Global ETD Search

151	Verifiering Av Metod -För Dithiothreitolbehandling Av Testerytrocyter : För att möjliggöra antikroppsscreen vid BAS-test för daratumumab-behandlade patienter / Verifying the method of Dithiothreitol treatment of testerytrocytes : To enable antibody screening for daratumumab-treated patients Karlsson, Linus January 2023 (has links) Daratumumab är en antikropp som används vid behandling av multipelt myelom. Daratumumab är specifik för CD38, ytproteinet som uttrycks i stor mängd på myeloma plasmaceller. Vid antikroppsscreen orsakar daratumumab panreaktivitet då erytrocyter också uttrycker CD38. Dithiothreitol (DTT) behandling av testerytrocyter har visats kunna eliminera panreaktiviteten med daratumumab-antikropparna, detta genom att DTT klyver bort epitopet på CD38 som daratumumab reagerar mot utan att förstöra andra kliniskt relevanta antigen. På Södra Älvsborgs sjukhus skickas prover från daratumumab-behandlade patienter till Sahlgrenska sjukhuset för genotypning för att hitta kompatibelt blod. Förhoppningen är att den nya metoden ska möjliggöra antikroppsscreen på daratumumab-behandlade patienter vid Södra Älvsborgs sjukhus.Syftet med examensarbetet var att verifiera metoden för användning av DTT-behandlade testerytrocyter på plasma från daratumumab-behandlade patienter för att underlätta val av erytrocyter för blodtransfusion.Provmaterialet var venöst tagen patientplasma från 16 daratumumab-behandlade patienter testades mot 0,2 M DTT-behandlade- och obehandlade-testerytrocyter. DTT-behandlade testerytrocyter testades även mot kända antikroppar på plasmaprover från patienter som ej behandlats med daratumumab. Hållbarhetsstudie utfördes med behandlade BAS-testceller.Panreaktivitet sågs hos samtliga patientprover med obehandlade testerytrocyter. Vid test med DTT-behandlade testerytrocyter blev samtliga prover negativa. Behandlade testerytrocyter som testades mot kända antikroppar gav resultat som var oförändrat jämfört med originalscreen. Behandlade testceller var brukbara 25 dagar.DTT behandling av testerytrocyter är effektivt och billigt, resultatet var pålitligt då samtliga patientprover inte uppvisade panreaktivitet efter DTT-behandling av testerytrocyter. De DTT-behandlade erytrocyterna behöll kliniskt relevanta antigen efter behandling och var hållbara 25 dagar. Metoden anses som användbar för Södra Älvsborgs sjukhus. / Daratumumab is an antibody used for treatment of multiple myeloma. The antibody is specific for the surface protein CD38 which is being expressed in high quantity on myeloma plasma cells. Daratumumab is causing pan-reactivity during antibody screening due to regular erythrocytes also express CD38. Dithiothreitol (DTT) treatment of test erythrocytes has shown to eliminate the pan-reactivity caused by the daratumumab antibodies by cleaving the epitope on CD38 that daratumumab is specific to. Södra Älvsborgs hospital are currently sending patient samples from patients treated with daratumumab to Sahlgrenska hospital in Gothenburg for genotyping to find compatible blood.The purpose of the project was to verify the method for use of DTT-treated test erythrocytes on plasma from daratumumab treated patients to screen for antibodies and easier find compatible erythrocytes for blood transfusion at Södra Älvsborgs hospital.Plasma samples from 16 patients treated with daratumumab were tested with DTT-treated and untreated test erythrocytes. DTT-treated test erythrocytes were tested against samples with known antibodies from patients not treated with daratumumab. The cells durability was also tested.Pan-reactivity was shown with all daratumumab samples with non-treated test erythrocytes. Tests with DTT-treated test erythrocytes showed no pan-reactivity. Results from treated test erythrocytes tested against known antibodies were unchanged from original screening. The cells were durable for 25 days.DTT-treatment of test erythrocytes is effective and cheap, test results were reliable, all patient samples had their pan-reactivity eliminated. DTT-treated erythrocytes kept clinically significant antigens. The method is useful for clinical use at Södra Älvsborgs hospital. Dithiothreitol Daratumumab RBC reagents Multiple myeloma CD38 Dithiothreitol Daratumumab Testerytrocyter Multipelt myelom CD38 Hematology Hematologi
152	Real world experience of BCMA-directed chimeric antigen T-cell therapy for multiple myeloma Canonico, Dalton 31 January 2023 (has links) INTRODUCTION: Multiple myeloma (MM) is a disease that results in the production of ineffective immunoglobulins and monoclonal proteins in the blood and urine, leading to insufficient organ function or death. Currently, there is a 5-year survival rate of 47% for patients diagnosed with MM, with a proportion of patients ultimately succumbing to the disease. The current standard of care for MM includes toxic combinations of chemotherapy. The evolution of chimeric antigen receptor (CAR) T-cell therapy for hematologic cancers such as lymphoma, leukemia, and now myeloma has provided another effective treatment option for patients who have relapsed after standard treatments for MM. Idecabtagene Vicleucel (ide-cel), was approved in March 2021 for patients with relapsed and refractory MM. While CAR T-cell treatment appears to be far less toxic than standard chemotherapy, this therapy comes with its own associated toxicities, mainly cytokine release syndrome (CRS) and neurotoxicity (NT). In clinical trials, ide-cel demonstrated to be an effective treatment in some patients, leading to the FDA approval for patients who have exhausted multiple other lines of therapy. Currently, it is unclear why patients respond differently to CAR T-cell treatment and why some patients present with more severe toxicity than others. Therefore, this study aims to examine patient factors such as demographics, age, and treatment history to determine if such characteristics may influence the CAR T-cell response; also, we assess the efficacy of ide-cel in a real-world experience outside of a clinical trial. METHODS: In this study, 14 patients’ medical records were reviewed after receiving commercial CAR T-cell therapy between August 2021 and January 2022. Eligible patients for the therapy were determined by strict inclusion criteria, including having a confirmed diagnosis of MM and exhausting at least four prior lines of therapy, as well as exclusion criteria, such as excluding individuals who have received CAR T-cells prior in a clinical trial setting. Approximately one month before preparation lymphodepletion chemotherapy, eligible patients underwent leukapheresis and had their blood sent to a laboratory to extract T-cells and genetically modify them to express the CAR for reinfusion. On 3 and 5 days prior to CAR T-cell infusion, patients underwent lymphodepletion using fludarabine and cyclophosphamide. Patients remained in the hospital for approximately one week following infusion, pending adverse reactions. After discharge, patients returned to the hospital for routine follow-ups. Data analysis was then performed on collected clinical readouts such as: prior treatments, bone marrow biopsies, response rates, laboratory values from blood samples, and pre- and post-infusion scans of various tissues within the body. RESULTS: At a median follow-up time of 15 weeks, six patients (43%) achieved a complete response (CR), three patients demonstrated a partial response (PR, 21%), and four patients showed disease progression (PD, 28%). Post-infusion scans were not available for one subject (7%) as they were still in the hospital. These results are similar to the phase I and phase II trials in which 45% and 33% of patients demonstrated a CR post-infusion, respectively. As for associated toxicities, 10 patients (71%) experienced CRS and one patient (7%) presented with ICANS. All patients that achieved a CR experienced ide-cel related toxicities, compared with only 38% of those with less favorable or unknown outcomes, which indicates that systemic immune system activation which causes CRS may be required to achieve a CR but CRS is not always linked with a CR outcome. There were 28 different chemotherapy regimens used as the standard of care treatment prior to ide-cel therapy. We assessed the most recent chemotherapeutic regimen in each patient to assess whether there is an association with most recent treatment and response. Of the six patients that achieved a CR to ide-cel, all were previously treated with RVD or CyBorD regimens, compared to the four patients who had disease progression who were mainly treated with salvage DCEP chemotherapy. Four patients (29%) received DCEP as their final chemotherapy regimen, and 3 of these 4 (75%) demonstrated progressive disease after ide-cel. Two patients received Belantamab-Mafodotin prior to ide-cel treatment, with one patient presenting with disease progression and the other patient achieving CR. 71% of patients experienced CRS following ide-cel infusion, which is resembles the phase II trial of ide-cel in which 84% of patients demonstrated CRS. In this study, only 7% of patients experienced neurological toxicity, which is comparable to the 18% of patients that demonstrated to have ICANS in the phase II study. CONCLUSIONS: We found similar performance of the ide-cel CAR-T therapy in the real world setting as in the clinical trial. Also, the complete responses were achieved by subjects with an array of characteristics, including varying recent chemotherapeutic treatments, IgG, IgA, and light-chain only subtypes of MM, and diverse demographics and other characteristics. The characteristic that demonstrated the most predictability and somewhat unique to subjects with CR was the associated toxicities from ide-cel. Development of these associated toxicities may attest that substantial immune activation, of CAR T-cells and other immune cells, leads to the efficacy of the product in eliminating cancer cells. Further analysis will need to be completed as more individuals enroll in this study to be able to determine if there are significant associations between demographics and prior lines of treatment with response to ide-cel CAR-T therapy. Lastly, future studies should assess the immune cell effector functions that are generated in CR patients that will help to specify the association between ide-cel activation, experienced associated toxicities, and its efficacy. Oncology BCMA CAR T-cell Cytokine release syndrome Immunotherapeutics Multiple myeloma Neurotoxicity
153	Diffusion-Weighted MRI: The Way Forward for MRI in Myeloma? Hillengass, Jens, Merz, Maximilian, Alberico, Ronald, Chalian, Majid 18 January 2024 (has links) Multiple myeloma and other plasma cell disorders infiltrate the bone marrow in different patterns. While some patients show a homogeneous distribution of the clonal plasma cells others present with focal accumulations, commonly called focal lesions. Novel imaging techniques can provide information on these infiltration patterns and, due to their low invasiveness, can be performed repeatedly and therefore be used for monitoring. Conventional magnetic resonance imaging (MRI) has a high sensitivity for bone marrow assessment but cannot safely differentiate between active and inactive lesions. Therefore, positron emission tomography, especially combined with computed tomography (PET/CT), has been more widely used, at least for the monitoring of treatment response. Comparative, but mostly retrospective studies, have shown that functional MRI techniques, namely diffusion-weighted imaging (DWI), which assesses the movement of water molecules, can evaluate tissue cellularity with high sensitivity, which challenges the dominance of PET/CT in treatment response assessment. This review will discuss the benefits and challenges of DWI and compare it to other available imaging techniques used in patients with monoclonal plasma cell disorders info:eu-repo/classification/ddc/610 ddc:610
154	HAZARDOUS AIR POLLUTANTS AND DEATHS DUE TO LYMPHATIC AND HEMATOPOIETIC DISORDERS IN OHIO, 1988-1997 Wilcox, Patricia Page 21 January 2003 (has links) No description available. leukemia lymphoma multiple myeloma myelodysplastic syndrome hazardous air pollutants environmental exposures dioxins TCDD 2,4-D epidemiology
155	Predicting the efficacy of monoclonal antibodies against multiple myeloma / 多発性骨髄腫に対する抗体療法の有効性の予測 Shimazu, Yutaka 25 March 2024 (has links) 京都大学 / 新制・論文博士 / 博士(医学) / 乙第13603号 / 論医博第2313号 / 新制\|\|医\|\|1073(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授森田智視, 教授佐藤俊哉, 教授永井純正 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM multiple myeloma κ/λ ratio β2 microglobulin lymphocyte counts monocyte counts predictive markers 490
156	The transformed consumer : collective practices and identity work in an emotional community Dunnett, Susan January 2009 (has links) This interpretive consumer research study interrogates the idea that people turn to consumption as a means of self-determination. Proceeding from the understanding that the consumer enacts the development of their identity within the marketplace, it takes as its subject those in transition. Its context is a support group community of people brought together by an illness - multiple myeloma. Here, through a phenomenological approach designed to explore the lived experience of illness, the thesis discovers community to be the enabling context for the consumer’s negotiation of both selfhood and the market. Conclusions are drawn about the incremental, complex nature of identity work, and the collective practices that empower it. It is found that the marketplace requires significant mediation, but that the social resources of the community can equip the consumer to navigate its challenges. This transformation is manifested in the newly-diagnosed patient’s journey from dislocation and passivity to the empowered status of ‘skilled consumer’. The importance of the often-overlooked emotional texture of exchange within consumption communities is highlighted. In conclusion, it is offered that this study extends the concept of communities of practice into the field of consumption. 381
157	Die anti-tumorale Wirkung des neuen Phosphoinositid-3-Kinase-Inhibitors BAY 80-6946 auf humane Myelom-Zellen / The anti-tumour activity of the novel PI3K inhibitor BAY 80-6946 on myeloma cells Hensen, Janina 20 January 2015 (has links) No description available. 610 Multiples Myelom Medikamentenresistenz PI3-Kinase myeloma chemoresistance PI3 kinase Medizin (PPN619874732)
158	Immunotherapy of Cancer: Reprogramming Tumor/Immune Cellular Crosstalk to Improve Anti-Tumor Efficacy Payne, Kyle K. 01 January 2015 (has links) Immunotherapy of cancer has been shown to be promising in prolonging patient survival. However, complete elimination of cancer and life-long relapse-free survival remain to be major challenge for anti-cancer therapeutics. We have previously reported that ex vivo reprogramming of tumor-sensitized immune cells by bryostatin 1/ionomycin (B/I) and the gamma-chain (γ-c) cytokines IL-2, IL-7, and IL-15 resulted in the generation of memory T cells as well as CD25+ NKT cells and CD25+ NK cells. Adoptive cellular therapy (ACT) utilizing these reprogrammed immune cells protected FVBN202 mice from tumor challenge, and overcame the suppressive functions of myeloid-derived suppressor cells (MDSCs). We then demonstrated that the presence of CD25+ NKT cells was required for anti-tumor efficacy of T cells as well as their resistance to MDSCs. Similar results were obtained by reprogramming of peripheral blood mononuclear cells (PBMC) from patients with early stage breast cancer, demonstrating that an increased frequency of CD25+ NKT cells in reprogrammed immune cells was associated with modulation of MDSCs to CD11b-HLA-DR+ immune stimulatory cells. Here, we tested the efficacy of immunotherapy in a therapeutic setting against established primary breast cancer (Chapter One), experimental metastatic breast cancer (Chapter Three) as well as against minimal residual disease (MRD) in patients with multiple myeloma (Chapter Two). We evaluated the ability of reprogrammed immune cells, including CD25+ NKT cells, to convert MDSCs to myeloid immune stimulatory cells, in vivo; this resulted in the identification and characterization of a novel antigen presenting cell (APC). These novel immune stimulatory cells differed from conventional APCs, including dendritic cells (DCs) and macrophages. We have also demonstrated that enhancing immunogenicity of mammary tumors by treatment with Decitabine (Dec) along with overcoming MDSCs by utilizing reprogrammed T cells and NKT cells in ACT prolongs survival of animals, but fails to eliminate the tumor. However, targeting cancer during a setting of MDR, when tumor cells are dormant, results in objective responses as evidenced in our multiple myeloma studies. This suggests that targeting breast cancer with immunotherapy following conventional therapies, in a setting of residual disease when tumor cells are dormant, may be effective in eliminating such residual cells or maintaining dormancy and extending time-to-relapse for breast cancer patients. Breast Cancer Mutliple Myeloma Immunotherapy Epigenetic therapy Myeloid-derived Suppressor Cells Cancer Dormancy Cancer Biology Immunity Translational Medical Research
159	The Regulation of Growth and Survival in Human Multiple Myeloma Cells by IGF-I Receptor Signaling Strömberg, Thomas January 2003 (has links) <p>Multiple myeloma (MM) is an incurable B-cell malignancy mainly localized to the bone marrow. Our aim was to examine the growth- and survival-promoting role of the IGF-IR and its downstream signaling components in MM cells to identify potential targets for therapy. </p><p>Octreotide, a somatostatin analog that has been demonstrated to interfere with the actions of IGF-I, induced growth inhibition in both IL-6-dependent and IL-6-independent MM cell lines expressing the somatostatin receptors sst2, sst3 and sst5. Additionally, a slight pro-apoptotic effect could be observed in a few cell lines. In primary MM cells octreotide induced apoptosis, an effect that was abrogated by exogenously added IGF-I, but not by IL-6.</p><p>Inhibition of IGF-I signaling in Karpas 707 cells, using either the anti-IGF-IR antibody αIR3 or the PI 3-K inhibitors LY294002 and wortmannin, increased sensitivity to apoptosis induced by dexamethasone. Exogenously added IGF-I prevented dexamethasone-induced apoptosis, an effect that could partly be mimicked by the pharmacological GSK-3β inhibitors LiCl and SB415286. Thus, we suggest the GSK-3β as an important mediator of the anti-apoptotic effects of IGF-IR signaling in MM.</p><p>Using rapamycin we selectively inhibited mTOR, a phosphoprotein downstream of the IGF-IR. In MM cell lines rapamycin induced G0/G1-arrest, an effect being associated with an increase of the cyclin-dependent kinase inhibitor p27 and a decrease of the cyclins D2, D3 and E. Interestingly, in primary MM cells rapamycin induced apoptosis. Moreover, rapamycin potentiated dexamethasone-induced apoptosis, an effect that was associated with a downregulation of the anti-apoptotic protein survivin. Strikingly, the combinatorial treatment with rapamycin and dexamethasone suppressed the anti-apoptotic effects of exogenously added IGF-I and IL-6, thus suggesting this drug-combination to be active also in vivo. </p><p>Two newly developed, selective IGF-I RTK inhibitors proved to be very effective in MM cell lines and in primary MM cells providing 50-90% growth inhibition within 48 h of incubation. The inhibitors induced massive apoptosis together with a prominent cell cycle arrest in the G2/M-phase. Importantly, the IGF-I RTK inhibitors downregulated the tyrosine phosphorylation of the IGF-IR β-chain but not of the insulin receptor β-chain. </p><p>In conclusion, the IGF-IR potently promotes growth and survival of MM cells. Therefore, interfering with the IGF-IR signaling pathway might be a suitable strategy to improve MM treatment.</p> Pathology Multiple myeloma IGF-IR apoptosis somatostatin octreotide dexamethasone GSK-3 mTOR rapamycin RTK inhibitor Patologi Pathology Patologi
160	Apoptosis Regulation in Multiple Myeloma Dimberg, Lina January 2006 (has links) <p>Multiple myeloma (MM) is a virtually incurable B cell malignancy of the bone marrow. One important part of tumor progression and an obstacle for successful therapy is resistance to apoptosis. To combat this resistance, the mechanisms of apoptosis and survival in MM must be better defined. </p><p>In this thesis, we identified Fas up-regulation as a mechanism underlying interferon (IFN)-mediated sensitization to Fas-induced apoptosis in the MM cell line U-266-1970. IFN treatment induced activation of signal transducer and activator of transcription (Stat)1 but, intriguingly, also attenuated activation of MM survival factor Stat3. </p><p>Exploring the role of Stat1 further, we established sub-lines of U-266-1970 with a stable over-expression of Stat1 and of its active mutant Stat1C. These sub-lines displayed a decreased expression and activation of Stat3, and an altered expression of apoptosis-related genes Harakiri, Bcl-2 and Mcl-1. In a drug library screening, Stat1 over-expression was associated with an increased sensitivity to Fas-induced apoptosis and, conversely, an increased resistance to several drugs, including the cyclin dependent kinase (cdk)1 inhibitor CGP74514A. We conclude that Stat1 over-expression does not confer a general resistance or sensitivity to apoptosis in MM, but may strongly affect the response to some specific drugs.</p><p>We also explored the effects of picropodophyllin (PPP), an inhibitor of the insulin-like growth factor I (IGF-I) receptor tyrosine kinase (RTK), in MM. PPP selectively inhibited the IGF-I RTK activity without inhibiting the insulin RTK activity. Furthermore, PPP potently induced cell cycle arrest and apoptosis in all MM cell lines and patient samples tested, also in the presence of survival factors IGF-I and IL-6. We conclude that PPP has great therapeutic potential in MM </p><p>Finally, we examined the expression and regulation of the inhibitors of apoptosis proteins (IAPs) in a panel of MM cell lines and patient samples. The glucocorticoid dexamethasone, which is used in MM therapy, induced a transient up-regulation and a subsequent down-regulation of c-IAP2, as well as a down-regulation of XIAP, possibly influencing the sensitivity to apoptosis induced by this drug. Supporting this notion, abrogation of IGF-IR signaling by PPP, which sensitizes MM cells to dexamethasone-induced apoptosis, enhanced the down-regulation of c-IAP2 and XIAP.</p> Biomedicine multiple myeloma apoptosis survival IFN Stat1 Stat3 IGF-I RTK inhibitor PPP IAP Fas/CD95 dexamethasone Biomedicin

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