Chronic convection-enhanced delivery of topotecan for patients with recurrent glioblastoma: a first-in-patient, single-centre, single-arm, phase 1b trial

BACKGROUND

Topotecan is cytotoxic to glioma cells but is clinically ineffective because of drug delivery limitations. Systemic delivery is limited by toxicity and insufficient brain penetrance, and, to date, convection-enhanced delivery (CED) has been restricted to a single treatment of restricted duration. To address this problem, we engineered a subcutaneously implanted catheter-pump system capable of repeated, chronic (prolonged, pulsatile) CED of topotecan into the brain and tested its safety and biological effects in patients with recurrent glioblastoma.

METHODS

We did a single-centre, open-label, single-arm, phase 1b clinical trial at Columbia University Irving Medical Center (New York, NY, USA). Eligible patients were at least 18 years of age with solitary, histologically confirmed recurrent glioblastoma showing radiographic progression after surgery, radiotherapy, and chemotherapy, and a Karnofsky Performance Status of at least 70. Five patients had catheters stereotactically implanted into the glioma-infiltrated peritumoural brain and connected to subcutaneously implanted pumps that infused 146 μM topotecan 200 μL/h for 48 h, followed by a 5-7-day washout period before the next infusion, with four total infusions. After the fourth infusion, the pump was removed and the tumour was resected. The primary endpoint of the study was safety of the treatment regimen as defined by presence of serious adverse events. Analyses were done in all treated patients. The trial is closed, and is registered with ClinicalTrials.gov, NCT03154996.

FINDINGS

Between Jan 22, 2018, and July 8, 2019, chronic CED of topotecan was successfully completed safely in all five patients, and was well tolerated without substantial complications. The only grade 3 adverse event related to treatment was intraoperative supplemental motor area syndrome (one [20%] of five patients in the treatment group), and there were no grade 4 adverse events. Other serious adverse events were related to surgical resection and not the study treatment. Median follow-up was 12 months (IQR 10-17) from pump explant. Post-treatment tissue analysis showed that topotecan significantly reduced proliferating tumour cells in all five patients.

INTERPRETATION

In this small patient cohort, we showed that chronic CED of topotecan is a potentially safe and active therapy for recurrent glioblastoma. Our analysis provided a unique tissue-based assessment of treatment response without the need for large patient numbers. This novel delivery of topotecan overcomes limitations in delivery and treatment response assessment for patients with glioblastoma and could be applicable for other anti-glioma drugs or other CNS diseases. Further studies are warranted to determine the effect of this drug delivery approach on clinical outcomes.

FUNDING

US National Institutes of Health, The William Rhodes and Louise Tilzer Rhodes Center for Glioblastoma, the Michael Weiner Glioblastoma Research Into Treatment Fund, the Gary and Yael Fegel Foundation, and The Khatib Foundation.

Impact of Diabetes Mellitus on Head and Neck Cancer Patients Undergoing Surgery

Objective

The impact of diabetes mellitus (DM) on surgical outcomes and cost of care for patients undergoing surgery for head and neck cancer (HNCA) is not well established. We used the Nationwide Inpatient Sample to analyze the postoperative impact of DM on HNCA patients.

Study Design

Population-based inpatient registry analysis.

Setting

Academic medical center.

Subjects and Methods

Discharge data from the Nationwide Inpatient Sample were analyzed for patients undergoing HNCA surgery from 2002 to 2010. Patient demographics, comorbidities, length of stay, hospital charges, and postoperative complications were compared between HNCA patients with and without DM.

Results

Of 31,075 patients, 4029 patients (13.0%) had a DM diagnosis. DM patients were older (65.7 ± 10.8 vs 61.1 ± 14.1 years old; P < .001), had more preexisting comorbidities, had longer hospitalizations, and incurred greater hospital charges. Compared with the non-DM cohort, DM patients experienced significantly higher rates of postoperative infections (2.6% vs 2.1%, P = .025), cardiac events (9.0% vs 4.3%, P < .001), pulmonary edema/failure (6.6% vs 5.7%, P = .023), acute renal failure (3.3% vs 1.5%, P < .001), and urinary tract infections (2.8 % vs 2.1%, P = .005). No differences in surgical wound healing rates were observed (0.1 vs 0.1, P = .794). On multivariate logistic regression corrected for age and race, DM patients had greater odds of postoperative infections (1.382, P = .007), cardiac events (1.893, P < .001), and acute renal failure (2.023, P < .001).

Conclusions

DM is associated with greater length of stay and hospital charges among HNCA patients. DM patients have significantly greater rates of postoperative complications, including postoperative infections, cardiac events, and acute renal failure.

Injury in aged animals robustly activates quiescent olfactory neural stem cells

While the capacity of the olfactory epithelium (OE) to generate sensory neurons continues into middle age in mice, it is presumed that this regenerative potential is present throughout all developmental stages. However, little experimental evidence exists to support the idea that this regenerative capacity remains in late adulthood, and questions about the functionality of neurons born at these late stages remain unanswered. Here, we extend our previous work in the VNO to investigate basal rates of proliferation in the OE, as well as after olfactory bulbectomy (OBX), a commonly used surgical lesion. In addition, we show that the neural stem cell retains its capacity to generate mature olfactory sensory neurons in aged animals. Finally, we demonstrate that regardless of age, a stem cell in the OE, the horizontal basal cell (HBC), exhibits a morphological switch from a flattened, quiescent phenotype to a pyramidal, proliferative phenotype following chemical lesion in aged animals. These findings provide new insights into determining whether an HBC is active or quiescent based on a structural feature as opposed to a biochemical one. More importantly, it suggests that neural stem cells in aged mice are responsive to the same signals triggering proliferation as those observed in young mice.

Sinonasal and ventral skull base inflammatory pseudotumor: a systematic review

OBJECTIVES/HYPOTHESIS

Inflammatory pseudotumor is a benign idiopathic inflammatory process often misdiagnosed as an infection or neoplasm. This review analyzes all reported cases of sinonasal and ventral skull base inflammatory pseudotumor to date, and provides a framework for evaluation and management of this uncommon condition.

DATA SOURCES

MEDLINE/PubMed database.

REVIEW METHODS

A search for articles related to sinonasal and ventral skull base inflammatory pseudotumor, along with bibliographies of those articles, was performed. Demographics, presentation, radiographic findings, treatment, follow-up, and outcome were analyzed.

RESULTS

Thirty-three articles were reviewed, including a total of 87 patients. The most common presenting symptom was vision change (58.6%). Sinonasal and ventral skull base inflammatory pseudotumor was found in the cavernous sinus in 46.0% of cases. The lesion appeared isointense (66.7% of cases) and homogeneously enhancing on T1-weighted magnetic resonance imaging (MRI), whereas it appeared hypointense on T2-weighted MRI in 90.7% of cases. Inflammatory pseudotumor appeared hyperdense on computed tomography in 78.9% of cases. Histopathological analysis of biopsied specimens revealed presence of inflammatory cells (94.4%) and fibrosis (80.3%). Corticosteroids alone were the most common treatment modality (55.2%), resulting in disease-free patients in 22.9% of cases over a median follow-up period of 17.6 months. Surgical management alone was uncommon (8.0%), but showed high success rate (57.1%).

CONCLUSION

This review is the most comprehensive analysis of sinonasal and ventral skull base inflammatory pseudotumor to date. Radiologic findings and histopathological analysis are essential for diagnosis. Corticosteroids are the most common treatment modality. Surgery, although uncommon, appears to be an efficacious treatment modality.

Laryngeal Verrucous Carcinoma: A Systematic Review

Objective

Laryngeal verrucous carcinoma (LVC) is a rare, locally invasive neoplasm comprising 1% to 3.4% of laryngeal carcinomas. Management strategies are a topic of ongoing conversation, and no definitive treatment protocol based on T stage and presentation exists. This review examines characteristics, treatment modalities, and patient outcomes of LVC.

Data Sources

PubMed, MEDLINE, EMBASE, and Web of Science.

Methods

Databases were searched through October 29, 2015, for literature detailing individual patient cases of LVC. Variables analyzed included patient demographics, tumor characteristics, tumor size, treatment, and outcomes.

Results

Thirty-seven articles with 369 cases were included. LVC was found more commonly in males (13.8:1), at an average age of 58.7 years, and located in the glottis (74.0%). Most patients had local disease at presentation (94.9%). The most common presenting symptom was hoarseness (92.3%). The most common primary treatment was surgery alone (72.3%), with local excision as the most common technique (56.8%). In patients with data available on both surgical modality and T stage, most patients who presented as T1 and were managed surgically underwent local excision (79.2%). Surgical treatment alone led to high rates of disease-free survival at follow-up (86.8%). A large number of patients presenting with T1 disease were disease free at follow-up (88.6%). Overall survival was 80.3%.

Conclusion

LVC is most often managed surgically. The extent of surgical resection may be guided by T stage, with smaller tumors resected via local excision and larger tumors via partial or total laryngectomy. Regardless of T stage or therapy, LVC has a good posttreatment prognosis.

The Sledgehammer in Precision Medicine: Dexamethasone and Immunotherapeutic Treatment of Glioma

Understanding dexamethasone's effect on the immune microenvironment in glioma patients is of key importance. We performed a comprehensive literature review using the NCBI PubMed database for all articles meeting the following search criteria. ((dexamethasone[All Fields]) AND (glioma or glioblastoma)[Title/Abstract]) AND (immune or T cell or B cell or monocyte or neutrophil or macrophage). Forty-three manuscripts were deemed relevant to the topic at hand. Multiple clinical studies have linked dexamethasone use to decreased overall survival while preclinical studies in murine glioma models have demonstrated decreased tumor-infiltrating lymphocytes after dexamethasone administration.

An immune response characterizes early Alzheimer's disease pathology and subjective cognitive impairment in hydrocephalus biopsies

Early Alzheimer's disease (AD) pathology can be found in cortical biopsies taken during shunt placement for Normal Pressure Hydrocephalus. This represents an opportunity to study early AD pathology in living patients. Here we report RNA-seq data on 106 cortical biopsies from this patient population. A restricted set of genes correlate with AD pathology in these biopsies, and co-expression network analysis demonstrates an evolution from microglial homeostasis to a disease-associated microglial phenotype in conjunction with increasing AD pathologic burden, along with a subset of additional astrocytic and neuronal genes that accompany these changes. Further analysis demonstrates that these correlations are driven by patients that report mild cognitive symptoms, despite similar levels of biopsy β-amyloid and tau pathology in comparison to patients who report no cognitive symptoms. Taken together, these findings highlight a restricted set of microglial and non-microglial genes that correlate with early AD pathology in the setting of subjective cognitive decline.

Laryngeal adenocarcinoma not otherwise specified: A population-based perspective

OBJECTIVES/HYPOTHESIS

Laryngeal adenocarcinoma not otherwise specified (LAdC NOS) is a category to which variants of minor salivary gland tumors of the larynx that do not fit other well-characterized histological subtypes are assigned. Its rare nature and inconsistency in available reports has hindered the investigation and further understanding of this malignancy. In this study, a national population-based resource was used to evaluate the epidemiology and survival of this rare entity.

STUDY DESIGN

Retrospective population-based analysis.

METHODS

The Surveillance, Epidemiology, and End Results database was searched for patients diagnosed with LAdC NOS between 1973 and 2012. Patient demographics, tumor location, TNM stage, grade, incidence, and survival trends were collected and analyzed.

RESULTS

One hundred eleven patients met criteria for diagnosis of LAdC NOS, of which the majority were male (80.2%), white (84.7%), with a mean age of 65 years. The supraglottis was the most common site at presentation (38.7%). The majority presented with grade II tumor (45.7%). TNM staging revealed T2 (36.8%), N0 (72.2%), and M0 (88.9%) to be the most common classification. The overall incidence between the years of 2000 and 2012 was 0.008/100,000 individuals. The overall 5-year disease-specific survival (DSS) was 60.1%, compared to 85.7% in patients treated with combination surgery and radiotherapy.

CONCLUSIONS

LAdC NOS is an uncommon malignancy. It most commonly affects men in their mid-60s, indiscriminate of race. Lesions most commonly present in the supraglottis and are more often low grade histologically. DSS is highest in patient treated with combination surgery and radiotherapy.

LEVEL OF EVIDENCE

4 Laryngoscope, 2016 127:424-429, 2017.

A Wireless, Mechanically Flexible, 25μm-Thick, 65,536-Channel Subdural Surface Recording and Stimulating Microelectrode Array with Integrated Antennas

This paper presents a fully wireless microelectrode array (MEA) system-on-chip (SoC) with 65,536 electrodes for non-penetrative cortical recording and stimulation, featuring a total sensing area of 6.8mm×7.4mm with a 26.5μm×29μm electrode pitch. Sensing, data telemetry, and powering are monolithically integrated on a single chip, which is made mechanically flexible to conform to the surface of the brain by substrate removal to a total thickness of 25μm allowing it to be contained entirely in the subdural space under the skull.

No-Reflow Post-Recanalization in Acute Ischemic Stroke: Mechanisms, Measurements, and Molecular Markers

Acute ischemic stroke remains the primary cause of disability worldwide. For patients with large vessel occlusions, intravenous thrombolysis followed by mechanical thrombectomy remains the standard of care. Revascularization of the large vessel is typically successful. However, despite reopening of the occluded vessel, many patients fail to return to independence. Functional failure, despite macrovascular recanalization, is often referred to as the no-reflow phenomenon. Even with an extensive characterization of reperfusion in animal models, numerous mechanisms may explain no-reflow. Further, uniform measurements of this microvascular dysfunction and prognostic markers associated with no-reflow are lacking. In this review, we highlight a number of mechanisms that may explain no-reflow, characterize current multimodal measurements, and assess its molecular markers.

DDEL-07. A Phase I study examining the feasibility of intermittent convection-enhanced delivery (CED) of MTX110 for the treatment of children with newly diagnosed diffuse midline gliomas (DMGs)

Histone deacetylase inhibitors have been found preclinically to be among the most active agents against DMGs, however, they are clinically ineffective with systemic delivery due to blood brain barrier limitations and toxicity. Using a repurposed device (implantable subcutaneous pump connected with a catheter directly implanted into the pons/thalamus) we are performing a phase I, standard 3 + 3 dose escalation study to investigate the safety and feasibility of repeated infusions of MTX110 (Midatech Pharma), a water-soluble formulation of panobinostat, via CED. Eligible patents are between 3 and 18 years of age with newly diagnosed DMG following radiation therapy, without hemorrhage or cyst in the tumor, and having intact organ function. Following tumor biopsy and device implantation, patients receive two 48-hour-infusion pulses 7 days apart of MTX110 (30, 60, or 90 mM). The infusion pump is prefilled with MTX110 (and gadolinium for co-infusion to serve as a surrogate for drug distribution) and administered using the wireless N’Vision clinical programmer at a rate of 0.2 mL/hr. Seven patients (30 mM group, n=3 and 60 mM group, n=4) have been treated with the MTX110 infusate. All but one patient had adequate tumor coverage as measured by co-infused gadolinium on MRI. One patient suffered a severe adverse event related to the infusion and tumor anatomy. Four patients had Grade 2 transient neurological deficits related to biopsy (n=1) and the infusion (n=3). In a follow up period of 12-22 months from diagnosis, progression free survival ranges from 8 to 20 months. With one objective response, 3 patients remain alive (2 without progression, both at 12 months, and 1 with progressive disease, at 22 months post diagnosis). Three patients are expected to be treated at 90 mM level. Using MTX110, we demonstrated the safety and feasibility of repeated drug infusion by CED in DMG patients.

DDEL-13. FOCUSED ULTRASOUND MEDIATED BLOOD BRAIN BARRIER DISRUPTION IN A MURINE MODEL OF PONTINE GLIOMA: A SAFETY AND FEASIBILITY STUDY

BACKGROUND

Drug delivery remains a major obstacle in DIPG, as the blood brain barrier (BBB) limits the penetration of systemic therapies to the brainstem. Focused ultrasound (FUS) is an exciting new technology that, when combined with microbubbles, can open the BBB permitting the entry of drugs across the cerebrovasculature. Given that the utility of FUS in brainstem tumors remains unknown, the purpose of our study was to determine the safety and feasibility of this technique in a murine pontine glioma model.

METHODS

A syngeneic orthotopic model was established by stereotactic injection of PDGF-B+PTEN-/-p53-/- murine glioma cells (10,000/1ul) into the pons of B6 albino mice. A single-element, spherical-segment FUS transducer (center frequency=1.5MHz) driven by a function generator through a power amplifier (acoustic pressure=0.7MPa) was used with concurrent intravenous microbubble injection (FUS+MB) to sonicate the tumor on post-injection day 14. BBB opening was confirmed with gadolinium-enhanced MRI and Evans blue. Kondziela inverted screen (KIS) testing was completed to measure motor function. Mice were either immediately sacrificed for histopathological assessment or serially monitored for survival.

RESULTS

In mice treated with FUS (n=11), there was no measured deficit in KIS testing. Additionally, the degree of intra-tumoral hemorrhage and inflammation on H&E in control (n=5) and treated mice (n=5) was similar. Lastly, there was no difference in survival between the groups (control, n=6, median=26 days; FUS, n=6, median=25 days, p&gt;0.05).

CONCLUSION

FUS+MB is a safe and feasible technique to open the BBB in a preclinical pontine glioma model.

Stable, chronic in-vivo recordings from a fully wireless subdural-contained 65,536-electrode brain-computer interface device

Minimally invasive, high-bandwidth brain-computer-interface (BCI) devices can revolutionize human applications. With orders-of-magnitude improvements in volumetric efficiency over other BCI technologies, we developed a 50-μm-thick, mechanically flexible micro-electrocorticography (μECoG) BCI, integrating a 256×256 array of electrodes, signal processing, data telemetry, and wireless powering on a single complementary metal-oxide-semiconductor (CMOS) substrate containing 65,536 recording channels, from which we can simultaneously record a selectable subset of up to 1024 channels at a given time. Fully implanted below the dura, our chip is wirelessly powered, communicating bi-directionally with an external relay station outside the body. We demonstrated chronic, reliable recordings for up to two weeks in pigs and up to two months in behaving non-human primates from somatosensory, motor, and visual cortices, decoding brain signals at high spatiotemporal resolution.

CTNI-25. PHASE IB CLINICAL TRIAL OF CHRONIC CONVECTION-ENHANCED DELIVERY OF TOPOTECAN FOR RECURRENT GLIOBLASTOMA

OBJECTIVES

Convection-enhanced delivery (CED) provides pharmacokinetic advantages over systemic delivery for achieving cytotoxic drug levels into targeted regions of the brain. A major shortcoming of CED has been the need to limit treatment duration because of infection risks associated with external pumps. We engineered a subcutaneously implanted catheter-pump construct for prolonged CED which was successfully tested in a large animal model and then approved by the FDA for a Phase Ib clinical trial with topotecan in patients with refractory glioblastoma (IND 131889).

METHODS

Five patients with recurrent glioblastoma underwent surgical implantation of a subcutaneous pump and catheter that infused intracerebral topotecan over 30 days. Gadolinium was co-infused as a surrogate tracer and advanced non-invasive radiographic imaging was used to monitor drug distribution and pharmacological effects. Tissue from multiple radiographically-localized regions of each tumor and surrounding brain was procured pre-treatment at the time of catheter implantation and then post-treatment when tumors were surgically resected. Tissue was used for drug level measurements and advanced molecular, genomic and cellular analysis of treatment effects.

RESULTS

Treatments were successfully completed in all five patients without significant complications. The safety and tolerability of treatment was validated by quality-of-life measures and neurological assessments. Noninvasive imaging demonstrated large and stable drug distribution volumes. Comprehensive tissue analysis demonstrated effective targeting of mitotically active tumor cells while sparing neurons.

CONCLUSIONS

We engineered a subcutaneously implanted catheter-pump construct for chronic CED that was successfully tested in a Phase Ib clinical trial with topotecan in recurrent glioblastoma patients. Analysis of pre- and post-treatment tissue showed significant anti-tumor activity from topotecan that was not harmful to normal brain. Chronic CED combined with non-invasive real time drug distribution monitoring provides a safe and effective glioma strategy suitable for clinical use.

Alzheimer's disease CSF biomarkers correlate with early pathology and alterations in neuronal and glial gene expression

INTRODUCTION

Normal pressure hydrocephalus (NPH) patients undergoing cortical shunting frequently show early AD pathology on cortical biopsy, which is predictive of progression to clinical AD. The objective of this study was to use samples from this cohort to identify CSF biomarkers for AD-related CNS pathophysiologic changes using tissue and fluids with early pathology, free of post-mortem artifact.

METHODS

We analyzed Simoa, proteomic, and metabolomic CSF data from 81 patients with previously documented pathologic and transcriptomic changes.

RESULTS

AD pathology on biopsy correlates with CSF β-amyloid-40/42, neurofilament light chain (NfL), and phospho-tau-181(p-tau181)/β-amyloid-42, while several gene expression modules correlate with NfL. Proteomic analysis highlights 7 core proteins that correlate with pathology and gene expression changes on biopsy, and metabolomic analysis of CSF identifies disease-relevant groups that correlate with biopsy data..

DISCUSSION

As additional biomarkers are added to AD diagnostic panels, our work provides insight into the CNS pathophysiology these markers are tracking.

Progressive microvascular failure in acute ischemic stroke: A systematic review, meta-analysis, and time-course analysis

This systematic review, meta-analysis, and novel time course analysis examines microvascular failure in the treatment of acute ischemic stroke (AIS) patients undergoing endovascular therapy (EVT) and/or thrombolytic administration for stroke management. A systematic review and meta-analysis following PRIMSA-2020 guidelines was conducted along with a novel curve-of-best fit analysis to elucidate the time-course of microvascular failure. Scopus and PubMed were searched using relevant keywords to identify studies that examine recanalization and reperfusion assessment of AIS patients following large vessel occlusion. Meta-analysis was conducted using a random-effects model. Curve-of-best-fit analysis of microvascular failure rate was performed with a negative exponential model. Twenty-seven studies with 1151 patients were included. Fourteen studies evaluated patients within a standard stroke onset-to-treatment time window (≤6 hours after last known normal) and thirteen studies had an extended time window (>6 hours). Our analysis yields a 22% event rate of microvascular failure following successful recanalization (95% CI: 16-30%). A negative exponential curve modeled a microvascular failure rate asymptote of 28.5% for standard time window studies, with no convergence of the model for extended time window studies. Progressive microvascular failure is a phenomenon that is increasingly identified in clinical studies of AIS patients undergoing revascularization treatment.

Alzheimer's disease CSF biomarkers correlate with early pathology and alterations in neuronal and glial gene expression

INTRODUCTION

Normal pressure hydrocephalus (NPH) patients undergoing cortical shunting frequently show early Alzheimer's disease (AD) pathology on cortical biopsy, which is predictive of progression to clinical AD. The objective of this study was to use samples from this cohort to identify cerebrospinal fluid  (CSF) biomarkers for AD-related central nervous system (CNS) pathophysiologic changes using tissue and fluids with early pathology, free of post mortem artifact.

METHODS

We analyzed Simoa, proteomic, and metabolomic CSF data from 81 patients with previously documented pathologic and transcriptomic changes.

RESULTS

AD pathology on biopsy correlates with CSF β-amyloid-42/40, neurofilament light chain (NfL), and phospho-tau-181(p-tau181)/β-amyloid-42, while several gene expression modules correlate with NfL. Proteomic analysis highlights seven core proteins that correlate with pathology and gene expression changes on biopsy, and metabolomic analysis of CSF identifies disease-relevant groups that correlate with biopsy data.

DISCUSSION

As additional biomarkers are added to AD diagnostic panels, our work provides insight into the CNS pathophysiology these markers are tracking.

HIGHLIGHTS

AD CSF biomarkers correlate with CNS pathology and transcriptomic changes. Seven proteins correlate with CNS pathology and gene expression changes. Inflammatory and neuronal gene expression changes correlate with YKL-40 and NPTXR, respectively. CSF metabolomic analysis identifies pathways that correlate with biopsy data. Fatty acid metabolic pathways correlate with β-amyloid pathology.

COMP-12. SINGLE-CELL TRANSCRIPTOME PROFILING OF GBM TISSUE ACUTE SLICE CULTURES FOR PERSONALIZED DRUG SCREENING

Glioblastoma (GBM) is the most common and malignant type of primary brain tumor, and more effective treatment options are needed. Both inter- and intratumoral heterogeneity present major challenges to the application of targeted therapies in GBM. Therefore, precision medicine approaches to GBM would benefit significantly from the ability to predict drugs or drug combinations that target specific subpopulations of tumor cells. Model systems, such as adherent cell lines, neurospheres, patient-derived xenografts (PDXs), and patient-derived organoids, have been reported as platforms for drug screening and accessing drug responses. However, these models do not recapitulate the full heterogeneity of GBM tissue, lack key components of the tumor microenvironment or take weeks to months to establish, which limits the predictive power of drug response assays or delays clinical decision-making. To address these limitations, we are combining ex vivo slices of intact, patient-derived GBM tissue with single-cell RNA-seq (scRNA-seq) for small-scale drug screening and assessment of patient- and cell type-specific drug responses. We generated slices from both preclinical mouse glioma models and surgical specimens from GBM patients and showed that acute slices preserved both the tumor heterogeneity and tumor microenvironment observed in scRNA-seq of cells directly isolated from tumor tissue. To test drug responses, we treated tissue slices from GBM mouse models and five different patients with six drugs for 18hr. By performing scRNA-Seq and analyzing transcriptional profiles of treated and untreated control slices, we identified drug-induced transcriptional responses in specific subpopulations of tumor cells, patient-specific drug sensitivities, and drug effects conserved in both mouse and human tumors. The GBM tissue slices were generated immediately following surgical resection, and experiments were completed within 24 hours. With these features, our method is attractive for rapidly accessing cell type- and patient-specific drug responses and has potential for preclinical drug screening and guiding personalized treatment for GBM.