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Novel Combination Therapy: Monensin Potentiates Erlotinib-Induced CytotoxicityKhalil, Dayekh 19 August 2013 (has links)
Receptor Tyrosine Kinase (RTK) inhibitors, such as erlotinib/tarceva, have been introduced
in the past decade as a promising therapeutic option in Head and Neck Squamous Cell
Carcinoma (HNSCC), however, they lack significant efficacy as single agents. As a result,
RTK inhibitors require a combination based therapeutic approach with other treatment
modalities. To uncover such a combination of agents, we performed a high throughput
Prestwick library screen that included 1200 compounds approved by the FDA on HNSCC
cell lines and found that monensin, a coccidial antibiotic, synergistically enhanced the
cytotoxicity of erlotinib. RT-PCR revealed that monensin induced the expression of
Activation of Transcription Factor (ATF) 3 and its downstream target C/EBP homologous
protein (CHOP) which are key regulators of apoptosis. Furthermore, RNA-Seq analysis
suggests that monensin augments erlotinib cytotoxicity by disturbing lipid and sterol
biosynthesis. Therefore, identifying the mechanism of action exerted by monensin may open alternative avenues of cancer treatment.
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A COMBINATION THERAPY OF NICOTINAMIDE AND PROGESTERONE FOR FUNCTIONAL RECOVERY FOLLOWING TRAUMATIC BRAIN INJURYPeterson, Todd 01 May 2013 (has links)
Traumatic Brain Injury (TBI) is a leading cause of death and disability in the United States for which there are no federally approved pharmacological treatments. Preclinical trials with nicotinamide (NAM) and progesterone (Prog) treatment demonstrate beneficial neuroprotection and recovery of function following TBI. The primary goal of this study was to assess both neuroprotection and recovery of function in an animal model of TBI after combination treatment of both NAM and Prog. Animals received a cortical contusion injury over the sensorimotor cortex and were treated with either nicotinamide (75 mg/kg, i.p. NAM loading dose, 12 mg/kg/hr NAM, s.c. over 72 hrs), Prog (10 mg/kg Prog, i.p. over 72 hrs), NAM and Prog(75 mg/kg, i.p. NAM loading dose, followed by continuous infusion of 12 mg/kg/hr NAM, s.c. over 72 hrs; 10 mg/kg Prog, i.p. over 72 hrs) or Vehicle (75 mg/kg, i.p. sterile saline loading dose, followed by continuous infusion 12 mg/kg/hr sterile saline, s.c. over 72 hrs; 10 mg/kg peanut oil, i.p. over 72 hrs), and compared to a craniotomy only (Sham) group. Following this regimen they were assessed in a battery of behavioral (fine and gross motor, sensory, and cognitive) tasks or a histological assessment at 24 hrs post-injury assessing lesion cavity size, degenerating neurons, and reactive astrocytes. Our results replicate the beneficial effects of treatment with either NAM or Prog demonstrating significant improvements in recovery of function, and a reduction in lesion cavitation, degenerating neurons and reactive astrocytes 24 hours post-injury. The combination treatment of NAM and Prog led to a significant improvement in both neuroprotection at 24 hrs post-injury and recovery of function in sensorimotor related tasks when compared to each individual treatment (NAM or Prog). It is suggested here that further preclinical trials using NAM and Prog as a combination treatment should be done to identify any drug interactions, pharmacokinetics, and a new window of opportunity and proper dosing of this combination treatment.
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Novel Combination Therapy: Monensin Potentiates Erlotinib-Induced CytotoxicityKhalil, Dayekh January 2013 (has links)
Receptor Tyrosine Kinase (RTK) inhibitors, such as erlotinib/tarceva, have been introduced
in the past decade as a promising therapeutic option in Head and Neck Squamous Cell
Carcinoma (HNSCC), however, they lack significant efficacy as single agents. As a result,
RTK inhibitors require a combination based therapeutic approach with other treatment
modalities. To uncover such a combination of agents, we performed a high throughput
Prestwick library screen that included 1200 compounds approved by the FDA on HNSCC
cell lines and found that monensin, a coccidial antibiotic, synergistically enhanced the
cytotoxicity of erlotinib. RT-PCR revealed that monensin induced the expression of
Activation of Transcription Factor (ATF) 3 and its downstream target C/EBP homologous
protein (CHOP) which are key regulators of apoptosis. Furthermore, RNA-Seq analysis
suggests that monensin augments erlotinib cytotoxicity by disturbing lipid and sterol
biosynthesis. Therefore, identifying the mechanism of action exerted by monensin may open alternative avenues of cancer treatment.
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The Effects of Ice and TENS Combination Treatment on Knee and Hip Joint Neuromechanics in Individuals with Experimentally Induced Knee Pain During RunningKwon, Sunku 01 August 2018 (has links)
Context: Knee injury is a common problem for runners. Knee pain is a common symptom in knee injury and is associated with alterations in knee and hip muscle activation and hip joint angles. Relieving pain through intervention may help to restore neuromuscular function. Objective: To examine the effects of ice and transcutaneous electrical nerve stimulation (TENS) combination treatment on perceived knee pain, hip frontal plane angle, and muscle activation during running in individuals with experimental knee pain (EKP). Design: Crossover. Setting: Laboratory. Subjects: 19 participants (11 males and 8 females, 23.2 ± 1.9 y, 176 ± 11.6 cm, 71.5 ± 16.9 kg; right leg dominant). Interventions: Hypertonic saline was infused into the infrapatellar fat pad for 74 minutes (total 11.1 mL). Subjects underwent 2 treatment conditions (sham; ice/TENS combination). Measurements were recorded during running at 4 time points (preinfusion, postinfusion, posttreatment, and postinterval). Main Outcome Measures: Perceived knee pain on a 100-mm visual analog scale (VAS), knee and hip muscle peak electromyography (EMG) amplitude, and hip adduction angles. Results: Hypertonic saline infusion increased perceived anterior knee pain in all participants. The average of peak perceived knee pain was 28 mm on a 100-mm VAS in EKP application. While the increased perceived knee pain level stayed consistent across time in the sham session, ice/TENS combination treatment significantly reduced perceived knee pain by 35% at 6 minutes after the treatment start (p = 0.049), and the reduced knee pain lasted for 22 minutes (p > 0.05). Peak EMG amplitude of the gluteus medius was decreased by 13.5% and 14.3% (p = 0.023; p = 0.013) during running after EKP in sham and treatment sessions, respectively. However, the peak EMG amplitude was not restored to pain-free level during running after the treatment (p = 0.026). No other muscles changed their peak EMG amplitude due to EKP or treatment. Hip adduction angles during running were also not altered by EKP or treatment (p > 0.3) in both sham and treatment sessions. Conclusions: EKP increased perceived knee pain and decreased peak muscle activation of the gluteus medius during running. Ice/TENS combination treatment reduced perceived knee pain quickly, but did not restore neuromechanics during running.
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Application of a New Logic to Old Drugs: Angiogenesis Inhibition in NeuroblastomaSvensson, Åsa January 2003 (has links)
<p>Neuroblastoma is one of the most common solid cancers of early childhood. In Sweden, approximately 10-15 cases occur annually. The overall five-year neuroblastoma survival in Europe is approximately 45%. Since cancer treatment involves drugs with risks of side effects in the growing child, there is a need for more effective and less toxic drugs. One new approach in cancer treatment is inhibition of tumor angiogenesis, i.e., of new blood vessel growth into the tumor. An angiogenesis inhibitor may be combined with cytostatic drugs to enhance the efficacy. The aim of this study was to investigate how drugs could be used to inhibit angiogenesis and tumor growth in a xenograft model of human neuroblastoma in nude mice. </p><p>The tumors express the angiogenesis stimulator vascular endothelial growth factor (VEGF) on both protein and mRNA levels. The angiogenesis inhibitors SU5416 (an inhibitor of VEGF signalling) and TNP-470 (an inhibitor of endothelial cell proliferation) inhibited angiogenesis in our model. TNP-470, however, inhibited angiogenesis without significant reduction of the tumor growth, in contrast to SU5416. </p><p>We also discovered that the cytostatic drug CHS 828 could cause regression of neuroblastoma tumors in the model when given orally at a low daily dose, alone or in combination with the angiogenesis inhibitor SU5416 or TNP-470. </p><p>Furthermore, a new use of the cardiac glycoside digoxin was found. Digoxin inhibited FGF-2 -stimulated bovine capillary endothelial cell growth in vitro, and inhibited angiogenesis in vivo in the chick chorioallantoic membrane assay (CAM). It also inhibited neuroblastoma growth by approximately 50% in our neuroblastoma model. </p><p>In conclusion, CHS 828 and digoxin represent two classes of drugs with potent antitumor effects that may be valuable in treatment of neuroblastoma, either alone or in combination with angiogenesis inhibitors.</p>
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Application of a New Logic to Old Drugs: Angiogenesis Inhibition in NeuroblastomaSvensson, Åsa January 2003 (has links)
Neuroblastoma is one of the most common solid cancers of early childhood. In Sweden, approximately 10-15 cases occur annually. The overall five-year neuroblastoma survival in Europe is approximately 45%. Since cancer treatment involves drugs with risks of side effects in the growing child, there is a need for more effective and less toxic drugs. One new approach in cancer treatment is inhibition of tumor angiogenesis, i.e., of new blood vessel growth into the tumor. An angiogenesis inhibitor may be combined with cytostatic drugs to enhance the efficacy. The aim of this study was to investigate how drugs could be used to inhibit angiogenesis and tumor growth in a xenograft model of human neuroblastoma in nude mice. The tumors express the angiogenesis stimulator vascular endothelial growth factor (VEGF) on both protein and mRNA levels. The angiogenesis inhibitors SU5416 (an inhibitor of VEGF signalling) and TNP-470 (an inhibitor of endothelial cell proliferation) inhibited angiogenesis in our model. TNP-470, however, inhibited angiogenesis without significant reduction of the tumor growth, in contrast to SU5416. We also discovered that the cytostatic drug CHS 828 could cause regression of neuroblastoma tumors in the model when given orally at a low daily dose, alone or in combination with the angiogenesis inhibitor SU5416 or TNP-470. Furthermore, a new use of the cardiac glycoside digoxin was found. Digoxin inhibited FGF-2 -stimulated bovine capillary endothelial cell growth in vitro, and inhibited angiogenesis in vivo in the chick chorioallantoic membrane assay (CAM). It also inhibited neuroblastoma growth by approximately 50% in our neuroblastoma model. In conclusion, CHS 828 and digoxin represent two classes of drugs with potent antitumor effects that may be valuable in treatment of neuroblastoma, either alone or in combination with angiogenesis inhibitors.
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Experimental radioimmunotherapy and effector mechanismsEriksson, David January 2006 (has links)
Radioimmunotherapy is becoming important as a new therapeutic strategy for treatment of tumour diseases. Lately monoclonal antibodies tagged with radionuclides have demonstrated encouraging results in treatment of hematological malignancies. The progress in treatment of solid tumours using radioimmunotherapy, however, has been slow. New strategies to improve the treatment response need to be evaluated. Such new strategies include the combination of radioimmunotherapy with other treatment modalities but also elucidation and exploration of the death effector mechanisms involved in tumour eradication. As the combination of radioimmunotherapy and radiotherapy provides several potential synergistic effects, we started out by optimising a treatment schedule to detect benefits combining these treatment modalities. An anti-cytokeratin antibody labelled with 125I administered before, after, or simultaneously with radiotherapy, indicated that the highest dose to the tumour was delivered when radiotherapy was given prior to the antibody administration. The optimised treatment schedule was then applied therapeutically in an experimental study on HeLa Hep2 tumour bearing nude mice given radiotherapy prior to administration of 131I-labelled monoclonal antibodies. Combining these treatment regimes enhanced the effect of either of the treatment modalities given alone, and a significant reduction in tumour volumes could be demonstrated. This treatment caused a dramatic change in tumour morphology, with increased amounts of connective tissue, giant cells and cysts. Furthermore cellular alterations like heterogeneity of nuclear and cytoplasmic size and shape were observed, and at least a fraction of the tumour cells presented some characteristics of apoptosis. The induced sequential events in Hela Hep2 cells exposed to 2.5-10 Gy of ionizing radiation were studied further, with special emphasis on cell cycle arrest, mitotic aberrations and finally cell death. Following radiation HeLa Hep2 cells initiated a transient G2/M arrest trying to repair cellular damage. This arrest was followed by a sequence of disturbed mitoses with anaphase bridges, lagging chromosomal material, hyperamplification of centrosomes and multipolar mitotic spindles. These mitotic disturbances produced multinuclear polyploid cells and cells with multiple micronuclei, cells that were destined to die via mitotic catastrophes and delayed apoptosis. Induction of apoptosis in HeLa Hep2 cells following radiation doses and dose-rates equivalent to those delivered at radioimmunotherapy was concurrently studied in vitro. Significant induction of apoptosis was obtained and found to be induced relatively slowly, peaking 72-168 hours post irradiation. Caspases from the intrinsic pathway as well as the extrinsic pathway were found to be activated in response to ionizing radiation. Furthermore caspase-2, which has recently been acknowledged for its role as an initiator caspase was found to be activated following radiation and seems to play an important role in this delayed apoptosis.
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Towards Personalized Cancer Therapy : New Diagnostic Biomarkers and Radiosensitization StrategiesSpiegelberg, Diana January 2015 (has links)
This thesis focuses on the evaluation of biomarkers for radio-immunodiagnostics and radio-immunotherapy and on radiosensitization strategies after HSP90 inhibition, as a step towards more personalized cancer medicine. There is a need to develop new tracers that target cancer-specific biomarkers to improve diagnostic imaging, as well as to combine treatment strategies to potentiate synergistic effects. Special focus has been on the cell surface molecule CD44 and its oncogenic variants, which were found to exhibit unique expression patterns in head and neck squamous cell carcinoma (HNSCC). The variant CD44v6 seems to be a promising target, because it is overexpressed in this cancer type and is associated with radioresistance. Two new radioconjugates that target CD44v6, namely, the Fab fragment AbD15179 and the bivalent fragment AbD19384, were investigated with regard to specificity, biodistribution and imaging performance. Both conjugates were able to efficiently target CD44v6-positive tumors in vitro and in vivo. PET imaging of CD44v6 with 124I-AbD19384 revealed many advantages compared with the clinical standard 18F-FDG. Furthermore, the efficacy of the novel HSP90 inhibitor AT13387 and its potential use in combination with radiation treatment were evaluated. AT13387 proved to be a potent new cancer drug with favorable pharmacokinetics. Synergistic combination effects at clinically relevant drug and radiation doses are promising for both radiation dose reduction and minimization of side effects, or for an improved therapeutic response. The AT13387 investigation indicated that CD44v6 is not dependent on the molecular chaperone HSP90, and therefore, radio-immunotargeting of CD44v6 in combination with the HSP90 inhibitor AT13387 might potentiate treatment outcomes. However, EGFR expression levels did correlate with HSP90 inhibition, and therefore, molecular imaging of EGFR-positive tumors may be used to assess the treatment response to HSP90 inhibitors. In conclusion, these results demonstrate how tumor targeting with radiolabeled vectors and chemotherapeutic compounds can provide more specific and sensitive diagnostic tools and treatment options, which can lead to customized treatment decisions and a functional diagnosis that provides more precise and safer drug prescribing, as well as a more effective treatment for each patient.
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Oncolytic Viral and Immunotherapy Models Combined with Strategies to Ameliorate Cancer BurdenJanuary 2016 (has links)
abstract: Combination therapy has shown to improve success for cancer treatment. Oncolytic virotherapy is cancer treatment that uses engineered viruses to specifically infect and kill cancer cells, without harming healthy cells. Immunotherapy boosts the body's natural defenses towards cancer. The combination of oncolytic virotherapy and immunotherapy is explored through deterministic systems of nonlinear differential equations, constructed to match experimental data for murine melanoma. Mathematical analysis was done in order to gain insight on the relationship between cancer, viruses and immune response. One extension of the model focuses on clinical needs, with the underlying goal to seek optimal treatment regimens; for both frequency and dose quantity. The models in this work were first used to estimate parameters from preclinical experimental data, to identify biologically realistic parameter values. Insight gained from the mathematical analysis in the first model, allowed for numerical analysis to explore optimal treatment regimens of combination oncolytic virotherapy and dendritic vaccinations. Permutations accounting for treatment scheduled were done to find regimens that reduce tumor size. Observations from the produced data lead to in silico exploration of immune-viral interactions. Results suggest under optimal settings, combination treatment works better than monotherapy of either type. The most optimal result suggests treatment over a longer period of time, with fractioned doses, while reducing the total dendritic vaccination quantity, and maintaining the maximum virotherapy used in the experimental work. / Dissertation/Thesis / Doctoral Dissertation Applied Mathematics for the Life and Social Sciences 2016
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Imunosuprese u aktivní roztroušené sklerózy: kombinovaná léčba interferonem beta a azathioprinem a monoterapie fingolimodem. / Immunosuppression in active multiple sclerosis: combination treatment with interferon beta and azathioprine and fingolimod monotherapyTichá, Veronika January 2017 (has links)
Introduction: Addition of a second drug used to be a strategy to achieve clinical stabilization of multiple sclerosis in many patients with on-going activity despite monotherapy. Modern immunosuppressive drugs used in monotherapy exert more specific mode of action. Methods: This retrospective observational study evaluated 5-year data from 85 patients with active multiple sclerosis despite monotherapy with either interferon beta or azathioprine, who received add-on azathioprine or interferon beta, respectively. In a subgroup of 23 patients 10- year data were analysed. In a second part of the study, a group of 126 patients switched either from interferon beta or glatiramer acetate to fingolimod was followed-up for one after the change of their treatment and a in a subgroup of 53 patients the 2-year data were assessed. Clinical (relapse frequency, disability) parameters were compared preceding and following the addition of second drug or the switch of treatment. Laboratory results and potential serious adverse events were evaluated in a group of patients with combination therapy. Results: The add-on treatment triggered a drop in annualised relapse rate by approximately 1.5 points sustained over 5 and 10 years. No effect on disability was observed. Simultaneously, white blood cell and lymphocyte counts...
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