The thrombotic microangiopathy (TMA) Registry Network of North America (TRNA) is a collaborative network organized for the purpose of developing a multi-institutional registry and network to conduct clinical studies in a rare patient population. The TRNA was founded in 2013 by four academic medical centers (Columbia University Medical Center, Duke University Medical Center, University of Alabama at Birmingham, and University of Pennsylvania) to develop a national and demographically diverse dataset of patients with TMA. A clinical database was developed by network members using REDCap (Research Electronic Data Capture), a web-based database developed for clinical research. To facilitate rapid Institutional Review Board (IRB) approval at multiple sites, the TRNA utilized IRBshare, a streamlined IRB process to allow patient recruitment and enrollment into the TMA registry. This article reviews the process used to establish the TRNA network and discusses the significance of the first multi-institutional clinical apheresis network developed in the United States. J. Clin. Apheresis 31:448-453, 2016. © 2015 Wiley Periodicals, Inc.
Elevated Lipoprotein (a) (Lp(a)) levels are associated with atherosclerosis and are independent risk factors for coronary artery disease and stroke [Ariyo et al., N Engl J Med 2003;349:2108–2115; Price et al., Atherosclerosis 2001;157:241–249]. Low-density lipoprotein (LDL)-apheresis is the most effective therapy for reducing Lp(a) levels [Parker, Chem Phys Lipids 1994;67–68:331–338; Stefanutti et al., Transfus Apher Sci 2010;42:21–26]. Dextran sulfate-cellulose adsorption (Liposorber®) removes both LDL and Lp(a) particles with minimal effect on high-density lipoprotein levels. During the procedure, high levels of bradykinin are generated as the kallikrein-kinin system is activated by contact with the negatively charged dextran-sulfate cellulose [Krieter et al., Artif Organs 2005;29:47–52]. Bradykinin is a potent vasodilator and a substrate of the angiotension converting enzyme (ACE). ACE inhibitors are contraindicated for apheresis procedures because these drugs prevent bradykinin degradation, which causes anaphylatoid reactions characterized by hypotension, bradycardia, dyspnea, and flushing [Owen and Brecher, Transfusion 1994;34:891–894]. Turmeric is a yellow spice that is used as an herbal remedy to treat a myriad of conditions ranging from abdominal pain to pulmonary infections. Scientific investigations of the ethnomedicinal properties of curcumin, the major derivative of turmeric, suggest that this compound has anti-inflammatory, antioxidant, and antineoplastic properties [Lobo et al., J Pharm Pharmacol 2009;61:13–21]. We report a case of a patient undergoing Liposorber® therapy for treatment of hyperLp(a)lipidemia who had three episodes of anaphylactoid-like reactions after starting therapy with the spice turmeric.
Background: In sickle cell disease, it is well established that cells containing two mutated hemoglobins (SS) are denser than cells containing wild-type hemoglobin. We asked whether we could more efficiently exchange red blood cells (RBCs) in sickle cell anemia patients by exploiting the denser property of RBCs containing hemoglobin SS compared to wild-type RBCs. Methods: To probe this question, we performed a series of experiments using the waste bags from sickle cell patients as simulated patients. We exchanged the simulated patient with one RBC volume using recently expired ABO compatible RBC units on a COBE Spectra apheresis instrument. We measured hematocrit and hemoglobin S levels in the simulated and control patient bag before and after the exchange. In the experimental scenario, we programmed the COBE Spectra to exchange the bottom half of the RBCs by indicating that the hematocrit was half of the true hematocrit (e.g. 21% when the hematocrit of the bag was 42%). For control exchanges we programmed the COBE Spectra to exchange the entire RBC volume by programing the hematocrit to be the true one (for this example 42%). Results: The percentage of hemoglobin S was more effectively diminished in our modified exchanges that targeted dense RBCs than in control exchanges. Our experimental exchanges were also more effective than expected for a 1 red blood cell volume exchange by Poisson calculation (n=5). In an optimized experiment, hemoglobin S was reduced from 23.7% to 1.3 % after exchanging 1 RBC volume using our modified approach while it was reduced from 23.2 to 5.4% using the control or routine exchange parameters. The same volume of donor RBCs (1 RBC volume) was used to exchange our experimental and control simulations. We obtained a 95% reduction of hemoglobin S in our experimental conditions and a 77% reduction in our control conditions. The instrument was programmed to compensate for RBC depletion with the modified RBC exchange. The compensation is necessary to maintain a constant hematocrit since more RBCs are present in the bottom half than top half of the centrifuged RBCs. Conclusions: It is possible to exchange sickle cell anemia patients more effectively by taking advantage of the fact that RBCs containing hemoglobin SS are denser than normal RBCs. Using waste products from sickle cell anemia exchanges provides an opportunity to safely optimize exchange parameters. This approach should allow us to: 1) achieve a higher reduction in hemoglobin S in patients, 2) achieve the previous levels of reduction using fewer donor units and/or 3) combine red cell exchange with other therapies for sickle cell disease, such as hydroxyurea, by taking advantage of the differential densities and selective depletion of red blood cells containing different levels of hemoglobin F. Disclosures No relevant conflicts of interest to declare.
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