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Introduction: Combination of daratumumab (Dara) and lenalidomide (Len) may enhance the function of teclistamab (Tec), potentially resulting in improved antimyeloma activity in a broader population. We present initial safety and efficacy data of Tec-Dara- Len combination in patients with multiple myeloma (MM) in a phase 1b study (MajesTEC-2;NCT04722146). Method(s): Eligible patients who received 1-3 prior lines of therapy (LOT), including a proteasome inhibitor and immune-modulatory drug, were given weekly doses of Tec (0.72-or- 1.5 mg/kg with step-up dosing) + Dara 1800 mg + Len 25 mg. Responses per International Myeloma Working Group criteria, adverse events (Aes) per CTCAE v5.0, and for cytokine release syndrome (CRS) and immune effector cell-associated neurotoxicity syndrome (ICANS) per ASTCT guidelines, were assessed. Result(s): 32 patients received Tec-Dara- Len (0.72 mg/kg, n = 13;1.5 mg/kg, n = 19). At data cut-off (11 July 2022), median follow-up (range) was 5.78 months (1.0-10.4) and median treatment duration was 4.98 months (0.10-10.35). Median age was 62 years (38-75);87.5% were male. Median prior LOT was 2 (1-3), 18.8% were refractory to Dara and 28.1% refractory to Len. CRS was most frequent AE (81.3% [n = 26], all grade 1/2), 95% occurred during cycle1. Median time to onset was 2 days (1-8), median duration was 2 days (1-22). No ICANS were reported. Frequent Aes (>=25.0% across both dose levels) were neutropenia (75.0% [n = 24];grade 3/4: 68.8% [n = 22]), fatigue (43.8% [n = 14];grade 3/4: 6.3% [n = 2]), diarrhoea (37.5% [n = 12];all grade 1/2), insomnia (31.3% [n = 10];grade 3/4: 3.1% [n = 1]), cough (28.1% [n = 9];all grade 1/2), hypophosphatemia (25.0% [n = 8];all grade 1/2), and pyrexia (25% [n = 8];grade 3/4: 6.3% [n = 2]). Febrile neutropenia frequency was 12.5% (n = 4). Infections occurred in 24 patients (75.0%;grade 3/4: 28.1% [n = 9]). Most common were upper respiratory infection (21.9% [n = 7]), COVID-19 (21.9% [n = 7]), and pneumonia (21.9% [n = 7]). Three (9.4%) had COVID-19 pneumonia. One (3.1%) discontinued due to COVID-19 infection and this patient subsequently died of this infection. Overall response rate (ORR, median follow-up) was 13/13 (8.61 months) at 0.72 mg/kg and 13/16 evaluable patients (less mature at 4.17 months) at 1.5 mg/kg. 12 patients attained very good/better partial response at 0.72 mg/kg dose, and response was not mature for 1.5 mg/kg group. Median time to first response was 1.0 month (0.7-2.0). Preliminary pharmacokinetic concentrations of Tec-Dara- Len were similar as seen with Tec monotherapy. Tec-Dara- Len- treatment led to proinflammatory cytokine production and T-cell activation. Conclusion(s): The combination of Tec-Dara- Len has no new safety signals beyond those seen with Tec or Dara-Len individually. Promising ORR supports the potential for this combination to have enhanced early disease control through the addition of Tec. These data warrant further investigation.
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The TG6002.03 trial is a dose-escalation phase 1 clinical trial of TG6002 infusion via the hepatic artery in patients with liver-dominant colorectal cancer metastases. TG6002 is an engineered Copenhagen strain oncolytic Vaccinia virus, deleted of thymidine kinase and ribonucleotide reductase to enhance tumor selective viral replication and expressing FCU1, an enzyme converting the non-cytotoxic prodrug 5-fluorocytosine (5-FC) into the chemotherapeutic compound 5-fluorouracil (5-FU). In this trial, patients with advanced unresectable liver-dominant metastatic colorectal cancer who had failed previous oxaliplatin and irinotecan-based chemotherapy were treated with up to 2 cycles of TG6002 infusion 6 weeks apart via the hepatic artery on day 1 combined with oral 5-FC on days 5 to 14 (where day 1 = TG6002 infusion). TG6002 infusion was performed over 30 minutes via selective catheterization of the hepatic artery proper. 5-FC oral dosing was 50mg/kg x4 daily. Blood was sampled for TG6002 pharmacokinetics and 5-FC and 5-FU measurements. Sampling of liver metastases was performed at screening and on day 4 or day 8 for virus detection and 5-FC and 5-FU quantification. In total, 15 patients (median age 61 years, range 37-78) were treated in 1 UK centre and 2 centres in France and received a dose of TG6002 of 1 x 106 (n=3), 1 x 107 (n=3), 1 x 108 (n=3), or 1 x 109 pfu (n=6). Fourteen of the 15 patients received a single cycle of treatment, including one patient who did not received 5-FC, and one patient received two cycles. TG6002 was transiently detected in plasma following administration, suggesting a strong tissue selectivity for viral replication. In the highest dose cohort, a virus rebound was observed on day 8, concordant with replication time of the virus. In serum samples, 5-FU was present on day 8 in all patients with a high variability ranging from 0.8 to 1072 ng/mL and was measurable over several days after initiation of therapy. Seven of the 9 patients evaluable showed the biodistribution of the virus in liver lesions by PCR testing on day 4 or day 8. Translational blood samples showed evidence for T-cell activation and immune checkpoint receptor-ligand expression. At 1 x 109 pfu, there was evidence for T-cell proliferation and activation against tumour-associated antigens by ELISpot and for immunogenic cell death. In terms of safety, a total of 34 TG6002-related adverse events were reported, of which 32 were grade 1-2 and 2 were grade 3. The maximum tolerated dose was not reached, and a single dose-limiting toxicity was observed consisting of a myocardial infarction in a context of recent Covid-19 infection in a 78-year-old patient. These results indicate that TG6002 infused via the hepatic artery in combination with oral 5-FC was well tolerated, effectively localized and replicated in the tumor tissues, expressed its therapeutic payload and showed anti-tumoral immunological activity.
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Background & Aim: Immune checkpoint inhibitors (ICI) revolutionized solid tumor treatment, however, in many tumors only partial response is achieved. Allocetra-OTS has an immune modulating effect on macrophages and dendritic cells and showed an excellent safety profile in patients including patients with sepsis and Covid-19. Here we investigated the anti-tumoral effect of Allocetra-OTS cellular therapy, in peritoneal solid tumor animal models. Methods, Results & Conclusion(s): Allocetra-OTS is manufactured from enriched mononuclear fractions and induced to undergo early apoptosis. Balb/c mice were inoculated intraperitoneally (IP) with AB12 (mesothelioma) with pLenti-PGK-V5-Luc-Neo and treated with anti- CTLA4 with or without Allocetra-OTS. Mice were monitored daily for clinical score and weekly using IVIS (Fig.1). Kaplan-Meier log rank test was done for survival. For Allocetra-OTS preparation, enriched mononuclear fractions were collected by leukapheresis from healthy eligible human donors and induced to undergo early apoptosis. Anti- CTLA4 standalone therapy significantly improved survival (Fig.2) from mean 34+/-9 to 44.9 +/-20 days. However, OTS standalone therapy was non-inferior and improved survival to 52.3 +/-20 days. Anti-CTLA4 + Allocetra-OTS combination therapy, ameliorated survival to 86.7+/-20 days with complete cancer remission in 60-100% of mice. Similar anti- tumoral effects of Allocetra-OTS were seen in mesothelioma model in a combination therapy with either anti-PD1 or cisplatin and using anti-PD1 in ID8 ovary cancer model. Based on single cell analysis confirmed by flow cytometry and pathology, the mechanism of action seems to be related or at least associated with an increase in f/480high peritoneal macrophages and a decrease in recruited macrophages, and to f/480high infiltration of the tumor. However, further studies are needed to confirm these observations. During IP tumor progression, Allocetra-OTS as a standalone therapy or in combination with ICI, or cisplatin, significantly reduced tumor size and resulted in complete remission in up to 100% treated mice. Similar results were obtained in ID8 ovary cancer. Based on excellent safety profile in > 50 patients treated in prior clinical trials for sepsis and Covid-19, Phase I/II clinical trial of Allocetra-OTS plus chemotherapy has started and three patient already recruited. A second phase I/II clinical trial of Allocetra- OTS plus anti-PD1, as a second- and third-line therapy in various cancers, was initiated in Q1 2023. [Figure presented]Copyright © 2023 International Society for Cell & Gene Therapy
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Background & Aim: Despite the successful implementation of vaccines worldwide, COVID-19 remains a risk in patients with a compromised immune system. Emerging viral variants have also reduced the effectiveness of monoclonal antibody therapies in these patients. New treatment options are therefore required to improve clinical outcomes. Methods, Results & Conclusion(s): T cell immunotherapy has proven effective for the treatment of a number of refractory viral diseases in patients with a compromised immune system. We have now completed the manufacture of a bank of SARS-CoV-2 specific T cells and commenced an open-label phase I clinical trial at the Royal Brisbane and Women's Hospital, Australia. Patients enrolled in the study receive two doses of partially HLA-matched allogeneic T cells at a fortnightly interval. We have thus far recruited and treated three immune compromised patients with SARS-CoV-2 T cells. In two of the three patients treated thus far, the administration of T cell therapy was coincident with the clearance of viral load after 28 days. Viral clearance in these patients was also associated with an increase in circulating SARS-CoV-2 specific T cells. Our preliminary observations suggest that SARS-CoV-2 specific T cell therapy is well tolerated and has the potential to impact viral control in immune compromised patients.Copyright © 2023 International Society for Cell & Gene Therapy
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Background: This study aimed to evaluate the outcomes of preclinical studies on the safety and immunogenicity of an inactivated COVID-19 vaccine candidate to warrant further clinical evaluation. Method(s): SARS-CoV-2 positive nasopharyngeal swab specimens were confirmed by real-time polymerase chain reaction and next-generation sequencing. The safety and immunogenicity tests of the COVID-19 vaccine were carried out in rats and Rhesus monkeys, and Balb/C mice and Rhesus monkeys, respectively. Result(s): The candidate vaccine was well tolerated and induced promising levels of SARS-CoV-2- specific IgG1, IgG2a, and Granzyme B in Balb/C mice, and anti-SARS-CoV-2 spike IgG and neutralizing antibodies in Rhesus monkeys. Based on cVNT results, the inactivated vaccine in 0.5 and 1 microg/100 microL doses was able to induce a neutralizing effect against the SARS-CoV-2 virus up to a dilution of 1:512 and 1:1000. The protective efficacy of the vaccine candidate was challenged with 2 x108 PFU of live viruses and confirmed by lung CT scan and histopathological evaluations compared to the control group. Repeated intramuscular injection of the candidate vaccine was generally well-tolerated in Rats and Rhesuses. No significant side effects were observed in rats injected with ten full human doses and in the Rhesus monkeys with three full human doses. Conclusion(s): Based on the findings presented in this study, it is recommended that this vaccine be moved into human testing commencing with a phase I clinical trial.Copyright © 2021 Muslim OT et al.
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Background: B-cell lymphoma-2 (Bcl-2) proteins play an important role in multiple myeloma (MM) cell survival and represent an attractive therapeutic target. In prior trials, a subgroup analysis of patients with t(11;14)-positive relapsed/refractory (R/R) MM showed the combination of a Bcl-2 inhibitor, a proteasome inhibitor, and dexamethasone improved progression-free survival with no increased mortality. BGB-11417, a Bcl-2 inhibitor, is more potent and selective than venetoclax. BGB-11417- 105 (NCT04973605) is a phase 1b/2 study assessing the safety and efficacy of BGB-11417 monotherapy, in combination with dexamethasone, or with dexamethasone+carfilzomib in patients with t(11;14)-positive R/R MM. Preliminary safety results for the combination of BGB-11417 + dexamethasone are presented. Method(s): Eligible patients had t(11;14)-positive R/R MM and had been exposed to a proteasome inhibitor, immunomodulatory agent, and anti-CD38 therapy. Patients received 80-, 160-, 320-, or 640-mg BGB-11417 daily with 40-mg dexamethasone weekly until death, intolerability, or disease progression. Dose escalation was guided by a mTPI-2 design and overall review by a safety monitoring committee. Pharmacokinetics (PK) were also assessed. Result(s): As of 1 July 2022, 10 patients were enrolled in the 80-, 160-, and 320-mg (3 patients each) and 640-mg (1 patient) dose-escalation cohorts of BGB-11417 + dexamethasone. The median age was 69 years (range, 52-81) and median prior lines of therapy was 3 (range, 1-5). The median treatment duration was 3.2 months (range, 0.5-6.5). No patients experienced dose-limiting toxicity at any dose level. Three patients died whilst on study: 1 due to COVID-19 complications 157 days after treatment discontinuation (day 208), 1 due to progressive disease 50 days after treatment discontinuation (day 89), and 1 due to COVID-19 whilst on study treatment (day 78). No deaths were associated with study treatment. Two patients experienced Grade >= 3 treatment-emergent adverse events (TEAEs). One patient in the 160-mg cohort experienced Grade 3 increase in liver enzymes and lymphopenia. One patient in the 320-mg cohort experienced Grade 3 lymphopenia. The most common TEAEs were insomnia (50%), fatigue (30%), arthralgia (20%), back pain (20%), lymphopenia (20%), and nausea (20%). BGB-11417 exposure increased dose-dependently from 80 mg to 320 mg with high interpatient PK variability. BGB-11417 exposures after single and multiple doses appeared similar, indicating limited accumulation. Conclusion(s): BGB-11417 plus dexamethasone was generally well-tolerated in patients with R/R MM harbouring t(11;14) at doses <=640 mg. Efficacy data are forthcoming. Recruitment is ongoing in the US, Australia, and New Zealand;the BGB-11417, dexamethasone, and carfilzomib combination arm will open in the future.
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Background & Aim: During the COVID-19 pandemic, we performed HPC-A cryopreservation process validation using the CryoStor CS10 freeze media to replace the current 10% DMSO cryoprotectant (Control), which encountered severe backorder. Methods, Results & Conclusion(s): This process validation included phase I, phase II, and follow-up studies. Ten HPC-A collection cell product samples were cryopreserved in the phase I study using CS10 and Control (1:1) post-plasma depletion. Post-thaw viability tests using the 7-AAD method were performed on the cryopreserved samples for parallel comparison. In phase II, each of three patient HPC-A cell products was split evenly into CS10 and Control cryopreservation. The CS10 cryopreserved HPC-A cell products only were used for infusion. The recipients' engraftment outcomes of white blood cells (WBC), granulocytes (ANC), and platelets (Plts) were monitored. Post-thaw viability test was performed on the quality control samples from both groups. In the follow-up study, engraftment outcomes of WBC, ANC, and Plts were evaluated from ten recipients who received the CS10 cryopreserved HPC-A. In the phase I study, the post-thaw viability of the CS10 group was significantly higher than the Control group (p=0.002). All post-thaw viability results were above 60%, the current lab release criteria. In the phase II study, all cryopreserved cell products met cell product release criteria (> 60%). All engraftment results were within our center-established ranges except for the Pt b's platelet engraftment. Three recipients had not had any cell product infusion-related adverse events post infusion. Both CD34 and CD45 post-thaw viability results in the CS10 group were remarkably higher than the Control group, except for the patient c's CD34 viability. In the follow-up study, the total infused cell product volume ranged from 60 ml to 118 ml, and the WBC concentration in the cryopreserved cell products ranged from 134 to 440 (x10
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Commercially available human platelet lysate (hPL) is produced using expired human platelets obtained from accredited blood banks in the United States. These platelets were originally intended for use in patient transfusion. The safety of platelets used in transfusion is managed by the U.S. Food Drug Administration (FDA), as well as the American Association of Blood Banks (AABB). These organizations set standards, including testing for transmissible diseases. The United States record for blood safety is well established, with extremely low rates of disease transmission, making the platelet units used for hPL manufacture low risk. The Covid-19 pandemic has increased awareness of emerging infectious diseases, even though transmission of Covid-19 via blood transfusion has not been documented. For that reason, gamma irradiated hPL offers an additional safety measure in the clinic. Chimeric Antigen Receptor (CAR) expressing T-cells have demonstrated potent clinical efficacy in patients with hematological malignancies. In addition, there are several phase I clinical trials evaluating the use of CAR-T-cells for targeting of solid tumorassociated antigens. Some of the challenging issues found during production of CAR-T cells are the efficiency of T cell transduction to generate CAR-T cells, the expansion of T cells to clinically relevant numbers and the long-term survival in vivo of the therapeutic cells. The use of human platelet lysate has been demonstrated to improve these issues. Our data from experiments performed using human CD3+ from donors demonstrates that human platelet lysates offer an improved performance on T cell expansion versus serum derived products. hPL efficiently promotes T cell expansion, with higher cell yields and lower cell exhaustion rate. Additionally, we efficiently developed a protocol for suspension culture of T cells, which could facilitate the large-scale expansion of allogeneic CAR-T cells.
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Intro: With the first case of COVID-19 in Cuba on March 11, 2020, the Center for Genetic Engineering and Biotechnology in Havana began an extensive vaccine program. Two vaccines based on RBD recombinant protein were developed, one for systemic administration "Abdala" and one mucosal vaccine "Mambisa". Abdala received the EUA in July 2021 and "Mambisa" completed its clinical development as a booster dose for convalescent subjects. Method(s): Two doses (25 and 50 microg) and two schedules (0-14-28 and 1-28-56 days) were evaluated in phase I clinical trials with volunteers 19 to 54 years old. The phase II and III clinical trials were also double-blind, randomized, and placebo-controlled, and included respectively 660 and 48,000 volunteers from 19 to 80 years. The anti-RBD titers were evaluated using a quantitative ELISA system developed at the Center for Immunoassay, Havana Cuba, and ELECSYS system from Roche. The RBD to ACE2 plate-based binding competitive ELISA was performed to determine the inhibitory activity of the anti-RBD polyclonal sera on the binding of the hFc-ACE2 coated plates. The neutralization antibody titers were detected by a traditional virus microneutralization assay (MN50). Finding(s): The Abdala vaccine reached 92.28% efficacy. The epidemic was frankly under control in Cuba after the vaccine introduction having reached the highest levels of cases and mortality in July 2021 with the dominance of the Delta strain. The peak of the Omicron wave, unlike other countries, did not reach half of the cases of the Delta wave with a significant reduction in mortality. The mucosal vaccine candidate "Mambisa" completed its clinical development as a booster dose for convalescent subjects reaching the trial end-point. Conclusion(s): Vaccine composition based on RBD recombinant antigen alone is sufficient to achieve high vaccine efficacy comparable to mRNA and live vaccine platforms. The vaccine also protects against different viral variants including Delta and Omicron strains.Copyright © 2023
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Introduction: Lorlatinib is a third-generation tyrosine kinase inhibitor that inhibits anaplastic lymphoma kinase (ALK) and c-ros oncogene 1 (ROS1). Although 2-10% of patients with non-small cell lung cancer developed hyperglycemia in phase 2 and 3 studies of lorlatinib, only one case has subsequently reported hyperglycemia >500 mg/dL, and no cases of diabetic ketoacidosis (DKA) have been previously reported. Phase 1 trials in neuroblastoma are ongoing. Case Description: A 34-year-old woman with ALK-mutated paraspinal neuroblastoma presented with DKA 14 months after initiation of lorlatinib. Prior to starting lorlatinib, her hemoglobin A1c had been 5.0% (n: < 5.7%). After 12 months of therapy, her A1c increased to 7.8%, prompting the initiation of metformin 500 mg daily. However, two months later she was admitted for DKA with a blood glucose of 591 mg/dL (n: 65-99 mg/dL), CO2 17 mmol/L (n: 20-30 mmol/L), anion gap 18 (n: 8-12), moderate serum ketones, and 3+ ketonuria. Her A1c was 14.8%, C-peptide was 1.2 ng/mL (n: 1.1-4.3 ng/mL), and her glutamic acid decarboxylase-65 and islet antigen-2 autoantibodies were negative. She was also found to be incidentally positive for COVID-19 but was asymptomatic without any oxygen requirement. The patient's DKA was successfully treated with IV insulin infusion, and she was discharged after 3 days with insulin glargine 27 units twice daily and insulin aspart 16 units with meals. One month later, her hemoglobin A1c had improved to 9.4%, and the patient's oncologist discontinued lorlatinib due to sustained remission of her neuroblastoma and her complication of DKA. After stopping lorlatinib, her blood glucose rapidly improved, and she self-discontinued all her insulin in the following 3 weeks. One month later, she was seen in endocrine clinic only taking metformin 500 mg twice daily with fasting and post-prandial blood glucose ranging 86-107 mg/dL. Discussion(s): This is the first reported case of DKA associated with lorlatinib. This case highlights the importance of close glucose monitoring and the risk of severe hyperglycemia and DKA while on lorlatinib therapy. Discontinuation of lorlatinib results in rapid improvement of glycemic control, and glucose-lowering treatments should be promptly deescalated to avoid hypoglycemia.Copyright © 2023
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Background: Zotatifin (eFT226) is a potent and selective inhibitor of eukaryotic initiation factor 4A (eIF4A), a host RNA helicase required for SARS-CoV-2 replication. Zotatifin selectively inhibits translation of ribonucleic acids (RNAs) containing specific short polypurine motifs in their 5-prime (5') regions. Two such highly conserved motifs are found in the SARS-CoV-2 genome. Zotatifin is currently being evaluated in a Phase 1b dose escalation study in 36 patients with mild to moderate COVID disease. In this in vitro study, we evaluated the selectivity of zotatifin's inhibition of SARS-CoV-2 translation, the antiviral activity of zotatifin alone against different human coronaviruses and the antiviral activity of zotatifin in combination with other antivirals against SARSCoV-2. Method(s): The selectivity of zotatifin for viral translation was evaluated in a cell-based reporter assay wherein luciferase translation was driven by 5'-sequences from SARS-CoV-2 or tubulin, a housekeeping gene. The antiviral activity of zotatifin was evaluated against SARS-CoV-1, SARS-CoV-2 variants (Wash/1/2020 (ancestral), delta, omicron BA.2), MERS-CoV and HCoV-299E in primary or established cell lines using cytopathic effect or infectious virus as endpoints. The antiviral activity of zotatifin in combination with remdesivir, N-hydroxycytidine (NHC;active nucleoside analogue metabolite of molnupiravir), nirmatrelvir, baricitinib or sotrovimab was evaluated against SARS-CoV-2 and analyzed by the method of Pritchard and Shipman. Result(s): Zotatifin inhibited the translation of the SARS-CoV-2 luciferase reporter construct with a mean IC50 of 3 nM and was ~14-fold less potent in inhibiting the tubulin reporter construct. Zotatifin potently inhibited the replication of all human coronaviruses tested with 50% effective concentrations (EC50s) ranging from 0.016 to 37.3 nM. The 50% cytotoxic concentration (CC50) value for zotatifin was 250 to >100,000 nM, yielding selectivity indices of 7 to >6250. Zotatifin was ~20 to >100-fold more potent than remdesivir, nirmatrelvir or NHC (figure) and demonstrated additive interactions when combined with remdesivir, NHC, nirmatrelvir, baricitinib or sotrovimab in vitro. Conclusion(s): The potent broad-spectrum activity of zotatifin against a variety of human coronaviruses and additive activity when combined with different anti-SARS-CoV-2 antivirals highlight the advantages of eIF4A as a target and warrant further evaluation in human clinical trials.
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Evaluate the safety and tolerability of losmapimod in the treatment for FSHD. FSHD is a relentless, variably progressive disease leading to accumulation of disability over decades. Fulcrum is developing losmapimod, a small molecule p38 alpha/beta MAPK inhibitor, to treat FSHD. Losmapimod has been generally well-tolerated in more than 3,600 subjects across multiple clinical studies, including >100 subjects with FSHD. Fulcrum has assessed losmapimod in FSHD in one completed phase 1 study (FIS 001-2018) and two ongoing Phase 2 studies in the open label extension period (FIS 001-2019 and FIS 002-2019). Subjects aged 18-65 years with genetically confirmed FSHD1, clinical severity score 2-4, and MRI-eligible muscles for biopsy were exposed to losmapimod 7.5 or 15 mg twice daily PO for 14 days and up to 76 weeks. In study FIS 001-2018, 6 subjects were exposed to 7.5 mg and 11 subjects to 15 mg twice daily dosing for 14 consecutive days. In studies FIS 001-2019 and FIS 002-2019, 14 and 77 subjects respectively, received at least one dose of losmapimod 15 mg twice daily for up to 76 weeks. A total of 108 subjects with FSHD1 have been exposed to losmapimod, with approximately 131 patient-years of exposure. Fifty-seven subjects have been exposed to losmapimod for 12 to 18 months, and 30 have been exposed for over 18 months. Most adverse events (AEs) observed during the studies were considered of mild to moderate in severity. The most common AEs were alanine aminotransferase (ALT) increase, headache, dizziness, dry skin, eczema and gastrointestinal disorders. The majority of AEs resolved with continued dosing. Dosing has been paused for 14 days in four subjects (3 in FIS 001-2019 and 1 in FIS 002-2019) subjects due to COVID-19 infection. There were no reported drug related SAEs, deaths, discontinuations due to AEs, or clinically significant changes in vital signs, clinical laboratory results, or ECG parameters. Losmapimod given as up to 15 mg twice daily in >100 subjects with FSHD1 for up to 76 weeks has been generally well-tolerated, consistent with that previously reported in other patient populations. Therefore, the benefit-risk profile of losmapimod for the treatment of FSHD remains favorable.Copyright © 2022
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Background: ASC10 is an oral double prodrug of the active antiviral ribonucleoside analog, ASC10-A (also known as beta-d-N4-hydroxycytidine), which is a potent inhibitor of SARS-CoV-2. ASC10 is rapidly metabolized into ASC10-A in vivo after oral dosing. Here, we report the results of the first-in-human, phase 1 study to determine the safety, tolerability, and pharmacokinetics (PK) of ASC10 in healthy subjects, and to assess the food effect on the pharmacokinetics. Method(s): This study included 2 parts. Part 1 (multiple-ascending-dose) consisted of 6 cohorts (8 or 12 subjects per cohort). Eligible subjects were randomized in a 3:1 ratio to receive either twice-daily (BID) doses of 50 to 800 mg ASC10 or placebo for 5.5 days, and were then followed for 7 days for safety. In Part 2 (food effect), 12 subjects were randomized in a 1:1 ratio to either 800 mg ASC10 in the fed state followed by 800 mg in the fasted state, or vice versa, with a 7-day washout period between doses. PK blood samples were collected and measured for ASC10-A along with ASC10 and molnupiravir. Safety assessments included monitoring of adverse events (AEs), measurement of vital signs, clinical laboratory tests, and physical examinations. Result(s): ASC10-A was the major circulating metabolite ( >99.94%) in subjects after oral dosing of ASC10. ASC10-A appeared rapidly in plasma, with a median Tmax of 1.00 to 2.00 h, and declined with a geometric t1/2 of approximately 1.10 to 3.04 h. After multiple dosing for 5.5 days, both Cmax and AUC of ASC10-A increased in a dose-proportional manner from doses of 50 to 800 mg BID without accumulation. of ASC10-A in the fed state occurred slightly later, with a median of 3.99 h postdose versus 2.00 h (fasted state). However, Cmax and AUC were very similar or the same between fed and fasted states. Thus, administration of ASC10 with food is unlikely to have an effect on exposure. The incidence of AEs was similar between subjects receiving ASC10 or placebo (both 66.7%) and 95.0% of AEs were mild. There were no serious adverse events as well as no clinically significant findings in clinical laboratory, vital signs, or electrocardiography. Conclusion(s): Results of this study showed that ASC10 was well tolerated, and the increase in plasma exposure of ASC10-A was dose proportional across the range of doses tested with no accumulation and no food effect. 800 mg ASC10 BID is selected for further studies in patients infected with SARS-CoV-2.
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IDWeek is the joint annual meeting of the Infectious Diseases Society of America (IDSA), Society for Healthcare Epidemiology of America (SHEA), the HIV Medicine Association (HIVMA), the Pediatric Infectious Diseases Society (PIDS) and the Society of Infectious Diseases Pharmacists (SIDP). For the first time since the COVID-19 public health emergency began, IDWeek 2022 returned to in-person attendance. It was held in Washington, D.C., and the meeting comprised 5 days of live sessions and on-demand content that included posters and oral presentations.Copyright © 2023 Clarivate.
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Background: The currently approved vaccines do not induce sterilizing immunity against SAR-CoV-2 infection, and immunity wanes over time. A robust broad spectrum topical prophylaxis strategy could protect vulnerable populations in the face of continuous evolution of SARS-CoV-2. The algal antiviral lectin Griffithsin (GRFT), and an engineered oxidation-resistant variant Q-GRFT have robust entry inhibitory activity against SARS-CoV variants of concern, in addition to other respiratory viruses with pandemic potential. We designed a nasal spray to deliver Q-GRFT to the upper respiratory tract mucosa for on-demand use as a broad-spectrum prophylactic. Two clinical trials (Phase 1a and 1b) were conducted to assess safety, tolerability, and pharmacokinetics of Q-GRFT nasal spray in healthy adults. Method(s): Healthy adult volunteers were enrolled in a Phase 1a double blinded, randomized study to receive a single dose of either intranasal Q-GRFT (3.0 mg, 2 sprays per nostril) or placebo at 2:1 ratio. Following a safety review, the Phase 1b study was initiated. Eleven volunteers in Group 1 received 3.0 mg dose once daily, for 7 days. After a safety review, 11 volunteers in Group 2 received a total of 6.0 mg Q-GRFT (3.0 mg twice daily for 7 days). Topical Q-GRFT concentrations were measured by ELISA in collected nasal and nasopharyngeal fluids. Drug levels in plasma were assayed to determine systemic exposure. Viral microneutralization cytopathic effect (CPE) assays were performed against SARS-CoV-2 Omicron BA-5 and MERS-CoV. Result(s): Eighteen adults (24-54 years;Males 58.3%, Females 41.7%;12 Q-GRFT, 6 Placebo), and 22 adults (aged 23-59 years;Males 52.4%, Females 47.6%) were enrolled in Phase 1a and 1b, respectively. In Phase 1a, a single dose of Q-GRFT maintained quantifiable levels in nasal passages and nasopharynx for up to 24 hours. Similarly, Q-GRFT was quantifiable in nasal and nasopharyngeal regions in the Phase 1b study. No dose accumulation effect or systemic exposure was observed. Nasal and nasopharyngeal swab eluates inhibited SARS-CoV-2 Omicron BA.5 and MERS-CoV in CPE assays. Q-GRFT did not modify olfactory sensation. No severe adverse events were reported. Thus, the nasal spray was deemed safe. Conclusion(s): Intranasal Q-GRFT was safe and enhanced mucosal SARSCoV-2 inhibitory activity in human volunteers. The results support further development of Q-GRFT as a broad-spectrum prophylactic against coronaviruses to curb ongoing infections, and for future pandemic preparedness.
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Background: Zotatifin (eFT226) is a potent and selective inhibitor of eukaryotic initiation factor 4A (eIF4A), a host RNA helicase required for SARS-CoV-2 replication. In vitro, zotatifin demonstrates broad spectrum antiviral activity against all human coronaviruses tested. Zotatifin has physicochemical and pharmacokinetic (PK) properties suitable for convenient, single subcutaneous (sc) injection. This study assessed the safety, antiviral activity, and PK of zotatifin in non-hospitalized patients (pts) with mild/moderate COVID. Method(s): PROPEL is a randomized, placebo-controlled, double-blind study in non-hospitalized pts with mild/moderate COVID. At randomization, pts must have had a SARS-CoV-2 positive test within 7 days and at least 1 COVID symptom. Pts were randomized (3:1) to zotatifin or placebo sc in 3 cohorts of 12 pts each. Cohort 1, 2 and 3 received a single dose (SD) of zotatifin of 0.01. 0.02 and 0.035 mg/kg or matching placebo. Safety (adverse event (AE) and laboratory tests), antiviral activity (mid-turbinate nasal swabs and saliva), and plasma PK were collected over 30 days. The primary endpoint was safety;key secondary endpoints included SARS-CoV-2 viral load (VL) and PK. The study was not powered for statistical inferential testing. Result(s): 36 pts were enrolled across all three cohorts and completed a 30-day follow up. Data is currently available for pts in cohorts 1 and 2, 18 and 6 of whom received zotatifin and placebo, respectively. Baseline characteristics were comparable between groups. The most common AE was erythema at injection site in cohort 1 (44%) and cohort 2 (89%), vs. 0% in the zotatifin and pooled placebo groups, respectively. Other AE frequencies were comparable between zotatifin and placebo and no serious AEs were reported. The concentrationtime profile of zotatifin from cohorts 1 and 2 following sc administration was similar to that reported previously following IV administration, demonstrated a terminal elimination half-life (t1/2) of ~ 4 days, high steady-state volume of distribution (Vss) of 31 L/kg, and low plasma clearance (Cl) of 3.9 mL/min/kg. A faster time to viral RNA undetectability was observed with zotatifin vs. placebo (see Fig 1. Not statistically significant). Conclusion(s): Zotatifin was safe, well tolerated and demonstrated a trend in clinical antiviral activity in patients with mild to moderate COVID which supports further clinical development. Zotatifin sc route of administration supports a point of care treatment for COVID.
ABSTRACT
INTRODUCTION AND OBJECTIVE: COVID-19 led to paradigm shifts in telemedicine due to patient's fear of office visits and travel avoidance. With widespread cancellation of office visits and reduction of diagnostic biopsy procedures in men with elevated PSAs, the need for a non-invasive/non-DRE At Home Collection Kit for assessing risk of aggressive prostate cancer and to prioritize biopsy procedures became apparent. We adapted the existing ExoDx Prostate (EPI) office liquid biomarker kit into an At Home Collection Kit physician/ patient shared decisions for prostate biopsy. METHOD(S): A 2-stage program for an At Home Collection Testing Kit program for the ExoDx Test was initiated in April 2020 at the onset of the COVID-19 pandemic. The Phase 1 Pilot study (100 patients, 6 sites) was completed in June 2020. Based on the findings in the pilot, the program was streamlined based on feedback from physicians, patients, and office mangers before making it available in Phase 2 to all urologists in the US. The utilization of the At Home Collection Kits have been measured. RESULT(S): Extensive feedback from the pilot program led to improvements and streamlining before the Phase 2 rollout. As of October 31st, 2022, >30% of all the ExoDx Prostate Tests are At Home Collection Kits. EPI Score distributions are identical (mean 28.4 and 29.7), (median 23.0 and 24.7) in home or clinic sample collection respectively (Figure 1). CONCLUSION(S): The COVID-19 pandemic accelerated major shifts to telehealth and increased use of At Home Testing. The ExoDx Prostate (EPI) At Home Collection Kit was successfully developed and employed to help men (>50 years old) with elevated PSAs (2-10 ng/ml) considering initial or repeat diagnostic biopsy but with pandemic-related fears of visiting offices/hospitals or wanting to avoid long distance travel from rural areas. As COVID becomes manageable and clinical practices have opened, some pandemicadopted approaches remain relevant: the ExoDxTM Prostate, (EPI) At Home Collection Kit is one such approach.
ABSTRACT
Background: Despite renal impairment (RI) being a risk factor for severe COVID-19, there are no approved antiviral treatment options for patients with severely impaired kidney function (eGFR less than 30 mL/min/1.73 m2 or kidney failure) in the US. At the time remdesivir (RDV) was initially approved for the treatment of COVID-19, the impact of renal impairment (RI) on pharmacokinetics (PK) of RDV, its metabolites, and the excipient, sulfobutylether beta-cyclodextrin sodium (SBECD), was not known. Method(s): Here, we report the PK data supporting dosing of RDV in COVID-19 patients with severely impaired kidney function. PK samples for RDV and metabolites (GS-704277, GS-441524) were collected in the Phase 3 REDPINE study in hospitalized COVID-19 patients with severely impaired kidney function. Participants in this double-blind study were randomized 2:1 to intravenous (IV) remdesivir (200 mg on Day 1, then 100 mg daily up to Day 5) or IV saline as placebo-to-match. SBECD PK was analyzed in a phase 1 study in non-COVID-19 participants with normal kidney function, mild and moderate RI who received 100 mg dose of remdesivir (containing 3000 mg SBECD). The population PK analysis included observations from healthy and COVID-19 patients with full range of renal function across all adult studies. Result(s): Geometric mean exposures (AUCtau) observed in REDPINE Study as compared to PINETREE Study increased up to 553% for the GS-441524 metabolite (dependent on renal elimination) and to a lesser degree GS-704277 (294%, minor renal elimination) and RDV (78.9%;an increase explained by factors other than renal function, namely, hospitalization and body weight) (Table 1). The increased PK exposures were not associated with new safety signals in this study (n=163 remdesivir, n=80 placebo). Population PK analysis identified baseline eGFR as a significant covariate for GS-704277 and GS-441524 clearance, but not for RDV itself. SBECD PK was characterized by short half-life (t1/2) (1.6 hours in normal renal function to 3.8 hours in moderate RI) and fast plasma clearance (7.9 L/h in normal renal function). Analysis of SBECD in severe RI (REDPINE) is ongoing, but accumulation is not expected based on its observed short plasma t1/2. Conclusion(s): Given the observed PK and the absence of any new safety signals associated with increased metabolite levels in patients with severely impaired kidney function, no dose adjustment is recommended for RDV in COVID-19 patients with eGFR < 30 mL/min/1.73 m2, regardless of the need for dialysis.
ABSTRACT
Hematopoietic cell transplant (HCT) recipients are at increased risk of morbidity and mortality from COVID-19. They may have lower SARS-CoV-2-directed antibody levels due to protein loss from the gastrointestinal (GI) tract as a result of preparative regimen-related toxicity and graft-vs.-host disease (GVHD). In fact, previous studies suggested that GI GVHD or diarrhea from other etiologies were associated with a reduction in the half-life of monoclonal antibodies (mAbs). Hence, understanding the pharmacokinetic (PK) profile of mAbs targeting SARS-CoV-2 in this vulnerable population is critical for dose-selection and predicting the duration of protection against COVID-19. This analysis aims to use a population pharmacokinetics (popPK) approach to evaluate the PK of sotrovimab and the effect of covariates in HCT recipients. In a Phase I trial (COVIDMAB), all participants received 500 mg sotrovimab IV prophylactically within one week prior to starting transplant conditioning. Sotrovimab serum concentrations were determined weekly for up to 12 weeks in autologous (n=5) and allogeneic (n=15) HCT recipients (129 observations). Sotrovimb PK and the effect of covariates were analyzed using popPK modeling in NONMEM (version 7.4). GVHD and diarrhea severity data were collected weekly via survey and included as time-dependent covariates during the covariate screening process. The final PK model with covariates was validated using simulation-based validation and goodness of fit plots. PK data were compared to non-transplant patients from 1891 patients with COVID-19 in COMET-ICE, COMET-PEAK, BLAZE-4, and COMET-TAIL and 38 healthy individuals enrolled in GlaxoSmithKline Pharma Study 217653. A two-compartment model best described sotrovimab PK in HCT recipients. In comparison to non-transplant patients, sotrovimab clearance (CL) was 14.0% higher in HCT recipients. Weight was a significant covariate on sotrovimab CL and (Figure Presented) volume of distribution in the central compartment (V2). With every 10 kg increase in body weight, sotrovimab CL and V2 were estimated to increase by 9.5% and 5.5%, respectively. Diarrhea severity was also a significant covariate on sotrovimab CL. HCT recipients with grade 3 diarrhea showed an increase in CL by 1.5-fold compared to those without diarrhea. Based on popPK analyses, sotrovimab CL was higher in HCT recipients compared to non-transplant patients. Higher bodyweight as well as diarrhea resulted in increased sotrovimab CL. There were only 3 patients with GI GVHD, and larger studies are needed to determine whether diarrhea due to GI GVHD or conditioning toxicity was responsible for the observed increase in sotrovimab CL. Further validation of these findings in a larger number of HCT recipients is also warranted to help optimize mAb dosing for COVID-19 prophylaxis and determine whether presence of large-volume diarrhea may require intensified dosing strategiesCopyright © 2023 American Society for Transplantation and Cellular Therapy
ABSTRACT
Three antiviral drugs, including interferon alpha (aerosol inhalation), lopinavir/ritonavir (oral medication), and ribavirin (intravenous infusion), are recommended by Diagnosis and Treatment of Novel Coronavirus Pneumonia (revised version, the 5th ed), which was issued by the National Health Commission of People's Republic of China and National Administration of traditional Chinese Medicine. In addition, clinical trials on a new antiviral drug-remdesivir which is not yet on the market has also been launched in China. Medication safety related data on treatment for infections of severe acute respiratory syndrome coronavirus, middle respiratory syndrome coronavirus, human immunodeficiency virus, lopinavir/ritonavir, and ribavirin, safety data of remdesivir in animal experiment, phase I clinical trials and clinical trials of treating Ebola virus infection, and preliminary reports of treatment in novel coronavirus pneumonia were briefly reviewed, aiming to provide evidence for clinical safety medication.Copyright © 2020 by the Chinese Medical Association.