Apheresis
Apheresis | |
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MeSH | D016238 |
Apheresis (ἀφαίρεσις (aphairesis, "a taking away")) is a medical technology in which the blood of a person is passed through an apparatus that separates out one particular constituent and returns the remainder to the circulation. It is thus an extracorporeal therapy.
One of the uses of apheresis is for collecting hematopoetic stem cells.[1]
Method
[edit]Depending on the substance that is being removed, different processes are employed in apheresis. If separation by density is required, centrifugation is the most common method. Other methods involve absorption onto beads coated with an absorbent material[2] and filtration.[3]
The centrifugation method can be divided into two basic categories:[4]
Continuous flow centrifugation
[edit]Continuous flow centrifugation (CFC) historically required two venipunctures as "continuous" means the blood is collected, spun, and returned simultaneously. Newer systems can use a single venipuncture by pooling blood in a vessel and cycling through drawing and returning blood though the needle while the centrifuge continuously processes blood remaining in the vessel.[5] The main advantage of this system is the low extracorporeal volume (calculated by volume of the apheresis chamber, the donor's hematocrit, and total blood volume of the donor) used in the procedure, which may be advantageous in the elderly and for children.[citation needed]
Intermittent flow centrifugation
[edit]Intermittent flow centrifugation (IFC) works in cycles, taking blood, spinning/processing it and then giving back the unused parts to the donor in a bolus. The main advantage is a single venipuncture site. It does require a larger extracorporeal volume, and takes significantly longer to perform the procedure via IFC. As such, it is less likely to be used for therapeutic reasons, and is often seen in Donation Center settings.[6] To stop the blood from coagulating, anticoagulant is automatically mixed with the blood as it is pumped from the body into the apheresis machine.[7]
Centrifugation variables
[edit]The centrifugation process itself has four variables that can be controlled to selectively remove desired components. The first is spin speed and bowl diameter, the second is "sit time" in centrifuge, the third is solutes added, and the fourth is not as easily controllable: plasma volume and cellular content of the donor. The result in most cases is the classic sedimented blood sample with the RBCs at the bottom, the buffy coat of platelets and WBCs (lymphocytes, granulocytes, monocytes) in the middle and the plasma on top.[8]
Types
[edit]There are numerous types of apheresis.
Donation
[edit]Blood taken from a healthy donor can be separated into its component parts during blood donation, where the needed component is collected and the unharvested components are returned to the donor. Fluid replacement is usually not needed in this type of collection. In many countries, apheresis donors can donate platelets more often than those donating whole blood. There are several categories of component collections:
- Plasmapheresis – blood plasma. Plasmapheresis is useful in collecting FFP (fresh frozen plasma) of a particular ABO group. Commercial uses aside from FFP for this procedure include immunoglobulin products, plasma derivatives, and collection of rare WBC and RBC antibodies.
- Erythrocytapheresis – red blood cells. Erythrocytapheresis is the separation of erythrocytes from whole blood. It is most commonly accomplished using the method of centrifugal sedimentation. The automated red blood cell collection procedure for donating erythrocytes is referred to as 'Double Reds' or 'Double Red Cell Apheresis.'[9]
- Plateletpheresis (thrombapheresis, thrombocytapheresis) – blood platelets. Plateletpheresis is the collection of platelets by apheresis while returning the RBCs, WBCs, and component plasma. The yield is normally the equivalent of between six and ten random platelet concentrates. Quality control demands the platelets from apheresis be equal to or greater than 3.0 × 1011 in number and have a pH of equal to or greater than 6.2 in 90% of the products tested and must be used within five days.
- Leukapheresis – leukocytes (white blood cells). Leukopheresis is the removal of PMNs, basophils, eosinophils for transfusion into patients whose PMNs are ineffective or where traditional therapy has failed. There is limited data to suggest the benefit of granulocyte transfusion. The complications of this procedure are the difficulty in collection and short shelf life (24 hours at 20 to 24 °C). Since the "buffy coat" layer sits directly atop the RBC layer, HES, a sedimenting agent, is employed to improve yield while minimizing RBC collection. Quality control demands the resultant concentrate be 1.0 × 1010 granulocytes in 75% of the units tested and that the product be irradiated to avoid graft-versus-host disease (inactivate lymphocytes). Irradiation does not affect PMN function. Since there is usually a small amount of RBCs collected, ABO compatibility should be employed when feasible.[10]
- Stem cell harvesting – hematopoietic stem cells. Circulating peripheral blood stem cells (PBSCs) are harvested to use in peripheral stem cell transplantation following administration of a mobilizing agent, such as granulocyte colony stimulating factor (G-CSF).
- Lymphapheresis – lymphocytes. Lymphocytes are harvested to use in manufacture of CAR T cell products for T-cell-based immunotherapies.[11]
Donor safety
[edit]- Single use kits – Apheresis is done using single-use kits, so there is no risk of infection from blood-contaminated tubing or centrifuge. Blood does not contact the device and during the separation, blood does not exit the kit.[12]
- Reinfusion – At the end of the procedure, the remaining blood in the kit is given back to the donor with a process called 'reinfusion'.
- Immune system effects – "the immediate decreases in blood lymphocyte counts and serum immunoglobulin concentrations are of slight to moderate degree and are without known adverse effects. Less information is available regarding long-term alterations of the immune system".[13]
Kit problems
[edit]Two apheresis kit recalls were:
- Baxter Healthcare Corporation (2005), in which "pinhole leaks were observed at the two-omega end of the umbilicus (multilumen tubing), causing a blood leak."[14]
- Fenwal Incorporated (2007), in which there were "two instances where the anticoagulant citrate dextrose (ACD) and saline lines were reversed in the assembly process. The reversed line connections may not be visually apparent in the monitor box, and could result in excessive ACD infusion and severe injury, including death, to the donor."[15]
Donor selection
[edit]People who do not use a drug that may prevent blood donation, who do not have the risk of the carrier of a disease, and who have suitable vascular structure may be apheresis donors. For apheresis platelet donation the donor's pre platelet count should be above 150 x 10^9/L. For apheresis plasma donation, the donor's total protein level should be greater than 60 g/L. For double red cell apheresis, donors of either gender require a minimum hemoglobin level of 14.0 g/dl.[16]
Plasticizer exposure
[edit]Apheresis uses plastics and tubing, which come into contact with the blood. The plastics are made of PVC in addition to additives such as a plasticizer, often DEHP. DEHP leaches from the plastic into the blood, and people have begun to study the possible effects of this leached DEHP on donors as well as transfusion recipients.[17]
- "current risk or preventive limit values for DEHP such as the RfD of the US EPA (20 μg/kg/day) and the TDI of the European Union (20–48 μg/kg/day) can be exceeded on the day of the plateletpheresis. ... Especially women in their reproductive age need to be protected from DEHP exposures exceeding the above mentioned preventive limit values."[18]
- "Commercial plateletpheresis disposables release considerable amounts of DEHP during the apheresis procedure, but the total dose of DEHP retained by the donor is within the normal range of DEHP exposure of the general population."[19]
- The Baxter company manufactured blood bags without DEHP, but there was little demand for the product in the marketplace
- "Mean DEHP doses for both plateletpheresis techniques (18.1 and 32.3 μg/kg/day) were close to or exceeded the reference dose (RfD) of the US EPA and tolerable daily intake (TDI) value of the EU on the day of the apheresis. Therefore, margins of safety might be insufficient to protect especially young men and women in their reproductive age from effects on reproductivity. At present, discontinuous-flow devices should be preferred to avert conceivable health risks from plateletpheresis donors. Strategies to avoid DEHP exposure of donors during apheresis need to be developed."[20]
Therapy
[edit]The various apheresis techniques may be used whenever the removed constituent is causing severe symptoms of disease. Generally, apheresis has to be performed fairly often, and is an invasive process. It is therefore only employed if other means to control a particular disease have failed, or the symptoms are of such a nature that waiting for medication to become effective would cause suffering or risk of complications. For autoimmune diseases in which apheresis is effective, it is used not as a standalone treatment, but rather in conjunction with therapies that reduce production of autoantibodies.
- Plasma exchange – removal of the liquid portion of blood to remove harmful substances. The plasma is replaced with a replacement solution.
- LDL apheresis – removal of low density lipoprotein in patients with familial hypercholesterolemia.
- Lipoprotein(a) (Lp(a) apheresis[21]
- Photopheresis – used to treat graft-versus-host disease, cutaneous T-cell lymphoma, and rejection in heart transplantation.
- Immunoadsorbtion with Staphylococcal protein A-agarose column – removal of allo- and autoantibodies (in autoimmune diseases, transplant rejection, hemophilia) by directing plasma through protein A-agarose columns. Protein A is a cell wall component produced by several strains of Staphylococcus aureus which binds to the Fc region of IgG.
- Leukocytapheresis – removal of malignant white blood cells in people with leukemia and very high white blood cell counts causing symptoms.
- Erythrocytapheresis – removal of erythrocytes (red blood cells) in people with iron overload as a result of Hereditary haemochromatosis. This process is also used for exchange transfusion in severe malaria, or in sickle cell patients with specific indications such as acute chest syndrome or stroke.
- Thrombocytapheresis – removal of platelets in people with symptoms from extreme elevations in platelet count such as those with essential thrombocythemia or polycythemia vera.
Indications
[edit]ASFA categories
[edit]In 2023,[22] the American Society for Apheresis published the 9th Special Edition of evidence based guidelines for the practice of Apheresis Medicine. These guidelines are based upon a systematic review of available scientific literature. Clinical utility for a given disease is denoted by assignment of an ASFA Category (I – IV). The quality and strength of evidence are denoted by standard GRADE recommendations. ASFA Categories are defined as follows:
- Category I for disorders where therapeutic apheresis is accepted as a first line treatment,
- Category II for disorders where therapeutic apheresis is accepted as a second-line treatment,
- Category III for disorders where the optimal role of therapeutic apheresis is not clearly established and
- Category IV for disorders where therapeutic apheresis is considered ineffective or harmful.
Diseases and disorders
[edit]Only diseases (or mentioned special conditions thereof) with ASFA category I or II are displayed in bold, with category I being underlined in addition.
Fluid replacement during apheresis
[edit]When an apheresis system is used for therapy, the system is removing relatively small amounts of fluid (not more than 10.5 mL/kg body weight). That fluid must be replaced to keep correct intravascular volume. The fluid replaced is different at different institutions. If a crystalloid like normal saline (NS) is used, the infusion amount should be triple what is removed as the 3:1 ratio of normal saline for plasma is needed to keep up oncotic pressure. Some institutions use human serum albumin, but it is costly and can be difficult to find. Routine use of fresh frozen plasma (FFP) is not generally appropriate because of the dangers including citrate toxicity (from the anticoagulant), ABO incompatibility, infection, and allergic reactions. However, FFP should be used in cases of thrombotic thrombocytopenic purpura or patients at high risk of bleeding.
See also
[edit]References
[edit]- ^ Katherine, Abel (2013). Official CPC Certification Study Guide. American Medical Association. p. 128.
- ^ Fuchs K, Rummler S, Ries W, Helmschrott M, Selbach J, Ernst F, Morath C, Gauly A, Atiye S, Stauss-Grabo M, Giefer M. Performance, clinical effectiveness, and safety of immunoadsorption in a wide range of indications. Ther Apher Dial. 2022 Feb;26(1):229-241. doi: 10.1111/1744-9987.13663. Epub 2021 May 6. PMID: 33914397; PMCID: PMC9291474
- ^ Hirano R, Namazuda K, Hirata N. Double filtration plasmapheresis: Review of current clinical applications. Ther Apher Dial. 2021 Apr;25(2):145-151. doi: 10.1111/1744-9987.13548. Epub 2020 Aug 6. PMID: 32558286.
- ^ Lambert C, Gericke M, Smith R, Hermans C. Plasma extraction rate and collection efficiency during therapeutic plasma exchange with Spectra Optia in comparison with Haemonetics MCS+. J Clin Apher. 2011;26(1):17-22. doi: 10.1002/jca.20271. Epub 2010 Nov 17. PMID: 21312255.
- ^ US patent 7108672, "Extracorporeal blood processing methods and apparatus"
- ^ "Apheresis". Retrieved 2022-10-24.
- ^ Vurro F, Merolle L, Marraccini C, Parisi M, Canovi L, Erta B, Santachiara A, Bonvicini L, Giorgi Rossi P, Baricchi R, Pertinhez TA. Quantitative assessment of the anticoagulant in plasma units collected by plasmapheresis. Transfusion. 2019 Jun;59(6):2113-2120. doi: 10.1111/trf.15244. Epub 2019 Mar 15. PMID: 30875439.
- ^ Vrielink H, Neyrinck MM. Basics of apheresis and equipment. Transfus Apher Sci. 2023 Apr;62(2):103671. doi: 10.1016/j.transci.2023.103671. Epub 2023 Feb 24. PMID: 36870905.
- ^ dtm double red cell Archived July 5, 2007, at the Wayback Machine
- ^ Lodermeier MA, Byrne KM, Flegel WA. Red blood cell sedimentation of Apheresis Granulocytes. Transfusion. 2017 Oct;57(10):2551-2552. doi: 10.1111/trf.14251. Epub 2017 Aug 16. PMID: 28815621; PMCID: PMC5656404.
- ^ Yamanaka, I., Yamauchi, T., Henzan, T. et al. Optimization of lymphapheresis for manufacturing autologous CAR-T cells. Int J Hematol 114, 449–458 (2021). https://doi.org/10.1007/s12185-021-03191-x
- ^ Vrielink H, Neyrinck MM. Basics of apheresis and equipment. Transfus Apher Sci. 2023 Apr;62(2):103671. doi: 10.1016/j.transci.2023.103671. Epub 2023 Feb 24. PMID: 36870905.
- ^ Strauss, Ronald G. (1984). "Apheresis donor safety – changes in humoral and cellular immunity". Journal of Clinical Apheresis. 2 (1): 68–80. doi:10.1002/jca.2920020112. PMID 6536660. S2CID 25890912.
- ^ "Recall of Amicus Apheresis Kits, Baxter Healthcare Corporation". Food and Drug Administration. Archived from the original on 2009-01-17. Retrieved 2008-12-20. "Recall of Amicus Apheresis Kits, Baxter Healthcare Corporation", US FDA, Jan 31 2005
- ^ "Recall of CS3000 Apheresis Kits". Food and Drug Administration. June 21, 2007.
- ^ Boulton F. The 13% rule. Comments. Transfusion Today, 2007, 71:7–9.
- ^ Larsson L, Sandgren P, Ohlsson S, Derving J, Friis-Christensen T, Daggert F, Frizi N, Reichenberg S, Chatellier S, Diedrich B, Antovic J, Larsson S, Uhlin M. Non-phthalate plasticizer DEHT preserves adequate blood component quality during storage in PVC blood bags. Vox Sang. 2021 Jan;116(1):60-70. doi: 10.1111/vox.12982. Epub 2020 Sep 12. PMID: 32918773.
- ^ Koch, Holger M.; Bolt, Hermann M.; Preuss, Ralf; Eckstein, Reinhold; Weisbach, Volker; Angerer, Jürgen (2005). "Intravenous exposure to di(2-ethylhexyl)phthalate (DEHP): Metabolites of DEHP in urine after a voluntary platelet donation". Archives of Toxicology. 79 (12): 689–93. doi:10.1007/s00204-005-0004-x. PMID 16059725. S2CID 743051.
- ^ Buchta, Christoph; Bittner, Claudia; Höcker, Paul; Macher, Maria; Schmid, Rainer; Seger, Christoph; Dettke, Markus (2003). "Donor exposure to the plasticizer di(2-ethylhexyl)phthalate during plateletpheresis". Transfusion. 43 (8): 1115–20. doi:10.1046/j.1537-2995.2003.00479.x. PMID 12869118. S2CID 34539126.
- ^ Koch, Holger M.; Angerer, Jürgen; Drexler, Hans; Eckstein, Reinhold; Weisbach, Volker (2005). "Di(2-ethylhexyl)phthalate (DEHP) exposure of voluntary plasma and platelet donors". International Journal of Hygiene and Environmental Health. 208 (6): 489–98. doi:10.1016/j.ijheh.2005.07.001. PMID 16325559.
- ^ "Lipoprotein (a)". CDC Office of Science (OS), Office of Genomics and Precision Public Health. U.S. Department of Health & Human Services. 5 July 2022. Retrieved 14 September 2022.
- ^ Connelly-Smith, Laura; Alquist, Caroline; Aqui, Nicole; Hofmann, Jan; Klingel, Reinhard; et al. (2023). "Guidelines on the Use of Therapeutic Apheresis in Clinical Practice - Evidence-Based Approach from the Writing Committee of the American Society for Apheresis: The Ninth Special Issue". The Journal of Clinical Apheresis. 38 (2): 77–278. doi:10.1002/jca.22043. PMID 37017433.
External links
[edit]- NIH
- American Society for Apheresis
- WebPath Apheresis page.
- WebPath Blood Donation and Processing
- Donating Platelet Apheresis: Facts and the FAQ
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