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Revision as of 22:02, 4 September 2018

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Nouman, M., M.D. [2]

Overview

In medicine, a transfusion reaction is any adverse event which occurs because of a blood transfusion. These events can take the form of an allergic reaction, a transfusion-related infection, hemolysis related to an incompatible blood type, or an alteration of the immune system related to the transfusion. The risk of a transfusion reaction must always be balanced against the anticipated benefit of a blood transfusion.

Types of Transfusion Reactions

Febrile Non-hemolytic Transfusion Reaction

This is the most common adverse reaction to a blood transfusion. Symptoms include fever and dyspnea 1 to 6 hours after receiving the transfusion. Such reactions are clinically benign, causing no lasting side effects or problems, but are unpleasant via a blood transfusion is estimated, as of 2006, at 1 per 2 million units transfused. Bacterial infection is a much more common problem (see below).

Bacterial Infection

Blood products can provide an excellent medium for bacterial growth, and can become contaminated after collection while they are being stored. The risk is highest with platelet transfusion, since platelets must be stored near room temperature and cannot be refrigerated. The risk of severe bacterial infection and sepsis is estimated (as of 2001) at about 1 in 50,000 platelet transfusions, and 1 in 500,000 red blood cell transfusions.^[1]

Acute Hemolytic Reaction

This is a medical emergency resulting from rapid destruction (hemolysis) of the donor red blood cells by host antibodies. The most common cause is clerical error (i.e. the wrong unit of blood being given to the wrong patient). The symptoms are fever and chills, sometimes with back pain and pink or red urine (hemoglobinuria). The major complication is that hemoglobin released by the destruction of red blood cells can cause acute renal failure.

Anaphylactic Reaction

An anaphylactic (or severe allergic) reaction can occur at a rate of 1 per 30,000-50,000 transfusions. These reactions are most common in people with selective IgA deficiency (although IgA deficiency is often asymptomatic, and people may not know they have it until an anaphylactic reaction occurs). An anaphylactic reaction is a medical emergency, requiring prompt treatment, and may be life-threatening. ===Transfusion-associated Acute Lung Injury (TRALI) TRALI is a syndrome of acute respiratory distress, often associated with fever, non-cardiogenic pulmonary edema, and hypotension. It may occur as often as 1 in 2000 transfusions.^[2] Symptoms can range from mild to life-threatening, but most patients recover fully within 96 hours, and the mortality rate from this condition is less than 10%.^[3]

Volume Overload

Patients with impaired cardiac function (eg congestive heart failure) can become volume-overloaded as a result of blood transfusion, leading to edema, dyspnea (shortness of breath), and orthopnea (shortness of breath while lying flat). This is sometimes called TACO, or Transfusion Associated Circulatory Overload.

Iron overload

Each transfused unit of red blood cells contains approximately 250 mg of elemental iron. Since elimination pathways for iron are limited, a person receiving numerous red blood cell transfusions can develop iron overload, which can in turn damage the liver, heart, kidneys, and pancreas. The threshold at which iron overload becomes significant is somewhat unclear, but is likely around 12-20 units of red blood cells transfused.

Transfusion-associated Graft-vs-Host Disease (GvHD)

GVHD refers to an immune attack by transfused cells against the recipient. This is a common complication of stem cell transplantation, but an exceedingly rare complication of blood transfusion. It occurs only in severely immunosuppressed patients, primarily those with congenital immune deficiencies or hematologic malignancies who are receiving intensive chemotherapy. When GVHD occurs in association with blood transfusion, it is almost uniformly fatal.^[4] Transfusion-associated GVHD can be prevented by irradiating the blood products prior to transfusion.

Transfusion-associated Microchimerism (TA-MC)

Transfusion-associated microchimerism is the stable persistence of donor's genetically distinct cells (usually <5%) in a recipient's circulation following fresh blood transfusion, especially in the setting of trauma.^[5] As a result of the current advancement in polymerase chain reaction techniques, TA-MC has been demonstrated among patients with trauma following blood transfusion, pregnancy and organ or stem cell transplantation. Several studies have implicated other forms of microchimerism, including fetomaternal microchimerism, with acute and chronic illnesses such as congenital heart block in a patient with neonatal lupus erythematosus^[6] and systemic sclerosis.^[7]

Genetic factors such as the TNF (-308A) single nucleotide polymorphisms (SNP) have been implicated in the development of TA-MC. The risk of developing TA-MC is largely dependent on the clinical setting, i.e., it is rare in situations which do not involve massive trauma. ^[8] Although leukoreduction removes > 99.9% of donor's white blood cells, it has not been proven to prevent the development of TA-MC.^[9]

Treatment of Transfusion Reactions

The most important step in treating a presumed transfusion reaction is to stop the transfusion immediately (saving the remaining blood and IV tubing for testing) and to provide supportive care to the patient. More specific treatments depend on the nature and presumed cause of the transfusion reaction. Most hospitals and medical centers have transfusion reaction protocols, which specify testing of the blood product and patient for hemolysis, bacterial contamination, etc.

The following table shows different types of transfusion reactions along with their treatment,


Transfusion Reaction	Time of onset	Fever	Rigors	Rash	Blood Pressure	Respiratory Distress	Additional Features	Labs	Treatment	Prevention
Febrile Non-hemolytic Transfusion Reaction	1/2 to 1 hour	+	+	-	No Effect	+/-	can occur in first few hours fever rise of 1-2	No labs usually required	Slow or Stop the transfusion Give Acetaminophen for fever	Leukoreduction
Bacterial Infection	Rapid onset	++	+	+/-	Hypotension is common occasionally hypertension	+/-	fever > 2 tachycardia	CBC Urine complete examination blood and urine culture transfusion set culture clotting profile	Stop the transfusion Check identity on blood unit look for clerical errors Supportive management(O2 inhalation,normal saline) broad spectrum antibiotics for bacterial infections inform blood bank	Extensive screening of blood decrease storage time leukodepletion bactericidal treatment
Acute Hemolytic Reaction	Rapid onet	+	+	+/-	Hypotension	+/-	Chest pain apprehension flank pain dark urine oozing from venipuncture site ( DIC)	CBC Urine complete examination ABO compatibility Serum haptoglobin Serum LDL Serum bilirubin clotting profile coomb's test	Stop the transfusion immediately look for clerical errors alert blood bank maintain IV access supportive management to prevent renal failure-give low dose dopamine,normal saline,mannitol for diuresis Treat DIC(if happens)	Avoid clerical errors proper storage record repeat type and screen before transfusion proper blood storage conditions
Anaphylactic Reaction	Rapid onset	-	-	-	Hypotension	+	Wheezing stridor cyanosis soft tissue edema	CBC spO2 monitoring type and screen	Stop the transfusion immediately S/C epinephrine IV epinephrine(in case of severe hypotension)	Avoid clerical errors proper storage record repeat type and screen before transfusion proper blood storage conditions
Transfusion-related acute lung injury (TRALI)	within 6 hours	+/-	+/-	-	Hypotension	++	cough pink frothy sputum	ABGs CBC spO2 monitoring CXR-pulmonary infiltrates HLA typing(remove donor from the list)	Stop the transfusion immediately O2 inhalation ventilatory support supportive treatment Diuretics for volume overload inform the blood bank consult hematologist	donor whose blood cause TRALI must be put on non-donor list
Transfusion-associated circulatory overload (TACO)	usually over hours	-	-	-	Hypertension	+++	dyspnea orthopnea cough headache tachycardia decrease spO2 increase JVP increase CVP	spO2 monitoring CXR serum BNP ABGs	Stop transfusion Supportive therapy O2 supplementation ventilatory support diuretics exchange transfusion(if transfusion is unavoidable) controlled phelbotomy	slow rate of transfusion avoid unnecessary transfusion cardiac evluation

Transfusion-related acute lung injury (TRALI) can be differentiated from Transfusion associated circulatory overload (TACO) as followed,


Parameters	Transfusion-related acute lung injury (TRALI)	Transfusion-associated circulatory overload (TACO)
Fever	+/-	-
Blood pressure	hypotension	hypertension
Respiratory Distress	+	+
JVP	non-distended	distended
Respiratory auscultation	Rales	Rales + S3 heart sounds may be present
CXR	bilateral pulmonary infiltrates	bilateral pulmonary infiltrates
Fluid balance	neutral	positive
Diuretics	responsive only when there is fluid overload	Improvement with diuretics
Ejection fraction	normal	decrease
BNP	<250 pg/mL	>1200 pg/mL
PCWP	<18 mm Hg	>18 mm Hg
WBC	unchanged	transient decrease

External links

ICD-10 Chapter T: World Health Organisation classification - Complications following infusion, transfusion and therapeutic injection

References

↑ Blajchman, Morris A; Goldman, Mindy (2001). "Bacterial contamination of platelet concentrates: Incidence, significance, and prevention". Seminars in Hematology. 38: 20–26. doi:10.1016/S0037-1963(01)90120-9. ISSN 0037-1963.
↑ Silliman CC, Paterson AJ, Dickey WO, Stroneck DF, Popovsky MA, Caldwell SA; et al. (1997). "The association of biologically active lipids with the development of transfusion-related acute lung injury: a retrospective study". Transfusion. 37 (7): 719–26. PMID 9225936.
↑ Gajic, Ognjen; Moore, S. Breanndan (2005). "Transfusion-Related Acute Lung Injury". Mayo Clinic Proceedings. 80 (6): 766–770. doi:10.4065/80.6.766. ISSN 0025-6196.
↑ Linden JV, Pisciotto PT (1992). "Transfusion-associated graft-versus-host disease and blood irradiation". Transfus Med Rev. 6 (2): 116–23. PMID 1591488.
↑ Kunadian V, Zorkun C, Gibson WJ, Nethala N, Harrigan C, Palmer AM; et al. (2009). "Transfusion associated microchimerism: a heretofore little-recognized complication following transfusion". J Thromb Thrombolysis. 27 (1): 57–67. doi:10.1007/s11239-008-0268-0. PMID 18766299.
↑ Adams KM, Nelson JL (2004). "Microchimerism: an investigative frontier in autoimmunity and transplantation". JAMA. 291 (9): 1127–31. doi:10.1001/jama.291.9.1127. PMID 14996783.
↑ Nelson JL, Furst DE, Maloney S, Gooley T, Evans PC, Smith A; et al. (1998). "Microchimerism and HLA-compatible relationships of pregnancy in scleroderma". Lancet. 351 (9102): 559–62. doi:10.1016/S0140-6736(97)08357-8. PMID 9492775.
↑ Sanchez R, Lee TH, Wen L, Montalvo L, Schechterly C, Colvin C; et al. (2012). "Absence of transfusion-associated microchimerism in pediatric and adult recipients of leukoreduced and gamma-irradiated blood components". Transfusion. 52 (5): 936–45. doi:10.1111/j.1537-2995.2011.03366.x. PMC 3257351. PMID 21981710.
↑ Utter GH, Nathens AB, Lee TH, Reed WF, Owings JT, Nester TA; et al. (2006). "Leukoreduction of blood transfusions does not diminish transfusion-associated microchimerism in trauma patients". Transfusion. 46 (11): 1863–9. doi:10.1111/j.1537-2995.2006.00991.x. PMID 17076839.

Template:WikiDoc Sources

[BlajchmanGoldman2001-1] Blajchman, Morris A; Goldman, Mindy (2001). "Bacterial contamination of platelet concentrates: Incidence, significance, and prevention". Seminars in Hematology. 38: 20–26. doi:10.1016/S0037-1963(01)90120-9. ISSN 0037-1963.

[pmid9225936-2] Silliman CC, Paterson AJ, Dickey WO, Stroneck DF, Popovsky MA, Caldwell SA; et al. (1997). "The association of biologically active lipids with the development of transfusion-related acute lung injury: a retrospective study". Transfusion. 37 (7): 719–26. PMID 9225936.

[GajicMoore2005-3] Gajic, Ognjen; Moore, S. Breanndan (2005). "Transfusion-Related Acute Lung Injury". Mayo Clinic Proceedings. 80 (6): 766–770. doi:10.4065/80.6.766. ISSN 0025-6196.

[pmid1591488-4] Linden JV, Pisciotto PT (1992). "Transfusion-associated graft-versus-host disease and blood irradiation". Transfus Med Rev. 6 (2): 116–23. PMID 1591488.

[pmid18766299-5] Kunadian V, Zorkun C, Gibson WJ, Nethala N, Harrigan C, Palmer AM; et al. (2009). "Transfusion associated microchimerism: a heretofore little-recognized complication following transfusion". J Thromb Thrombolysis. 27 (1): 57–67. doi:10.1007/s11239-008-0268-0. PMID 18766299.

[pmid14996783-6] Adams KM, Nelson JL (2004). "Microchimerism: an investigative frontier in autoimmunity and transplantation". JAMA. 291 (9): 1127–31. doi:10.1001/jama.291.9.1127. PMID 14996783.

[pmid9492775-7] Nelson JL, Furst DE, Maloney S, Gooley T, Evans PC, Smith A; et al. (1998). "Microchimerism and HLA-compatible relationships of pregnancy in scleroderma". Lancet. 351 (9102): 559–62. doi:10.1016/S0140-6736(97)08357-8. PMID 9492775.

[pmid21981710-8] Sanchez R, Lee TH, Wen L, Montalvo L, Schechterly C, Colvin C; et al. (2012). "Absence of transfusion-associated microchimerism in pediatric and adult recipients of leukoreduced and gamma-irradiated blood components". Transfusion. 52 (5): 936–45. doi:10.1111/j.1537-2995.2011.03366.x. PMC 3257351. PMID 21981710.

[pmid17076839-9] Utter GH, Nathens AB, Lee TH, Reed WF, Owings JT, Nester TA; et al. (2006). "Leukoreduction of blood transfusions does not diminish transfusion-associated microchimerism in trauma patients". Transfusion. 46 (11): 1863–9. doi:10.1111/j.1537-2995.2006.00991.x. PMID 17076839.

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@@ Line 11: / Line 11: @@
 This is the most common adverse reaction to a blood transfusion. Symptoms include [[fever]] and [[dyspnea]] 1 to 6 hours after receiving the transfusion. Such reactions are clinically benign, causing no lasting side effects or problems, but are unpleasant via a blood transfusion is estimated, as of 2006, at 1 per 2 million units transfused. [[Bacteria]]l infection is a much more common problem (see below).
 ===Bacterial Infection===
-Blood products can provide an excellent medium for [[bacteria]]l growth, and can become contaminated after collection while they are being stored. The risk is highest with [[platelet]] transfusion, since platelets must be stored near room temperature and cannot be refrigerated. The risk of severe bacterial infection and [[sepsis]] is estimated (as of 2001) at about 1 in 50,000 platelet transfusions, and 1 in 500,000 red blood cell transfusions.
+Blood products can provide an excellent medium for [[bacteria]]l growth, and can become contaminated after collection while they are being stored. The risk is highest with [[platelet]] transfusion, since platelets must be stored near room temperature and cannot be refrigerated. The risk of severe bacterial infection and [[sepsis]] is estimated (as of 2001) at about 1 in 50,000 platelet transfusions, and 1 in 500,000 red blood cell transfusions.<ref name="BlajchmanGoldman2001">{{cite journal|last1=Blajchman|first1=Morris A|last2=Goldman|first2=Mindy|title=Bacterial contamination of platelet concentrates: Incidence, significance, and prevention|journal=Seminars in Hematology|volume=38|year=2001|pages=20–26|issn=00371963|doi=10.1016/S0037-1963(01)90120-9}}</ref>
 ===Acute Hemolytic Reaction===
 This is a [[medical emergency]] resulting from rapid destruction ([[hemolysis]]) of the donor red blood cells by host [[antibody|antibodies]]. The most common cause is [[clerical error]] (i.e. the wrong unit of blood being given to the wrong patient). The symptoms are [[fever]] and chills, sometimes with [[back pain]] and pink or red urine ([[hemoglobinuria]]). The major complication is that [[hemoglobin]] released by the destruction of red blood cells can cause [[acute renal failure]].
@@ Line 17: / Line 17: @@
 An [[anaphylaxis|anaphylactic]] (or severe allergic) reaction can occur at a rate of 1 per 30,000-50,000 transfusions. These reactions are most common in people with [[selective IgA deficiency]] (although IgA deficiency is often [[asymptomatic]], and people may not know they have it until an anaphylactic reaction occurs). An anaphylactic reaction is a [[medical emergency]], requiring prompt treatment, and may be life-threatening.
 ===Transfusion-associated Acute Lung Injury (TRALI)
-[[TRALI]] is a syndrome of acute [[respiratory distress]], often associated with [[fever]], non-cardiogenic [[pulmonary edema]], and [[hypotension]]. It may occur as often as 1 in 2000 transfusions. Symptoms can range from mild to life-threatening, but most patients recover fully within 96 hours, and the mortality rate from this condition is less than 10%.
+[[TRALI]] is a syndrome of acute [[respiratory distress]], often associated with [[fever]], non-cardiogenic [[pulmonary edema]], and [[hypotension]]. It may occur as often as 1 in 2000 transfusions.<ref name="pmid9225936">{{cite journal| author=Silliman CC, Paterson AJ, Dickey WO, Stroneck DF, Popovsky MA, Caldwell SA et al.| title=The association of biologically active lipids with the development of transfusion-related acute lung injury: a retrospective study. | journal=Transfusion | year= 1997 | volume= 37 | issue= 7 | pages= 719-26 | pmid=9225936 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=9225936  }}</ref> Symptoms can range from mild to life-threatening, but most patients recover fully within 96 hours, and the mortality rate from this condition is less than 10%.<ref name="GajicMoore2005">{{cite journal|last1=Gajic|first1=Ognjen|last2=Moore|first2=S. Breanndan|title=Transfusion-Related Acute Lung Injury|journal=Mayo Clinic Proceedings|volume=80|issue=6|year=2005|pages=766–770|issn=00256196|doi=10.4065/80.6.766}}</ref>
 ===Volume Overload===
 Patients with impaired cardiac function (eg [[congestive heart failure]]) can become volume-overloaded as a result of blood transfusion, leading to [[edema]], [[dyspnea]] (shortness of breath), and [[orthopnea]] (shortness of breath while lying flat).  This is sometimes called TACO, or Transfusion Associated Circulatory Overload.
@@ Line 23: / Line 23: @@
 Each transfused unit of [[red blood cell]]s contains approximately 250 mg of elemental [[iron]]. Since elimination pathways for iron are limited, a person receiving numerous red blood cell transfusions can develop [[iron overload]], which can in turn damage the [[liver]], [[heart]], [[kidney]]s, and [[pancreas]]. The threshold at which iron overload becomes significant is somewhat unclear, but is likely around 12-20 units of red blood cells transfused.
 ===Transfusion-associated Graft-vs-Host Disease (GvHD)===
-[[graft-versus-host disease|GVHD]] refers to an immune attack by transfused cells against the recipient. This is a common complication of [[stem cell transplant]]ation, but an exceedingly rare complication of blood transfusion. It occurs only in severely immunosuppressed patients, primarily those with [[congenital]] immune deficiencies or [[hematological malignancy|hematologic malignancies]] who are receiving intensive [[chemotherapy]]. When GVHD occurs in association with blood transfusion, it is almost uniformly fatal. Transfusion-associated GVHD can be prevented by [[irradiation|irradiating]] the blood products prior to transfusion.
+[[graft-versus-host disease|GVHD]] refers to an immune attack by transfused cells against the recipient. This is a common complication of [[stem cell transplant]]ation, but an exceedingly rare complication of blood transfusion. It occurs only in severely immunosuppressed patients, primarily those with [[congenital]] immune deficiencies or [[hematological malignancy|hematologic malignancies]] who are receiving intensive [[chemotherapy]]. When GVHD occurs in association with blood transfusion, it is almost uniformly fatal.<ref name="pmid1591488">{{cite journal| author=Linden JV, Pisciotto PT| title=Transfusion-associated graft-versus-host disease and blood irradiation. | journal=Transfus Med Rev | year= 1992 | volume= 6 | issue= 2 | pages= 116-23 | pmid=1591488 | doi= | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=1591488  }}</ref> Transfusion-associated GVHD can be prevented by [[irradiation|irradiating]] the blood products prior to transfusion.
 ===Transfusion-associated Microchimerism (TA-MC)===
-Transfusion-associated [[Chimera (genetics)#Microchimerism|microchimerism]] is the stable persistence of donor's genetically distinct cells (usually <5%) in a recipient's circulation following fresh [[blood transfusion]], especially in the setting of [[Physical trauma|trauma]]. As a result of the current advancement in [[polymerase chain reaction]] techniques, TA-MC has been demonstrated among patients with [[Physical trauma|trauma]] following [[blood transfusion]], [[pregnancy]] and [[transplant|organ or stem cell transplantation]].  Several studies have implicated other forms of [[Chimera (genetics)#Microchimerism|microchimerism]], including [[Chimera (genetics)|fetomaternal microchimerism]], with acute and chronic illnesses such as [[congenital heart block]] in a patient with [[neonatal lupus erythematosus]] and [[systemic sclerosis]].
+Transfusion-associated [[Chimera (genetics)#Microchimerism|microchimerism]] is the stable persistence of donor's genetically distinct cells (usually <5%) in a recipient's circulation following fresh [[blood transfusion]], especially in the setting of [[Physical trauma|trauma]].<ref name="pmid18766299">{{cite journal| author=Kunadian V, Zorkun C, Gibson WJ, Nethala N, Harrigan C, Palmer AM et al.| title=Transfusion associated microchimerism: a heretofore little-recognized complication following transfusion. | journal=J Thromb Thrombolysis | year= 2009 | volume= 27 | issue= 1 | pages= 57-67 | pmid=18766299 | doi=10.1007/s11239-008-0268-0 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=18766299  }}</ref> As a result of the current advancement in [[polymerase chain reaction]] techniques, TA-MC has been demonstrated among patients with [[Physical trauma|trauma]] following [[blood transfusion]], [[pregnancy]] and [[transplant|organ or stem cell transplantation]].  Several studies have implicated other forms of [[Chimera (genetics)#Microchimerism|microchimerism]], including [[Chimera (genetics)|fetomaternal microchimerism]], with acute and chronic illnesses such as [[congenital heart block]] in a patient with [[neonatal lupus erythematosus]]<ref name="pmid14996783">{{cite journal| author=Adams KM, Nelson JL| title=Microchimerism: an investigative frontier in autoimmunity and transplantation. | journal=JAMA | year= 2004 | volume= 291 | issue= 9 | pages= 1127-31 | pmid=14996783 | doi=10.1001/jama.291.9.1127 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=14996783  }}</ref> and [[systemic sclerosis]].<ref name="pmid9492775">{{cite journal| author=Nelson JL, Furst DE, Maloney S, Gooley T, Evans PC, Smith A et al.| title=Microchimerism and HLA-compatible relationships of pregnancy in scleroderma. | journal=Lancet | year= 1998 | volume= 351 | issue= 9102 | pages= 559-62 | pmid=9492775 | doi=10.1016/S0140-6736(97)08357-8 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=9492775  }}</ref>
-Genetic factors such as the [[Tumor necrosis factors|TNF]] (-308A) [[single nucleotide polymorphism]]s (SNP) have been implicated in the development of TA-MC.  The risk of developing TA-MC is largely dependent on the clinical setting, i.e., it is rare in situations which do not involve massive trauma.  Although [[leukoreduction]] removes > 99.9% of donor's [[white blood cell]]s, it has not been proven to prevent the development of TA-MC.
+Genetic factors such as the [[Tumor necrosis factors|TNF]] (-308A) [[single nucleotide polymorphism]]s (SNP) have been implicated in the development of TA-MC.  The risk of developing TA-MC is largely dependent on the clinical setting, i.e., it is rare in situations which do not involve massive trauma. <ref name="pmid21981710">{{cite journal| author=Sanchez R, Lee TH, Wen L, Montalvo L, Schechterly C, Colvin C et al.| title=Absence of transfusion-associated microchimerism in pediatric and adult recipients of leukoreduced and gamma-irradiated blood components. | journal=Transfusion | year= 2012 | volume= 52 | issue= 5 | pages= 936-45 | pmid=21981710 | doi=10.1111/j.1537-2995.2011.03366.x | pmc=3257351 | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=21981710  }}</ref> Although [[leukoreduction]] removes > 99.9% of donor's [[white blood cell]]s, it has not been proven to prevent the development of TA-MC.<ref name="pmid17076839">{{cite journal| author=Utter GH, Nathens AB, Lee TH, Reed WF, Owings JT, Nester TA et al.| title=Leukoreduction of blood transfusions does not diminish transfusion-associated microchimerism in trauma patients. | journal=Transfusion | year= 2006 | volume= 46 | issue= 11 | pages= 1863-9 | pmid=17076839 | doi=10.1111/j.1537-2995.2006.00991.x | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=17076839  }}</ref>
 ==Treatment of Transfusion Reactions==

v t e Transfusion medicine
General concepts	Apheresis (plasmapheresis, plateletpheresis, leukapheresis) Blood transfusion Coombs test (direct and indirect) Cross-matching Exchange transfusion International Society of Blood Transfusion Intraoperative blood salvage ISBT 128 Transfusion reactions
Blood group systems / blood types	ABO Chido-Rodgers Colton Cromer Diego Dombrock Duffy Er FORS Gerbich GIL GLOB Hh Ii Indian JR JMH Kell (Xk) Kidd Knops Lan Lewis Lutheran LW MNS OK P Raph Rh and RHAG Scianna T-Tn Vel Xg Yt Other
Blood products / blood donation	Whole blood Platelets Red blood cells Plasma / Fresh frozen plasma / PF24 (Cryoprecipitate + Cryosupernatant) Blood substitutes