murine model.

Author

Kasten BB, Houson HA, Coleman JM, Leavenworth JW, Markert JM, Wu AM, Salazar F, Tavaré R, Massicano AVF, Gillespie GY, Lapi SE, Warram JM, and Sorace AG

Subjects

Animals, CD8 Antigens antagonists & inhibitors, CD8 Antigens isolation & purification, CD8-Positive T-Lymphocytes virology, Cell Line, Tumor, Disease Models, Animal, Glioma diagnostic imaging, Glioma immunology, Glioma virology, Humans, Mice, Radioisotopes pharmacology, Simplexvirus genetics, Tomography, X-Ray Computed, Zirconium pharmacology, CD8 Antigens immunology, CD8-Positive T-Lymphocytes immunology, Glioma therapy, Oncolytic Virotherapy methods

Abstract

Determination of treatment response to immunotherapy in glioblastoma multiforme (GBM) is a process which can take months. Detection of CD8 + T cell recruitment to the tumor with a noninvasive imaging modality such as positron emission tomography (PET) may allow for tumor characterization and early evaluation of therapeutic response to immunotherapy. In this study, we utilized 89 Zr-labeled anti-CD8 cys-diabody-PET to provide proof-of-concept to detect CD8 + T cell immune response to oncolytic herpes simplex virus (oHSV) M002 immunotherapy in a syngeneic GBM model. Immunocompetent mice (n = 16) were implanted intracranially with GSC005 GBM tumors, and treated with intratumoral injection of oHSV M002 or saline control. An additional non-tumor bearing cohort (n = 4) receiving oHSV M002 treatment was also evaluated. Mice were injected with 89 Zr-labeled anti-CD8 cys-diabody seven days post oHSV administration and imaged with a preclinical PET scanner. Standardized uptake value (SUV) was quantified. Ex vivo tissue analyses included autoradiography and immunohistochemistry. PET imaging showed significantly higher SUV in tumors which had been treated with M002 compared to those without M002 treatment (p = 0.0207) and the non-tumor bearing M002 treated group (p = 0.0021). Accumulation in target areas, especially the spleen, was significantly reduced by blocking with the non-labeled diabody (p < 0.001). Radioactive probe accumulation in brains was consistent with CD8 + cell trafficking patterns after oHSV treatment. This PET imaging strategy could aid in distinguishing responders from non-responders during immunotherapy of GBM., (© 2021. The Author(s).)

Published

2021

25. Cerebral Venous Sinus Thrombosis following Ventriculoperitoneal Shunting for Idiopathic Intracranial Hypertension.

Author

Luckett JP, Sotoudeh H, Tabibian BE, Markert JM, and Kline LB

Abstract

A 30-year-old woman with idiopathic intracranial hypertension experienced worsening headaches and decreasing vision in her left eye. She underwent an uncomplicated ventriculoperitoneal shunt procedure but the following day was found to have cerebral venous sinus thrombosis. Treatment included venous sinus thrombectomy and anticoagulation. She had a favourable clinical outcome. Extensive evaluation including testing for thrombophilia was unremarkable. Potential causes for this rare association are discussed., (© 2021 Taylor & Francis Group, LLC.)

Published

2021

26. Commentary: Developing a Professionalism and Harassment Policy for Organized Neurosurgery.

Author

Kondziolka D, Markert JM, McDermott M, Robinson S, and Connolly ES

Subjects

Humans, Neurosurgical Procedures, Policy, Professionalism, Neurosurgery

Published

2021

27. Oncolytic HSV-1 G207 Immunovirotherapy for Pediatric High-Grade Gliomas.

Author

Friedman GK, Johnston JM, Bag AK, Bernstock JD, Li R, Aban I, Kachurak K, Nan L, Kang KD, Totsch S, Schlappi C, Martin AM, Pastakia D, McNall-Knapp R, Farouk Sait S, Khakoo Y, Karajannis MA, Woodling K, Palmer JD, Osorio DS, Leonard J, Abdelbaki MS, Madan-Swain A, Atkinson TP, Whitley RJ, Fiveash JB, Markert JM, and Gillespie GY

Subjects

Adolescent, Brain Neoplasms diagnostic imaging, Brain Neoplasms pathology, Brain Neoplasms radiotherapy, Child, Child, Preschool, Combined Modality Therapy, Female, Glioma diagnostic imaging, Glioma pathology, Glioma radiotherapy, Humans, Kaplan-Meier Estimate, Killer Cells, Natural, Leukocyte Count, Male, T-Lymphocytes, Brain Neoplasms therapy, Glioma therapy, Oncolytic Virotherapy adverse effects

Abstract

Background: Outcomes in children and adolescents with recurrent or progressive high-grade glioma are poor, with a historical median overall survival of 5.6 months. Pediatric high-grade gliomas are largely immunologically silent or "cold," with few tumor-infiltrating lymphocytes. Preclinically, pediatric brain tumors are highly sensitive to oncolytic virotherapy with genetically engineered herpes simplex virus type 1 (HSV-1) G207, which lacks genes essential for replication in normal brain tissue., Methods: We conducted a phase 1 trial of G207, which used a 3+3 design with four dose cohorts of children and adolescents with biopsy-confirmed recurrent or progressive supratentorial brain tumors. Patients underwent stereotactic placement of up to four intratumoral catheters. The following day, they received G207 (10 7 or 10 8 plaque-forming units) by controlled-rate infusion over a period of 6 hours. Cohorts 3 and 4 received radiation (5 Gy) to the gross tumor volume within 24 hours after G207 administration. Viral shedding from saliva, conjunctiva, and blood was assessed by culture and polymerase-chain-reaction assay. Matched pre- and post-treatment tissue samples were examined for tumor-infiltrating lymphocytes by immunohistologic analysis., Results: Twelve patients 7 to 18 years of age with high-grade glioma received G207. No dose-limiting toxic effects or serious adverse events were attributed to G207 by the investigators. Twenty grade 1 adverse events were possibly related to G207. No virus shedding was detected. Radiographic, neuropathological, or clinical responses were seen in 11 patients. The median overall survival was 12.2 months (95% confidence interval, 8.0 to 16.4); as of June 5, 2020, a total of 4 of 11 patients were still alive 18 months after G207 treatment. G207 markedly increased the number of tumor-infiltrating lymphocytes., Conclusions: Intratumoral G207 alone and with radiation had an acceptable adverse-event profile with evidence of responses in patients with recurrent or progressive pediatric high-grade glioma. G207 converted immunologically "cold" tumors to "hot." (Supported by the Food and Drug Administration and others; ClinicalTrials.gov number, NCT02457845.)., (Copyright © 2021 Massachusetts Medical Society.)

Published

2021

28. Immunovirotherapy for the Treatment of Glioblastoma and Other Malignant Gliomas.

Author

Estevez-Ordonez D, Chagoya G, Salehani A, Atchley TJ, Laskay NMB, Parr MS, Elsayed GA, Mahavadi AK, Rahm SP, Friedman GK, and Markert JM

Subjects

Humans, Simplexvirus genetics, Tumor Microenvironment, Brain Neoplasms therapy, Glioblastoma therapy, Glioma, Oncolytic Virotherapy

Abstract

Glioblastoma multiforme (GBM) represents one of the most challenging malignancies due to many factors including invasiveness, heterogeneity, and an immunosuppressive microenvironment. Current treatment modalities have resulted in only modest effect on outcomes. The development of viral vectors for oncolytic immunovirotherapy and targeted drug delivery represents a promising therapeutic prospect for GBM and other brain tumors. A host of genetically engineered viruses, herpes simplex virus, poliovirus, measles, and others, have been described and are at various stages of clinical development. Herein we provide a review of the advances and current state of oncolytic virotherapy for the targeted treatment of GBM and malignant gliomas., Competing Interests: Disclosures Dr J.M. Markert holds equity (<8%) in Aettis, Inc. (a company that holds stocks of oncolytic virus); Treovir, Inc (25%), a company holding intellectual property and funding clinical trials of oncolytic virus for pediatric brain tumors. A company that Dr J.M. Markert formerly held equity in (<8%) Catherex, Inc., was purchased in a structured buyout. Dr J.M. Markert has served as a consultant for Imugene. He also holds a fraction of the IP associated with oncolytic virus C134, which is licensed by Mustang Biotech., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

29. Transition From Manual to Automated Planning and Delivery of Volumetric Modulated Arc Therapy Stereotactic Radiosurgery: Clinical, Dosimetric, and Quality Assurance Results.

Author

Popple RA, Brown MH, Thomas EM, Willey CD, Cardan RA, Covington EL, Riley KO, Markert JM, Bredel M, and Fiveash JB

Subjects

Brain Neoplasms radiotherapy, Brain Neoplasms surgery, Humans, Radiometry, Radiotherapy Dosage, Radiotherapy Planning, Computer-Assisted, Radiosurgery, Radiotherapy, Intensity-Modulated

Abstract

Purpose: Properly planned single isocenter volumetric modulated arc therapy (VMAT) radiosurgery plans exhibit high quality and efficiency. We report here the largest clinical experience to date, to our knowledge, comparing manual planning with a new automated platform designed to standardize and simplify radiosurgery planning and delivery processes., Methods: We treated 693 patients with single isocenter VMAT radiosurgical plans generated by either our conventional manual (mVMAT) or a recently implemented automated (HyperArc TM ) technique. All plans targeted the gross tumor volume without margin. Radiochromic film was used for patient-specific quality assurance (PSQA). We evaluated local control and toxicity data for a subgroup of 107 patients having 377 metastatic tumors that were treated with HyperArc., Results: The median Radiation Therapy Oncology Group (RTOG) conformity index was 1.14 and was not different between the 2 techniques. The median Paddick gradient index was 5.42 for HyperArc versus 7.09 for mVMAT (P < .001). The median mean brain doses were 4.6% and 5.1% for HyperArc and mVMAT, respectively (P = .04). The PSQA for both techniques met clinical criteria, but 97% of the HyperArc plans satisfied the gamma tolerance limit recommended by the American Association of Physicists in Medicine Task Group No. 218, compared with 94% of the mVMAT plans (P = .02). The median treatment-planning times were not significantly different. The median treatment times were 10.5 and 11.4 minutes for HyperArc and mVMAT, respectively (P < .001). The Kaplan-Meier estimate of local control was 90.1% at 1 year., Conclusions: HyperArc produces high-quality radiosurgical plans that are at least as good as mVMAT plans created by an expert manual planner with easier planning and more efficient delivery workflow. A less experienced planner can produce very high-quality radiosurgical plans even for patients with more than 10 targets. The use of a single-isocenter technique for multiple targets with no PTV margin did not compromise clinical outcomes, and 1-year local control for treated targets remained congruent with historical series., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

30. Safety and interim survival data after intracranial administration of M032, a genetically engineered oncolytic HSV-1 expressing IL-12, in pet dogs with sporadic gliomas.

Author

Omar NB, Bentley RT, Crossman DK, Foote JB, Koehler JW, Markert JM, Platt SR, Rissi DR, Shores A, Sorjonen D, Yanke AB, Gillespie GY, and Chambers MR

Subjects

Animals, Dogs, Humans, Interleukin-12, Brain Neoplasms therapy, Glioma therapy, Herpesvirus 1, Human, Oncolytic Virotherapy, Oncolytic Viruses genetics

Abstract

Objective: The diagnosis of glioma remains disheartening in the clinical realm. While a multitude of studies and trials have shown promise, improvements in overall survival have been disappointing. Modeling these tumors in the laboratory setting has become increasingly challenging, given their complex in situ behavior and interactions for therapeutic evasion. Dogs, particularly brachycephalic breeds, are known to spontaneously develop gliomas that resemble human gliomas both clinically and pathophysiologically, making canines with sporadic tumors promising candidates for study. Typically, survival among these dogs is approximately 2 months with palliation alone., Methods: The authors have completed the first stage of a unique phase I dose-escalating canine clinical trial in which the safety and tolerability of M032, a nonneurovirulent oncolytic herpes simplex virus-1 vector genetically engineered to express interleukin-12, are being studied in pet dogs with gliomas undergoing maximum safe tumor resection and inoculation of the cavity with the viral infusate., Results: Twenty-five canine patients were enrolled between January 2018 and August 2020. One patient was electively withdrawn from the trial by its owner, and 3 did not receive the virus. For the 21 dogs that remained, 13 had high-grade gliomas, 5 had low-grade gliomas, and 3 were undetermined. According to histopathological analysis, 62% of the tumors were oligodendrogliomas. At the time of this report, the median overall survival from the date of treatment was 151 days (± 78 days). No significant adverse events attributable to M032 or dose-limiting toxicities have been observed to date., Conclusions: In this largest study of oncolytic viral therapy for canine brain tumors to date, treatment with M032 did not cause harm and the combination of surgery and oncolytic viral therapy may have contributed to prolonged survival in pet dogs with spontaneous gliomas. Forthcoming in-depth radiographic, immunohistochemical, and genetic analyses will afford a more advanced understanding of how this treatment impacts these tumors and the immune system. Our goal is to utilize these findings bitranslationally to inform human studies and refine therapies that will improve outcomes in both humans and pet dogs with gliomas.

Published

2021

31. Evaluation of immunologic parameters in canine glioma patients treated with an oncolytic herpes virus.

Author

Chambers MR, Foote JB, Bentley RT, Botta D, Crossman DK, Della Manna DL, Estevez-Ordonez D, Koehler JW, Langford CP, Miller MA, Markert JM, Olivier AK, Omar NB, Platt SR, Rissi DR, Shores A, Sorjonen DC, Yang ES, Yanke AB, and Gillespie GY

Abstract

Aim: To molecularly characterize the tumor microenvironment and evaluate immunologic parameters in canine glioma patients before and after treatment with oncolytic human IL-12-expressing herpes simplex virus (M032) and in treatment naïve canine gliomas., Methods: We assessed pet dogs with sporadically occurring gliomas enrolled in Stage 1 of a veterinary clinical trial that was designed to establish the safety of intratumoral oncoviral therapy with M032, a genetically modified oncolytic herpes simplex virus. Specimens from dogs in the trial and dogs not enrolled in the trial were evaluated with immunohistochemistry, NanoString, Luminex cytokine profiling, and multi-parameter flow cytometry., Results: Treatment-naive canine glioma microenvironment had enrichment of Iba1 positive macrophages and minimal numbers of T and B cells, consistent with previous studies identifying these tumors as immunologically "cold". NanoString mRNA profiling revealed enrichment for tumor intrinsic pathways consistent with suppression of tumor-specific immunity and support of tumor progression. Oncolytic viral treatment induced an intratumoral mRNA transcription signature of tumor-specific immune responses in 83% (5/6) of canine glioma patients. Changes included mRNA signatures corresponding with interferon signaling, lymphoid and myeloid cell activation, recruitment, and T and B cell immunity. Multiplexed protein analysis identified a subset of oligodendroglioma subjects with increased concentrations of IL-2, IL-7, IL-6, IL-10, IL-15, TNFα, GM-CSF between 14 and 28 days after treatment, with evidence of CD4 + T cell activation and modulation of IL-4 and IFNγ production in CD4 + and CD8 + T cells isolated from peripheral blood., Conclusion: These findings indicate that M032 modulates the tumor-immune microenvironment in the canine glioma model., Competing Interests: Conflicts of interest Markert JM and Gillespie GY are founders of and own stock and stock options (< 8% interest) in Aettis Inc., a biotech company developing other oHSVs that are not the subject of this current investigation. Gillespie GY currently serves as one of five unpaid members of the Board of Directors for Aettis Inc. Markert JM and Gillespie GY are founders of and own stock and stock options (< 25%) in Treovir, LLC, which has licensed G207 HSV that is not the subject of the current investigation. Gillespie GY has served as a paid advisor to the Program Project (Brigham and Women’s Hospital, Boston, MA) that seeks to find improved methods for the application of distinct oHSV to treat localized and metastatic cancers. This is generally, but not specifically, related to the subject matter of this investigation. Markert JM also holds intellectual property in another oHSV not the subject of this current investigation that has been licensed by Mustang Biotech Inc., and reports being an equity owner in Catherex (< 8%), which underwent a structured buyout by Amgen and no longer exists; and has served as a consultant for Imugene.

Published

2021

32. Design and Rationale for First-in-Human Phase 1 Immunovirotherapy Clinical Trial of Oncolytic HSV G207 to Treat Malignant Pediatric Cerebellar Brain Tumors.

Author

Bernstock JD, Bag AK, Fiveash J, Kachurak K, Elsayed G, Chagoya G, Gessler F, Valdes PA, Madan-Swain A, Whitley R, Markert JM, Gillespie GY, Johnston JM, and Friedman GK

Subjects

Adolescent, Cerebellar Neoplasms immunology, Cerebellar Neoplasms pathology, Child, Child, Preschool, Clinical Trials, Phase I as Topic, Cohort Studies, Combined Modality Therapy, Female, Humans, Male, Virus Replication, Cerebellar Neoplasms therapy, Oncolytic Virotherapy methods, Radiotherapy methods, Simplexvirus genetics

Abstract

Brain tumors represent the most common pediatric solid neoplasms and leading cause of childhood cancer-related morbidity and mortality. Although most adult brain tumors are supratentorial and arise in the cerebrum, the majority of pediatric brain tumors are infratentorial and arise in the posterior fossa, specifically the cerebellum. Outcomes from malignant cerebellar tumors are unacceptable despite aggressive treatments (surgery, radiation, and/or chemotherapy) that are harmful to the developing brain. Novel treatments/approaches such as oncolytic virotherapy are urgently needed. Preclinical and prior clinical studies suggest that genetically engineered oncolytic herpes simplex virus (HSV-1) G207 can safely target cerebellar malignancies and has potential to induce an antitumor immune response at local and distant sites of disease, including spinal metastases and leptomeningeal disease. Herein, we outline the rationale, design, and significance of a first-in-human immunotherapy Phase 1 clinical trial targeting recurrent cerebellar malignancies with HSV G207 combined with a single low-dose of radiation (5 Gy), designed to enhance virus replication and innate and adaptive immune responses. We discuss the unique challenges of inoculating virus through intratumoral catheters into cerebellar tumors. The trial utilizes a single arm open-label traditional 3 + 3 design with four dose cohorts. The primary objective is to assess safety and tolerability of G207 with radiation in recurrent/progressive malignant pediatric cerebellar tumors. After biopsy to prove recurrence/progression, one to four intratumoral catheters will be placed followed by a controlled-rate infusion of G207 for 6 h followed by the removal of catheters at the bedside. Radiation will be given within 24 h of virus inoculation. Patients will be monitored closely for toxicity and virus shedding. Efficacy will be assessed by measuring radiographic response, performance score, progression-free and overall survival, and quality of life. The data obtained will be invaluable in our efforts to produce more effective and less toxic therapies for children with high-grade brain tumors.

Published

2020

33. Control and Toxicity in Melanoma Versus Other Brain Metastases in Response to Combined Radiosurgery and PD-(L)1 Immune Checkpoint Inhibition.

Author

Travis RL, Marcrom SR, Brown MH, Patel MP, Markert JM, Riley KO, Conry R, Willey CD, Bredel M, and Fiveash JB

Abstract

Purpose: Prior studies have mixed conclusions about the efficacy and central nervous system (CNS) toxicity profile of combining radiosurgery with anti-programed cell death 1 (PD-1) immune checkpoint inhibition (ICI) for brain metastases. This study evaluates the safety and efficacy of combined radiosurgery and anti-PD-1 ICI for melanoma, non-small cell lung cancer (NSCLC), and renal cell carcinoma (RCC) brain metastases (BM)., Methods and Materials: Forty-one patients with 153 radiation naïve melanoma BM and 33 patients with 118 BM of NSCLC and RCC origin from 2014 through 2019 received radiosurgery and either anti PD-1 receptor inhibition or anti PD-L1 inhibition targeting the PD-1 ligand with less than 4 months separating either therapy. Similar to Radiation Therapy Oncology Group 9005, high-grade CNS toxicity was defined as irreversible grade 3 or any grade 4/5 neurologic event. Salvage resection revealing necrosis and viable tumor was considered grade 4 toxicity and local failure. An increase in greatest cross-sectional diameter of 25% on contrasted magnetic resonance imaging was designated as a local failure., Results: Median follow-up was 10 months (range, 1-41 months). Local control was estimated to be 90.3% at 1 year. Distant control was 38.8% at 1 year, and neither local nor distant control were significantly influenced by limiting steroids to the day of treatment ( P = .55, .52 respectively). One-year freedom from high-grade toxicity was 90.4% for patients and 94.6% for tumors. Though melanoma accounted for 41 (55%) patients and 153 (56%) tumors, it accounted for all high-grade toxicities ( P = .03). These patients had some combination of high tumor burden, aggressive steroid taper, and treatment with ipilimumab., Conclusions: Stereotactic radiosurgery combined with anti-PD-1 ICI appears to result in a high rate of local tumor control and a low rate of high-grade CNS toxicity, comparable to historical series with radiosurgery alone. High-grade toxicity is more likely in melanoma than RCC and NSCLC. Coming prospective studies will shed light on further questions about treatment timing, steroids, and response., (© 2020 Published by Elsevier Inc. on behalf of American Society for Radiation Oncology.)

Published

2020

34. Letter: Neurosurgeons and Curves: The Need for Critical Appraisal of Modeling in the Post-COVID Era.

Author

Lepard JR, Markert JM, and Walters BC

Published

2020

35. The One Health Consortium: Design of a Phase I Clinical Trial to Evaluate M032, a Genetically Engineered HSV-1 Expressing IL-12, in Combination With a Checkpoint Inhibitor in Canine Patients With Sporadic High Grade Gliomas.

Author

Chambers MR, Bentley RT, Crossman DK, Foote JB, Koehler JW, Markert JM, Omar NB, Platt SR, Self DM, Shores A, Sorjonen DC, Waters AM, Yanke AB, and Gillespie GY

Abstract

As the most common and deadly of primary brain tumors, malignant gliomas have earned their place within one of the most multifaceted and heavily-funded realms of medical research. Numerous avenues of pre-clinical investigation continue to provide valuable insight, but modeling the complex evolution and behavior of these tumors within a host under simulated circumstances may pose challenges to extrapolation of data. Remarkably, certain breeds of pet dogs spontaneously and sporadically develop high grade gliomas that follow similar incidence, treatment, and outcome patterns as their human glioma counterparts. The most malignant of these tumors have been refractory to limited treatment options despite aggressive treatment; outcomes are dismal with median survivals of just over 1 year in humans and 2 months in dogs. Novel treatments are greatly needed and combination therapies appear to hold promise. This clinical protocol, a dose-escalating phase I study in dogs with sporadic malignant glioma, represents a first in comparative oncology and combination immunotherapy. The trial will evaluate M032, an Interleukin-12 expressing Herpes Simplex virus, alone and combined with a checkpoint inhibitor, Indoximod. Extensive pre-clinical work has demonstrated safety of intracranial M032 administration in mice and non-human primates. M032 is currently being tested in humans with high-grade malignant gliomas. Thus, in a novel fashion, both canine and human trials will proceed concurrently allowing a direct "head-to-head" comparison of safety and efficacy. We expect this viral oncolytic therapy to be as safe as it is in human patients and M032 to (a) infect and kill glioma cells, producing a virus and tumor cell antigen-rich debris field; (b) provide an adjuvant effect due to liberation of viral DNA, which is rich in unmethylated CpG sequences that "toggle" TLR-9 receptors; and (c) express IL-12 locally, stimulating induction of TH1 lymphocytes. The resultant immune-mediated anti-viral responses should, through cross-epitope spreading, translate into a strong response to tumor antigens. The ability to compare human and dog responses in real time affords the most stringent test of suitability of the dog as an informative model of human brain tumors. Subsequent studies will allow canine trials to properly inform the design of human trials., (Copyright © 2020 Chambers, Bentley, Crossman, Foote, Koehler, Markert, Omar, Platt, Self, Shores, Sorjonen, Waters, Yanke and Gillespie.)

Published

2020

36. Letter: Emergency Response Plan During the COVID-19 Pandemic: The University of Alabama at Birmingham Experience.

Author

Laskay NMB, Estevez-Ordonez D, Omar NB, Chagoya G, Atchley TJ, Elsayed GA, Shank CD, Dalgo CE, Guthrie BL, Rozzelle CJ, and Markert JM

Published

2020

37. Efficacy of osimertinib against EGFRvIII+ glioblastoma.

Author

Chagoya G, Kwatra SG, Nanni CW, Roberts CM, Phillips SM, Nullmeyergh S, Gilmore SP, Spasojevic I, Corcoran DL, Young CC, Ballman KV, Ramakrishna R, Cross DA, Markert JM, Lim M, Gilbert MR, Lesser GJ, and Kwatra MM

Abstract

Epidermal Growth Factor Receptor variant III (EGFRvIII) is an active mutant form of EGFR that drives tumor growth in a subset of glioblastoma (GBM). It occurs in over 20% of GBMs, making it a promising receptor for small molecule targeted therapy. We hypothesize that poor penetration of the blood-brain barrier by previously tested EGFR-tyrosine kinase inhibitors (EGFR-TKIs) such as afateninb, erlotinib, gefitinib, and lapatinib played a role in their limited efficacy. The present study examined the effects of osimertinib (previously known as AZD9291) on EGFRvIII+ GBM models, both in vitro and in vivo . Therefore, a panel of six GBM stem cells (GSCs) expressing EGFRvIII+ was evaluated. The EGFRvIII+ GSC differed in the expression of EGFRvIII and other key genes. The GSC line D317, which expresses high levels of EGFRvIII and has robust tyrosine kinase activity, was selected for assessing osimertinib's efficacy. Herein, we report that osimertinib inhibits the constitutive activity of EGFRvIII tyrosine kinase with high potency (<100 nM) while also inhibiting its downstream signaling. Further, osimertinib inhibited D317's growth in vitro and in both heterotopic and orthotopic xenograft models. Additional preclinical studies are warranted to identify EGFRvIII+ GBM's molecular signature most responsive to osimertinib., Competing Interests: CONFLICTS OF INTEREST The authors report no conflicts of interest related to the data presented. A part of the study was presented at the 2017 meeting of the Society of Neuro-oncology in San Francisco, CA., (Copyright: © 2020 Chagoya et al.)

Published

2020

38. Targeting MMP-14 for dual PET and fluorescence imaging of glioma in preclinical models.

Author

Kasten BB, Jiang K, Cole D, Jani A, Udayakumar N, Gillespie GY, Lu G, Dai T, Rosenthal EL, Markert JM, Rao J, and Warram JM

Subjects

Animals, Cell Line, Tumor, Mice, Optical Imaging, Positron Emission Tomography Computed Tomography, Positron-Emission Tomography, Tissue Distribution, Glioma diagnostic imaging, Matrix Metalloproteinase 14

Abstract

Purpose: There is a clinical need for agents that target glioma cells for non-invasive and intraoperative imaging to guide therapeutic intervention and improve the prognosis of glioma. Matrix metalloproteinase (MMP)-14 is overexpressed in glioma with negligible expression in normal brain, presenting MMP-14 as an attractive biomarker for imaging glioma. In this study, we designed a peptide probe containing a near-infrared fluorescence (NIRF) dye/quencher pair, a positron emission tomography (PET) radionuclide, and a moiety with high affinity to MMP-14. This novel substrate-binding peptide allows dual modality imaging of glioma only after cleavage by MMP-14 to activate the quenched NIRF signal, enhancing probe specificity and imaging contrast., Methods: MMP-14 expression and activity in human glioma tissues and cells were measured in vitro by immunofluorescence and gel zymography. Cleavage of the novel substrate and substrate-binding peptides by glioma cells in vitro and glioma xenograft tumors in vivo was determined by NIRF imaging. Biodistribution of the radiolabeled MMP-14-binding peptide or substrate-binding peptide was determined in mice bearing orthotopic patient-derived xenograft (PDX) glioma tumors by PET imaging., Results: Glioma cells with MMP-14 activity showed activation and retention of NIRF signal from the cleaved peptides. Resected mouse brains with PDX glioma tumors showed tumor-to-background NIRF ratios of 7.6-11.1 at 4 h after i.v. injection of the peptides. PET/CT images showed localization of activity in orthotopic PDX tumors after i.v. injection of 68 Ga-binding peptide or 64 Cu-substrate-binding peptide; uptake of the radiolabeled peptides in tumors was significantly reduced (p < 0.05) by blocking with the non-labeled-binding peptide. PET and NIRF signals correlated linearly in the orthotopic PDX tumors. Immunohistochemistry showed co-localization of MMP-14 expression and NIRF signal in the resected tumors., Conclusions: The novel MMP-14 substrate-binding peptide enabled PET/NIRF imaging of glioma models in mice, warranting future image-guided resection studies with the probe in preclinical glioma models.

Published

2020

39. Safety and efficacy of oncolytic HSV-1 G207 inoculated into the cerebellum of mice.

Author

Bernstock JD, Vicario N, Li R, Nan L, Totsch SK, Schlappi C, Gessler F, Han X, Parenti R, Beierle EA, Whitley RJ, Aban I, Gillespie GY, Markert JM, and Friedman GK

Subjects

Animals, Brain Stem pathology, Brain Stem virology, Cell Line, Tumor transplantation, Cerebellar Neoplasms immunology, Cerebellar Neoplasms pathology, Cerebellum pathology, Cerebellum virology, DNA, Viral isolation & purification, Disease Models, Animal, Genetic Engineering, Herpesvirus 1, Human genetics, Humans, Injections, Intralesional, Medulloblastoma immunology, Medulloblastoma pathology, Mice, Mice, Inbred CBA, Oncolytic Virotherapy adverse effects, Oncolytic Viruses genetics, Oncolytic Viruses immunology, Cerebellar Neoplasms therapy, Herpesvirus 1, Human immunology, Medulloblastoma therapy, Oncolytic Virotherapy methods

Abstract

Primary malignant central nervous system (CNS) tumors are the leading cause of childhood cancer-related death and morbidity. While advances in surgery, radiation, and chemotherapy have improved the survival rates in children with malignant brain tumors, mortality persists in certain subpopulations and current therapies are associated with extreme morbidity. This is especially true for children with malignant infratentorial tumors. Accordingly, G207, a genetically engineered herpes simplex virus (HSV-1) capable of selectively targeting cancer cells has emerged as a promising therapeutic option for this patient population. Herein, we demonstrate that cerebellar inoculation of G207 was systemically non-toxic in an immunocompetent, HSV-1 sensitive mouse strain (CBA/J). Mice had neither abnormal brain/organ pathology nor evidence of G207 replication by immunohistochemistry at days 7 and 30 after cerebellar G207 inoculation. While a minute amount viral DNA was recovered in the cerebellum and brainstem of mice at day 7, no viral DNA persisted at day 30. Critically, G207 delivered to the cerebellum was able to target/treat the highly aggressive MYC-overexpressed group 3 murine medulloblastoma increasing survival vs controls. These results provide critical safety and efficacy data to support the translation of G207 for pediatric clinical trials in intractable cerebellar malignancies.

Published

2020

40. Independent Validation of the Colloid Cyst Risk Score to Predict Symptoms and Hydrocephalus in Patients with Colloid Cysts of the Third Ventricle.

Author

Alford EN, Rotman LE, Shank CD, Agee BS, and Markert JM

Subjects

Age Factors, Aged, Colloid Cysts complications, Colloid Cysts surgery, Disease Progression, Female, Headache etiology, Humans, Hydrocephalus etiology, Incidental Findings, Logistic Models, Magnetic Resonance Imaging, Male, Microsurgery, Middle Aged, Neuroendoscopy, Reproducibility of Results, Retrospective Studies, Risk Assessment, Colloid Cysts diagnostic imaging, Hydrocephalus epidemiology

Abstract

Background: The Colloid Cyst Risk Score (CCRS) was devised to identify patients with symptomatic colloid cyst and stratify risk of hydrocephalus. The CCRS considers patient age, presence of headache, colloid cyst diameter, fluid-attenuated inversion recovery hyperintensity, and location within the third ventricle., Objective: The purpose of this study was to independently evaluate the validity of the CCRS., Methods: Patients with a colloid cyst of the third ventricle were identified retrospectively from institutional billing records and radiology report archives. Patients without a confirmed diagnosis of colloid cyst of the third ventricle or magnetic resonance imaging of the brain were excluded. Data were collected via retrospective chart review., Results: One hundred and fifty-six patients met inclusion and exclusion criteria. In our cohort, the CCRS stratified symptomatic patients and patients with hydrocephalus across all scores (P < 0.001). From CCRS 2 to 5, the percentage of symptomatic patients increased from 13% to 100%, whereas the percentage of patients with hydrocephalus increased from 8% to 83%. Simple logistic regression showed that total CCRS, headache, axial diameter, fluid-attenuated inversion recovery hyperintensity, and risk zone were all highly predictive of symptomatic status and hydrocephalus (P < 0.001). Logistic regression with receiver operating curves for the CCRS showed an area under the curve of 0.914 for symptomatic colloid cysts and an area under the curve of 0.892 for colloid cysts with hydrocephalus., Conclusions: Our data analysis validates the predictive value of the CCRS for both symptomatic status and hydrocephalus and supports the use of the CCRS in risk stratification and clinical decision making., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

41. Interrater and Intrarater Reliability of the Colloid Cyst Risk Score.

Author

Alford EN, Rotman LE, Lepard JR, Agee BS, and Markert JM

Subjects

Adult, Age Factors, Aged, Colloid Cysts pathology, Female, Headache etiology, Humans, Hydrocephalus epidemiology, Magnetic Resonance Imaging, Male, Middle Aged, Observer Variation, Reproducibility of Results, Risk Factors, Third Ventricle pathology, Colloid Cysts complications, Hydrocephalus etiology

Abstract

Background: The Colloid Cyst Risk Score (CCRS) was developed to identify symptomatic patients and stratify risk of hydrocephalus among patients with colloid cysts. Its components consider patient age, cyst diameter, presence/absence of headache, fluid-attenuated inversion recovery (FLAIR) hyperintensity, and location within the third ventricle., Objective: To independently evaluate the inter- and intrarater reliability of the CCRS., Methods: Patients with a colloid cyst were identified from billing records and radiology archives. Three independent raters reviewed electronic medical records to determine age, presence/absence of headache, cyst diameter (mm), FLAIR hyperintensity, and risk zone location. Raters made 53 observations, including 5 repeat observations.Fleiss' generalized kappa (κ) was calculated for all of the nominal criteria, whereas Kendall's coefficient of concordance (W) and the intraclass correlation coefficient (ICC) were calculated for the overall score., Results: Total CCRS score demonstrated extremely strong agreement (W = 0.83) using Kendall's W coefficient and good agreement (ICC = 0.74) using the ICC (P < .001). For interrater reliability of individual criteria, age (κ = 1.00) and FLAIR hyperintensity (κ = 0.89) demonstrated near perfect agreement. Axial diameter (κ = 0.63) demonstrated substantial agreement, whereas agreement was moderate for risk zone (κ = 0.51) and fair for headache (κ = 0.26). Intrarater reliability for total CCRS score was extremely strong using Kendall's W, good to excellent using ICC, and fair to substantial using weighted kappa., Conclusion: The CCRS has good inter- and intrarater reliability when tested in an independent sample of patients, though strength of agreement varies among individual criteria. The validity of the CCRS requires independent evaluation., (Copyright © 2019 by the Congress of Neurological Surgeons.)

Published

2020

42. Targeted Exosomes for Drug Delivery: Biomanufacturing, Surface Tagging, and Validation.

Author

Si Y, Kim S, Zhang E, Tang Y, Jaskula-Sztul R, Markert JM, Chen H, Zhou L, and Liu XM

Subjects

Animals, Antibodies, Monoclonal chemistry, Antibodies, Monoclonal metabolism, Antineoplastic Agents pharmacokinetics, Antineoplastic Agents pharmacology, Cell Line, Tumor, Cell Survival drug effects, Depsipeptides pharmacokinetics, Depsipeptides pharmacology, Humans, Mice, Nude, Reproducibility of Results, Xenograft Model Antitumor Assays, Bioreactors, Drug Delivery Systems methods, Exosomes chemistry, Exosomes metabolism

Abstract

Exosomes hold great potential to deliver therapeutic reagents for cancer treatment due to its inherent low antigenicity. However, several technical barriers, such as low productivity and ineffective cancer targeting, need to be overcome before wide clinical applications. The present study aims at creating a new biomanufacturing platform of cancer-targeted exosomes for drug delivery. Specifically, a scalable, robust, high-yield, cell line based exosome production process is created in a stirred-tank bioreactor, and an efficient surface tagging technique is developed to generate monoclonal antibody (mAb)-exosomes. The in vitro characterization using transmission electron microscopy, NanoSight, and western blotting confirm the high quality of exosomes. Flow cytometry and confocal laser scanning microscopy demonstrate that mAb-exosomes have strong surface binding to cancer cells. Furthermore, to validate the targeted drug delivery efficiency, romidepsin, a histone deacetylase inhibitor, is loaded into mAb-exosomes. The in vitro anti-cancer toxicity study shows high cytotoxicity of mAb-exosome-romidepsin to cancer cells. Finally, the in vivo study using tumor xenograft animal model validates the cancer targeting specificity, anti-cancer efficacy, and drug delivery capability of the targeted exosomes. In summary, new techniques enabling targeted exosomes for drug delivery are developed to support large-scale animal studies and to facilitate the translation from research to clinics., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

43. Interinstitutional Plan Quality Assessment of 2 Linac-Based, Single-Isocenter, Multiple Metastasis Radiosurgery Techniques.

Author

Liu H, Thomas EM, Li J, Yu Y, Andrews D, Markert JM, Fiveash JB, Shi W, and Popple RA

Abstract

Purpose: Interest and application of stereotactic radiosurgery for multiple brain metastases continue to increase. Various planning systems are available for linear accelerator (linac)-based single-isocenter multiple metastasis radiosurgery. Two of the most advanced systems are BrainLAB Multiple Metastases Elements (MME), a dynamic conformal arc (DCA) approach, and Varian RapidArc (RA), a volumetric modulated arc therapy (VMAT) approach. In this work, we systematically compared plan quality between the 2 techniques., Methods and Materials: Thirty patients with 4 to 10 metastases (217 total; median 7.5; V min = 0.014 cm 3 ; V max = 17.73 cm 3 ) were planned with both Varian RA and MME at 2 different institutions with extensive experience in each respective technique. All plans had a single isocenter and used Varian linac equipped with high-definition multileaf collimator. RA plans used 2 to 4 noncoplanar VMAT arcs with 10 MV flattening filter-free beam. MME plans used 4 to 9 noncoplanar DCAs and 6 MV flattening filter-free beam, (minimum planning target volume [PTV min] = 0.49 cm 3 ; PTV max = 27.32 cm 3 ; PTV median = 7.05 cm 3 ). Prescriptions were 14 to 24 Gy in a single fraction. Target coverage goal was 99% of volume receiving prescription dose (D99% ≥ 100%). Plans were evaluated by Radiation Therapy Oncology Group/Paddick conformity index (CI) score, 12 Gy volume (V 12Gy ), V 8Gy , V 5Gy , mean brain dose (D mean ), and beam-on time., Results: Conformity was favorable among RA plans (median: MME CI RTOG = 1.38; RA CI RTOG = 1.21; P < .0001). V 12Gy and V 8Gy were lower for RA plans (median: MME V12 = 23.7 cm 3 ; RA V12 = 19.2 cm 3 ; P = .0001; median: MME V 8Gy = 53.6 cm 3 ; RA V 8Gy = 44.1 cm 3 ; P  = .024). V 5Gy was lower for MME plans (median: MME V 5Gy = 141.4 cm 3 ; RA V 5Gy = 142.8 cm 3 ; P = .009). Mean brain was lower for MME plans (median: MME D mean = 2.57 Gy; RA D mean = 2.76 Gy; P < .0001)., Conclusions: For linac-based multiple metastasis stereotactic radiosurgery, RapidArc VMAT facilitates favorable conformity and V 12Gy /V 8Gy volume compared with the MME DCA plan. MME planning facilitates reduced dose spill at levels ≤V 5Gy ., (© 2019 The Authors.)

Published

2019

44. Repeat gamma knife stereotactic radiosurgery in the treatment of trigeminal neuralgia: A single-center experience and focused review of the literature.

Author

Omar NB, Amburgy JW, Self DM, Christen AM, Larios EA, Ditty BJ, Jacob R, Fiveash J, Spencer S, Markert JM, Guthrie BL, Fisher WS, and Chambers MR

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Reoperation methods, Treatment Outcome, Postoperative Complications epidemiology, Postoperative Complications etiology, Radiosurgery adverse effects, Radiosurgery methods, Reoperation adverse effects, Trigeminal Neuralgia surgery

Abstract

Objectives: Repeat Gamma Knife stereotactic radiosurgery (GKSR) for refractory trigeminal neuralgia (TGN) is an increasingly common practice. Prior studies have reported varying success rates and incidence of trigeminal nerve dysfunction following repeated GKSR. We report treatment outcomes and toxicity in patients following repeat GKSR for TGN at the University of Alabama at Birmingham (UAB) with a focused review of the literature., Methods: We retrospectively reviewed medical records of 55 TGN patients re-treated with radiosurgery using the Leksell Gamma Knife® at the University of Alabama at Birmingham between 1996 and 2012. Outcomes were defined using the Modified Marseille Scale. Demographics, prior treatments and symptom duration were correlated with outcomes., Results: Eighteen patients (33%) achieved Marseille Class I or II, 14 (25%) Class III or IV, and 23 (42%) Class V at a mean follow-up of 14.4 months. Twenty-five patients (45%) developed new trigeminal nerve dysfunction after re-treatment. Of these, four (16%) did not develop dysfunction until subsequent microvascular decompression (MVD) for inadequate symptom relief., Conclusions: Although more than half of the patients undergoing repeat GKSR for refractory TGN maintained excellent or good outcomes (Marseille classes I-IV) at an average follow-up of 14.4 months, neither age, gender, nor pre-treatment duration of symptoms or interval between treatments had a statistically significant effect on outcomes. Following repeat GKSR, patients have increased risk for new-onset trigeminal nerve dysfunction and those undergoing MVD after repeat GKSR may have an increased risk for new-onset trigeminal nerve dysfunction., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

45. A novel in situ multiplex immunofluorescence panel for the assessment of tumor immunopathology and response to virotherapy in pediatric glioblastoma reveals a role for checkpoint protein inhibition.

Author

Bernstock JD, Vicario N, Rong L, Valdes PA, Choi BD, Chen JA, DiToro D, Osorio DS, Kachurak K, Gessler F, Johnston JM Jr, Atkinson TP, Whitley RJ, Bag AK, Gillespie GY, Markert JM, Maric D, and Friedman GK

Abstract

Immunotherapy with oncolytic herpes simplex virus-1 therapy offers an innovative, targeted, less-toxic approach for treating brain tumors. However, a major obstacle in maximizing oncolytic virotherapy is a lack of comprehensive understanding of the underlying mechanisms that unfold in CNS tumors/associated microenvironments after infusion of virus. We demonstrate that our multiplex biomarker screening platform comprehensively informs changes in both topographical location and functional states of resident/infiltrating immune cells that play a role in neuropathology after treatment with HSV G207 in a pediatric Phase 1 patient. Using this approach, we identified robust infiltration of CD8 + T cells suggesting activation of the immune response following virotherapy; however there was a corresponding upregulation of checkpoint proteins PD-1, PD-L1, CTLA-4, and IDO revealing a potential role for checkpoint inhibitors. Such work may ultimately lead to an understanding of the governing pathobiology of tumors, thereby fostering development of novel therapeutics tailored to produce optimal responses., (© 2019 The Author(s). Published with license by Taylor & Francis Group, LLC.)

Published

2019

46. Intratumoral spatial heterogeneity of BTK kinomic activity dictates distinct therapeutic response within a single glioblastoma tumor.

Author

Ibrahim AN, Yamashita D, Anderson JC, Abdelrashid M, Alwakeal A, Estevez-Ordonez D, Komarova S, Markert JM, Goidts V, Willey CD, and Nakano I

Abstract

Objective: Despite significant recent efforts applied toward the development of efficacious therapies for glioblastoma (GBM) through exploration of GBM's genome and transcriptome, curative therapeutic strategies remain highly elusive. As such, novel and effective therapeutics are urgently required. In this study, the authors sought to explore the kinomic landscape of GBM from a previously underutilized approach (i.e., spatial heterogeneity), followed by validation of Bruton's tyrosine kinase (BTK) targeting according to this stepwise kinomic-based novel approach., Methods: Twelve GBM tumor samples were obtained and characterized histopathologically from 2 patients with GBM. PamStation peptide-array analysis of these tissues was performed to measure the kinomic activity of each sample. The Ivy GBM database was then utilized to determine the intratumoral spatial localization of BTK activity by investigating the expression of BTK-related transcription factors (TFs) within tumors. Genetic inhibition of BTK family members through lentiviral short hairpin RNA (shRNA) knockdown was performed to determine their function in the core-like and edge-like GBM neurosphere models. Finally, the small-molecule inhibitor of BTK, ONO/GS-4059, which is currently under clinical investigation in nonbrain cancers, was applied for pharmacological inhibition of regionally specified newly established GBM edge and core neurosphere models., Results: Kinomic investigation identified two major subclusters of GBM tissues from both patients exhibiting distinct profiles of kinase activity. Comparatively, in these spatially defined subgroups, BTK was the centric kinase differentially expressed. According to the Ivy GBM database, BTK-related TFs were highly expressed in the tumor core, but not in edge counterparts. Short hairpin RNA-mediated gene silencing of BTK in previously established edge- and core-like GBM neurospheres demonstrated increased apoptotic activity with predominance of the sub-G1 phase of core-like neurospheres compared to edge-like neurospheres. Lastly, pharmacological inhibition of BTK by ONO/GS-4059 resulted in growth inhibition of regionally derived GBM core cells and, to a lesser extent, their edge counterparts., Conclusions: This study identifies significant heterogeneity in kinase activity both within and across distinct GBM tumors. The study findings indicate that BTK activity is elevated in the classically therapy-resistant GBM tumor core. Given these findings, targeting GBM's resistant core through BTK may potentially provide therapeutic benefit for patients with GBM.

Published

2019

47. A Randomized Double-Blind Placebo-Controlled Phase II Trial of Dendritic Cell Vaccine ICT-107 in Newly Diagnosed Patients with Glioblastoma.

Author

Wen PY, Reardon DA, Armstrong TS, Phuphanich S, Aiken RD, Landolfi JC, Curry WT, Zhu JJ, Glantz M, Peereboom DM, Markert JM, LaRocca R, O'Rourke DM, Fink K, Kim L, Gruber M, Lesser GJ, Pan E, Kesari S, Muzikansky A, Pinilla C, Santos RG, and Yu JS

Subjects

Aged, Antigens, Neoplasm immunology, Antineoplastic Agents, Alkylating therapeutic use, Brain Neoplasms pathology, Cancer Vaccines immunology, Cohort Studies, Dendritic Cells cytology, Dendritic Cells immunology, Disease-Free Survival, Double-Blind Method, Female, Glioblastoma pathology, Humans, Male, Middle Aged, Quality of Life, Survival Rate, Brain Neoplasms therapy, Cancer Vaccines administration & dosage, Dendritic Cells transplantation, Glioblastoma therapy, Temozolomide therapeutic use

Abstract

Purpose: To evaluate the results of the randomized, double-blind, placebo-controlled phase II clinical trial of ICT-107 in patients with newly diagnosed glioblastoma., Patients and Methods: We conducted a double-blinded randomized phase II trial of ICT-107 in newly diagnosed patients with glioblastoma (GBM) and tested efficacy, safety, quality of life (QoL), and immune response. HLA-A1 + and/or -A2 + -resected patients with residual tumor ≤1 cm 3 received radiotherapy and concurrent temozolomide. Following completion of radiotherapy, 124 patients, randomized 2:1, received ICT-107 [autologous dendritic cells (DC) pulsed with six synthetic peptide epitopes targeting GBM tumor/stem cell-associated antigens MAGE-1, HER-2, AIM-2, TRP-2, gp100, and IL13Rα2] or matching control (unpulsed DC). Patients received induction ICT-107 or control weekly × 4 followed by 12 months of adjuvant temozolomide. Maintenance vaccinations occurred at 1, 3, and 6 months and every 6 months thereafter., Results: ICT-107 was well tolerated, with no difference in adverse events between the treatment and control groups. The primary endpoint, median overall survival (OS), favored ICT-107 by 2.0 months in the intent-to-treat (ITT) population but was not statistically significant. Progression-free survival (PFS) in the ITT population was significantly increased in the ICT-107 cohort by 2.2 months ( P = 0.011). The frequency of HLA-A2 primary tumor antigen expression was higher than that for HLA-A1 patients, and HLA-A2 patients had higher immune response (via Elispot). HLA-A2 patients achieved a meaningful therapeutic benefit with ICT-107, in both the MGMT methylated and unmethylated prespecified subgroups, whereas only HLA-A1 methylated patients had an OS benefit., Conclusions: PFS was significantly improved in ICT-107-treated patients with maintenance of QoL. Patients in the HLA-A2 subgroup showed increased ICT-107 activity clinically and immunologically., (©2019 American Association for Cancer Research.)

Published

2019

48. Current Approaches and Challenges in the Molecular Therapeutic Targeting of Glioblastoma.

Author

Mooney J, Bernstock JD, Ilyas A, Ibrahim A, Yamashita D, Markert JM, and Nakano I

Subjects

Animals, Humans, Brain Neoplasms therapy, Glioblastoma therapy, Molecular Targeted Therapy methods

Abstract

Surgical resection continues to predominate as the primary treatment modality in glioblastoma (GBM). Effective chemotherapeutic/biologic agents capable of targeting GBM have yet to be developed in part because of the exceptionally heterogeneous nature and unique microenvironmental conditions associated with this malignant neoplasm. Temozolomide and bevacizumab represent the only U.S. Food and Drug Administration-approved agents for primary and recurrent GBM, respectively. Given the high therapeutic resistance of GBM to current therapies, as well as the failure of bevacizumab to prolong overall survival, new therapeutic agents are urgently warranted and are now in the preclinical and clinical phases of development. Accordingly, clinical trials evaluating the efficacy of immune checkpoint inhibition, chimeric antigen receptor T cell therapy, virotherapies, and tumor vaccination therapy are all under way in GBM. Herein, we review the application of current/novel therapeutics in GBM and in so doing attempt to highlight the most promising solutions to overcome current failures., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

49. Focal Management of Large Brain Metastases and Risk of Leptomeningeal Disease.

Author

Marcrom SR, Foreman PM, Colvin TB, McDonald AM, Kirkland RS, Popple RA, Riley KO, Markert JM, Willey CD, Bredel M, and Fiveash JB

Abstract

Purpose: Surgery is often used for large or symptomatic brain metastases but is associated with risk of developing leptomeningeal dissemination. Emerging data suggest that fractionated stereotactic radiation therapy (FSRT) is an effective management strategy in large brain metastases. We sought to retrospectively compare leptomeningeal disease (LMD) and local control (LC) rates for patients treated with surgical resection followed by radiosurgery (S + SRS) versus FSRT alone., Methods and Materials: We identified all patients with a brain metastasis ≥3 cm in diameter treated from 2004 to 2017 with S + SRS or FSRT alone (25 or 30 Gy in 5 fractions) who had follow-up imaging. LMD was defined as focal or diffuse leptomeningeal enhancement that was >5 mm from the index metastasis. Categorical baseline characteristics were compared with the χ 2 test. LMD and LC rates were evaluated by the Kaplan-Meier (KM) method, with the log-rank test used to compare subgroups., Results: A total of 125 patients were identified, including 82 and 43 in the S + SRS and FSRT alone groups, respectively. Median pretreatment Graded Prognostic Assessment in the S + SRS and FSRT groups was 2.5 and 1.5, respectively ( P  < .001). Median follow-up was 7 months. The KM estimate of 12-month LMD rate in the S + SRS and FSRT groups was 45% and 19%, respectively ( P  = .048). The KM estimate of 12-month local control in the S + SRS and FSRT groups was 70% and 69%, respectively ( P  = .753). The 12-month KM estimate of grade ≥3 toxicity was 1.4% in S + SRS group versus 6.3% in the FSRT alone group ( P  = .248). After adjusting for graded prognostic assessment (GPA), no overall survival difference was observed between groups ( P  = .257)., Conclusions: Surgery is appropriate for certain brain metastases, but S + SRS may increase LMD risk compared with FSRT alone. Because S + SRS and FSRT seem to have similar LC, FSRT may be a viable alternative to S + SRS in select patients with large brain metastases., (© 2019 The Author(s).)

Published

2019

50. Oncolytic herpes simplex virus immunotherapy for brain tumors: current pitfalls and emerging strategies to overcome therapeutic resistance.

Author

Totsch SK, Schlappi C, Kang KD, Ishizuka AS, Lynn GM, Fox B, Beierle EA, Whitley RJ, Markert JM, Gillespie GY, Bernstock JD, and Friedman GK

Subjects

Adult, Brain Neoplasms genetics, Child, Genetic Therapy adverse effects, Genetic Therapy methods, Genetic Vectors, Humans, Immunotherapy adverse effects, Immunotherapy methods, Oncolytic Virotherapy adverse effects, Oncolytic Viruses physiology, Treatment Outcome, Brain Neoplasms therapy, Drug Resistance, Neoplasm immunology, Herpesvirus 1, Human physiology, Oncolytic Virotherapy methods, Therapies, Investigational methods, Therapies, Investigational trends

Abstract

Malignant tumors of the central nervous system (CNS) continue to be a leading cause of cancer-related mortality in both children and adults. Traditional therapies for malignant brain tumors consist of surgical resection and adjuvant chemoradiation; such approaches are often associated with extreme morbidity. Accordingly, novel, targeted therapeutics for neoplasms of the CNS, such as immunotherapy with oncolytic engineered herpes simplex virus (HSV) therapy, are urgently warranted. Herein, we discuss treatment challenges related to HSV virotherapy delivery, entry, replication, and spread, and in so doing focus on host anti-viral immune responses and the immune microenvironment. Strategies to overcome such challenges including viral re-engineering, modulation of the immunoregulatory microenvironment and combinatorial therapies with virotherapy, such as checkpoint inhibitors, radiation, and vaccination, are also examined in detail.

Published

2019