54 research outputs found

    Diagnosis of central venous catheter-related thrombus by transesophageal echocardiography

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    Case Report. Rhodotorula rubra fungaemia due to use of indwelling venous catheters

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    Rhodotorula has been an infrequent cause of infection in humans but there have been some case reports about this systemic yeast infection. In this article, a Rhodotorula rubra fungaemia due to an indwelling catheter in a 23-year-old woman who had been diagnosed with non-Hodgkin's lymphoma grade IV B is described

    Stem Cell Therapy for Congestive Heart Failure

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    IntroductionHeart failure is a major cardiovascular health problem. Coronary artery disease is the leading cause of congestive heart failure (CHF) [1]. Cardiac transplantation remains the most effective long-term treatment option, however is limited primarily by donor availability, rejection and infections. Mechanical circulatory support has its own indications and limitations [2]. Therefore, there is a need to develop more effective therapeutic strategies.Recently, regenerative medicine has received considerable scientific attention in the cardiovascular arena. We report here our experience demonstrating the beneficial effects of cardiac stem cell therapy on left ventricular functions in a patient with Hodgkin’s lymphoma (HL) who developed CHF due to ischemic heart disease during the course of lymphoma treatment. Case reportA 58-year-old male with relapsed HL was referred to our bone marrow transplantation unit in October 2009. He was given 8 courses of combination chemotherapy with doxorubicin, bleomycin, vincristine, and dacarbazine (ABVD) between June 2008 and February 2009 and achieved complete remission. However, his disease relapsed 3 months after completing the last cycle of ABVD and he was decided to be treated with DHAP (cisplatin, cytarabine, dexamethasone) followed autologous stem cell transplantation (SCT). After the completion of first course of DHAP regimen, he developed acute myocardial infarction (AMI) and coronary artery bypass grafting (CABG) was performed. After his cardiac function stabilized, 3 additional courses of DHAP were given and he was referred to our centre for consideration of autologous SCT. Computed tomography scans obtained after chemotherapy confirmed complete remission. Stem cells were collected from peripheral blood after mobilization with 10 µg/kg/day granulocyte colony-stimulating factor (G-CSF) subcutaneously. Collection was started on the fifth day of G-CSF and performed for 3 consecutive days. Flow cytometric analysis of CD 34 was used to identify hematopoietic stem cells. During the last evaluation before stem cell transplantation, conventional echocardiogram (ECHO) revealed left ventricular systolic dysfunction with an ejection fraction of ALEF: 44%, MODEF: 45%, MUGA scan showed a decreased left ventricular ejection fraction (LVEF: 43%) (Figure 1). In view of these findings, the patient was found ineligible for SCT and he was offered to give his peripheral blood stem cells for the treatment of heart failure. After receiving the patient’s signed informed consent form, a total number of 3.49x106/kg CD 34+ cells were infused via antecubital vein. Echocardiographic studies performed 2 months after stem cell therapy revealed a similar ejection fraction rate while a significant improvement in left ventricular ejection fraction (ALEF: 55%, MODEF: 57%) was noticed in ECHO performed 7 months after stem cell therapy (Figure 2).EF values at various time periods are shown on Table 1. Myocardial perfusion scintigraphy was also performed and showed infarction containing viable tissue in inferior wall (Figure 3). Myocardial positron emission tomography revealed that glucose metabolism was conserved in inferior wall.HL was in complete remission in the 2 months follow up after SCT but SCT for HL was not contemplated because renal failure due to chemotherapy developed later. Discussion Here, we reported a patient with HL who was ineligible for SCT because of low LVEF due to AMI. LVEF was low despite CABG. Collected stem cells were used as a stem cell therapy for heart failure since he was ineligible for SCT directed to treat HL. Although intravenous infusion of stem/progenitor cells are not favoured any more and intracoronary infusion or intramyocardial injections are preferred in latest reports [3] our data supports this route can still be effective. The objective of stem cell therapy in CHF due to ischemic heart disease is to repopulate post-infarction scar tissue with contractile cells that can engraft in sufficient numbers to differentiate to the cardiac myocytes and restore functionality in these akinetic areas. Hematopoietic stem cells consist can differentiate to skeletal and myocardial cells when cultured under appropriate conditions [4]. Strauer et al [5] reported that intracoronary bone marrow stem cell therapy improves ventricular performance, quality of life and survival in patients with chronic heart failure. Hamano et al [6] showed in 5 patients that autologous bone marrow cells can be injected safely during a by-pass operation into areas of ischemic myocardium. Brehm et al [7] have treated 23 patients with acute cardiac infarction using autologous mononuclear bone marrow cells. Ozbaran et al [8] transplanted peripheral blood stem cells into areas of injury with open-heart surgery in six patients with ischemic cardiomyopathy. There are also meta-analysis on ongoing clinical trials performed. Abdel-Latif et al [9] described a statistically significant improvement in ejection fraction, reduction in infarct size and left ventricular end-systolic volume in 18 patients treated with either unseparated bone marrow cells, bone marrow mesenchymal and mobilized peripheral blood cells. Martin-Rendon et al ­­ focused on 13 randomized studies encompassing 811 participants on bone marrow therapy for post acute infarction. Improvement in LVEF, decrease in left ventricular and systolic and end diastolic volumes and infarct size were observed. The reason for choice of intravenous route was being the standard way of giving hematopoietic stem cells by hematologists. We tried to decide the availibility of this route for indications other than hematological diseases. Although trapping of stem cells in the pulmonary vascular bed is a drawback of intravenous route and the question of whether the patient would have been more benefited by intracoronary or intramyocardial route remains unanswered, we think intravenous route may still have some role according to our own experience from this patient. ConclusionStudies in the era of cardiac stem cell therapy are heterogenous. It is not yet possible to comment on the most appropriate stem cell type and route of administration. When we assess the results from literature and the improvement in our own patient we think stem cell therapy can be an option for bridging to heart transplantation or an adjuvant therapy for CHF.References1.Ohnishi S, Ohgushi H, Kitamura S, Nagaya N. Mesenchymal stem cells for the treatment of heart failure. Int J Hematol 2007; 86: 17-21.2.Bukharovich IF, Kukin M. Optimal medical therapy for heart failure. Prog Cardiovasc Dis 2006; 48: 372-385.3.Tongers J, Losordo DW, Landmesser U. Stem and progenitor cell-based therapy in ischaemic heart disease: promise, uncertainties and challenges. Eur Heart J 2011. Epub ahead of print.4.Krause DS, Theise ND, Collector MI, Henegariu O, Hwang S, Gardner R, Neutzel S, Sharkis SJ. Multi-organ, multi-lineage engraftment by a single bone marrow-derived stem cell. Cell 2001; 105:369-377.5.Strauer BE, Yousef M, Schannwell CM. the acute and long term effects of intracoronary stem cell transplantation in 191 patients with chronic heart failure: the STAR-heart study. Eur J Heart Fail 2010; 12:721-729.6.Hamano K, Nishida M, Mirata K, Mikarno A, Li TS, Harada M, Miura T, Matsuzaki M, Esato K. Local implantation of autologous bone marrow cells for therapeutic angiogenesis in patients with ishemic heart disease: clinical trial and preliminary results Jpn Circ J. 2001; 65:845-847.7.Brehm M, Zeus T, Strauer BE. Stem cells-clinical application and perspectives. Herz 2002; 27:611-620.8.Ozbaran M, Omay SB, Nalbantgil S, Kultursay H, Kumanlioglu K, Nart D, Pektok E. Autologous peripheral stem cell transplantation in patients with congestive heart failure due to ischemic heart disease. Eur J Cardiothorac Surg. 2004; 25:342-350.9.Abdel-Latif A, Bolli R, Tleyjeh IM, Montori VM, Perin EC, Hornung CA, Zuba-Surma EK, Al-Mallah M, Dawn B. Adult bone marrow derived cells for cardiac repair: a systematic review and meta-analysis. Arch Intern Med. 2007; 167:989-997.10.Martin-Rendon E, Brunskill S, Doree C, Hyde C, Watt S, Mathur A, Stanworth S. Stem cell treatment for acute myocardial infarction. Cochrane database Syst Rev 2008; CD006536

    Is there an association of plasma homocysteine levels with vascular involvement in patients with Behcet's syndrome

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    Objective. To assess whether or not plasma homocysteine levels play a part in vascular involvement in Behcet's syndrome (BS)

    Nivolumab for relapsed or refractory hodgkin lymphoma: Experience in Turkey

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    Nivolumab for relapsed or refractory Hodgkin lymphoma: real-life experience

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    PubMed: 325079112-s2.0-85086129098Classical Hodgkin lymphoma (cHL) is considered a curable disease; however, in approximately one-third of the responding patients, the disease relapses following completion of therapy. One of the drugs that have been approved for the treatment of relapsed/refractory cHL is nivolumab, an immune check point inhibitor that shows its effects by blocking the programmed death 1 (PD-1) receptor. In this study, we present a retrospective “real-life” analysis of the usage of nivolumab in patients with relapsed/refractory cHL that have joined the named patient program (NPP) for nivolumab, reflecting 4 years of experience in the treatment of relapsed/refractory cHL. We present a retrospective analysis of 87 patients (median age, 30) that participated in the NPP in 24 different centers, who had relapsed/refractory cHL and were consequently treated with nivolumab. The median follow-up was 29 months, and the median number of previous treatments was 5 (2–11). In this study, the best overall response rate was 70% (CR, 36%; PR, 34%). Twenty-eight of the responding patients underwent subsequent stem cell transplantation (SCT). Among 15 patients receiving allogeneic stem cell transplantation, 9 patients underwent transplantation with objective response, of which 8 of them are currently alive with ongoing response. At the time of analysis, 23 patients remained on nivolumab treatment and the rest discontinued therapy. The main reason for discontinuing nivolumab was disease progression (n = 23). The safety profile was acceptable, with only nine patients requiring cessation of nivolumab due to serious adverse events. The 24-month progression-free and overall survival rates were 58.5% (95% CI, 0.47–0.68) and 78.7% (95% CI, 0.68–0.86), respectively. Eighteen patients died during the follow-up and only one of these was regarded to be treatment-related. With its efficacy and its safety profile, PD-1 blockers became an important treatment option in the heavily pretreated cHL patients. © 2020, Springer-Verlag GmbH Germany, part of Springer Nature
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