38.  Screening for D (Rh) Incompatibility



RECOMMENDATION



D (formerly Rh) blood typing and antibody screening is recommended for all pregnant women at

their first prenatal visit. Repeat antibody screening at 24-28 weeks' gestation is recommended

for unsensitized D-negative women (see Clinical Intervention).



Burden of Suffering



D incompatibility exists when a D-negative woman is pregnant with a D-positive fetus, which

occurs in up to 9-10% of pregnancies, depending on race.1,2 If no preventive measures are

taken, 0.7-1.8% of these women will become isoimmunized antenatally, developing D antibody

through exposure to fetal blood; 8-17% will become isoimmunized at delivery, 3-6% after

spontaneous or elective abortion, and 2-5% after amniocentesis.1-3 In subsequent D-positive

pregnancies of isoimmunized women, maternal D antibody will cross the placenta into the fetal

circulation and hemolyze red cells.1 Without treatment, 25-30% of these offspring will have

some degree of hemolytic anemia and hyperbilirubinemia, and another 20-25% will be hydropic

and often will die either in utero or in the neonatal period.4



Since the introduction of routine postpartum prophylaxis in the 1960s, the crude incidence of D

isoimmunization in the U.S. and Canada has fallen from 9.1-10.3 cases to 1.3 cases/1,000 total

births.5-9 Hemolytic disease of the fetus or newborn due to D isoimmunization (also called

erythroblastosis fetalis) now accounts for only 4-5 deaths/100,000 total births,6,10 although

this may be an underestimate as early intrauterine deaths are not always reported.10 Even before

the introduction of prophylaxis, however, a decline in fetal and neonatal mortality from D

hemolytic disease was occurring due to declines in both incidence and case fatality rates. It has

been estimated that 30-40% of the recent decline in disease incidence is attributable to smaller

family size, since the incidence of D hemolytic disease increases with increasing birth order.11

Since the 1940s, the case fatality rate has fallen from about 50% to 2-6%.8,9 This decline can

be attributed in part to the trend toward smaller families, since the first affected infant in a

family generally has less severe disease.1,5,9 The decline has also been associated with the

introduction of interventions such as amniotic fluid spectrophotometry, exchange transfusion,

amniocentesis, intrauterine fetal transfusion, and improved care of both the mother and the

premature erythroblastotic infant.1,9



Accuracy of Screening Tests



Hemagglutination is the established reference standard for the determination of D blood type.12

The indirect antiglobulin (Coombs) test (IAGT) is the reference standard for detecting anti-D

antibody in women who are sensitized to D-positive blood.12 The IAGT will also detect other

maternal antibodies that may cause hemolytic disease.13



Effectiveness of Early Detection



The early detection of D-negative blood type in the pregnant woman is of substantial benefit if the

patient is not yet isoimmunized and the father is not known to be D-negative. Administration of D

immunoglobulin (or Rho(D) immune globulin (human)) to an unsensitized D-negative woman

after delivery of a D-positive fetus will prevent maternal isoimmunization and consequent

hemolytic disease in subsequent D-positive offspring. The efficacy of D immunoglobulin

prophylaxis was convincingly demonstrated in a series of controlled clinical trials in the early

1960s.14-16 Despite a variety of minor flaws in study design, these trials showed that

isoimmunization did not occur in any of the women who received a full dose of D immunoglobulin

postpartum and who were unsensitized when it was administered. These findings led to the

introduction of routine postpartum prophylaxis following licensure of D immunoglobulin in 1968.

Time series studies have since shown a dramatic decline in the incidence of D isoimmunization,

from 13-14% in the mid-1960s to 1-2% in the mid-1970s,7,17 although as described above,

at least some of this decline is probably attributable to smaller family size.



The most frequent cause of apparent failure of postpartum prophylaxis is antenatal

isoimmunization, which happens in 0.7-1.8% of pregnant women at risk.1,9,18 Although sample

selection and other design features were not optimal, nonrandomized controlled trials have shown

that the administration of D immunoglobulin at 28 weeks' gestation, when combined with

postpartum administration, reduces the incidence of isoimmunization to Û0.2% of women at

risk.19-21



Since D isoimmunization during pregnancy is caused by transplacental hemorrhage, the risk of

isoimmunization increases whenever such hemorrhage is likely to occur, including after abortion,

amniocentesis, chorionic villus sampling (CVS), cordocentesis, ectopic pregnancy, fetal

manipulation (e.g., external version procedures) or surgery, antepartum hemorrhage,

antepartum fetal death, and stillbirth.1,22-24 Studies documenting the effectiveness of D

immunoglobulin prophylaxis are available for only a few of these indications, however. In a

nonrandomized trial of D immunoglobulin after amniocentesis, control D-negative women

delivering D-positive infants were more likely to become isoimmunized than were those receiving

D immunoglobulin (5.2% vs. 0%), although because of small numbers this difference was not

statistically significant.25 Case series describing D immunoglobulin administration after

amniocentesis have demonstrated isoimmunization rates as low as 0-0.5%.26-28 In a case series

of D immunoglobulin after induced abortion, isoimmunization occurred in 0.4%,29 compared to

2.6% among a series of patients, described by the same authors, who did not receive D

immunoglobulin.30 The preliminary results from a randomized controlled trial of D

immunoglobulin after CVS showed that among D-negative women delivering D-positive infants,

similar rates of isoimmunization were seen in both intervention (2.3%) and control (1.1%)

groups; insufficient details are provided to ensure baseline comparability between the two groups,

however.31 D-negative women who received D immunoglobulin experienced twice as many

unintended fetal losses as did controls (6.9% vs. 3.8%), but this difference was not statistically

significant. Results of the completed trial confirm the preliminary findings (S. Smidt-Jensen,

Rigshospitalet, Copenhagen, Denmark; personal communication, January  1995), but have not yet

been published. No studies evaluating the use of D immunoglobulin after other obstetric

procedures or after obstetric complications werefound.



The standard postpartum dose of D immunoglobulin (300 mg) contains sufficient D antibodies to

prevent sensitization to at least 15 mL of D-positive fetal red blood cells (RBCs), or

approximately 30 mL of fetal blood;32 a "minidose" (50 mg) prevents sensitization to 2.5 mL of

D-positive fetal RBCs. For women with transplacental hemorrhages >30 mL of fetal blood, the risk

of D isoimmunization developing after the full postpartum D immunoglobulin dose is 30-

35%.3,33 The incidence of fetal-maternal hemorrhage >30 mL is 0.1-0.7% for all D-negative

pregnancies,1,33,34 but it is 1.7-2.5% after complicated vaginal and cesarean deliveries,34,35

and 4.5% after stillbirth.1 There are several available methods for detecting excess fetomaternal

hemorrhage. Acid elution (Kleihauer-Betke) is both sensitive and specific when done

correctly,1,36 but it is subject to substantial laboratory and technologist error.36 Flow

cytometry is also highly sensitive and specific, but it is technically difficult to perform.36 The

erythrocyte rosette test is simple to perform and highly sensitive (99-100%) for the presence

of Ú15 mL of D-positive fetal RBCs,1,36 but its specificity is low36,37 so positive results must

be confirmed by more specific tests such as acid elution and flow cytometry.1,36



In clinical practice, combined antenatal and postnatal prophylaxis will prevent isoimmunization

in 96% of women at risk.21 The remaining cases are due to failure to give D immunoglobulin

when indicated, isoimmunization that occurred before the widespread availability of D

immunoglobulin, administration of an insufficient dose, or treatment failure (i.e.,

isoimmunization occurring before 28 weeks or transplacental hemorrhage too large or too late in

pregnancy to be prevented by the standard antepartum dose).3,38,39 Human error causes 22-

50% of these cases.6,21,39 While clinicians almost always administer D immunoglobulin

postpartum or after induced abortion, administration rates have been documented to be lower for

other obstetric procedures and complications: 81-88% after spontaneous abortion, 36-60%

after ectopic pregnancy, 31% after antepartum hemorrhage, and 14% after

amniocentesis.2,40,41



D immunoglobulin has few adverse effects.1,42 Some fetuses will become weakly direct

antiglobulin-positive following antenatal administration, but resulting anemia and

hyperbilirubinemia in the newborn are very rare.19 All plasma for D immunoglobulin production

is screened for infectious diseases as required by the Food and Drug Administration; no cases of

human immunodeficiency virus (HIV) infection from D immunoglobulin have been reported.43

The evidence is therefore compelling that early detection and prophylaxis of the unsensitized

D-negative woman is both safe and effective in preventing isoimmunization and thus in preventing

D hemolytic disease.



Early detection is also beneficial for D-negative women who are already isoimmunized and are

carrying D-positive offspring, because early intervention may improve clinical outcome.

Decisions to intervene depend on the validity of screening tests in predicting the degree of fetal

anemia. Obstetric history, maternal antibody titers, and ultrasound are currently used to

determine the need for more invasive tests during isoimmunized pregnancies, but in the absence of

hydrops none of these reliably distinguishes mild from severe hemolytic disease.1,4,22,44

Immunologic tests on maternal serum show promise in predicting disease severity.1,45,46 In the

third trimester, serial amniotic fluid spectrophotometry has been found to correctly predict

disease severity (i.e., cord hemoglobin and need for neonatal therapy) in 94-99% of cases.47,48

In the second trimester, however, this test has insufficient sensitivity or specificity for

predicting the need for intervention.4,49,50 Determination of fetal hemoglobin and D blood type

by ultrasound-guided cordocentesis, which can be performed in the second trimester, quantifies

the degree of anemia, can be followed by transfusion if indicated, and allows referral of those with

D-negative babies to routine care.1,4 Case series, however, have demonstrated complication rates

of 2-7% and procedure-related fetal mortality rates of 0.5-1%.23,51,52 DNA amplification in

amniotic cells and chorionic villus samples appears to be effective in determining fetal D blood

type early in pregnancy, without the risk associated with invading the fetomaternal circulation.53



In the presence of severe fetal anemia, early intervention appears to offer substantial

improvement in clinical outcome. Current perinatal survival after ultrasound-guided

intravascular transfusion at experienced centers is 62-86% for hydropic fetuses and >90% for

those without hydrops.4,54,55 Once pulmonary maturity is established, the fetus can be delivered

early and exchange transfusion performed with only 1% mortality risk.56



Recommendations of Other Groups



The American College of Obstetricians and Gynecologists (ACOG)22 and the U.S. Public Health

Service Expert Panel on the Content of Prenatal Care57 recommend D blood typing and antibody

screening at the first prenatal visit and repeat D antibody screening at 24-28 weeks of pregnancy

for D-negative women. Both groups recommend offering D immunoglobulin to all unsensitized

D-negative women at 28 weeks of gestation, and to those at increased risk of sensitization because

of delivery of a D-positive infant, antepartum hemorrhage, spontaneous or induced abortion,

amniocentesis, external version procedures, or ectopic pregnancy, within 72 hours of the

event.22,57 ACOG also recommends D immunoglobulin administration to unsensitized D-negative

women who have CVS, cordocentesis, antepartum fetal death, fetal surgery, or transfusion of

D-positive blood products.22 ACOG recommends measuring fetal blood cell levels in the mother

when antepartum placental hemorrhage occurs.22 The Canadian Task Force on the Periodic Health

Examination recommends D blood typing and antibody screening at the first prenatal visit, before

elective procedures such as amniocentesis and therapeutic abortion in which there is the

possibility of fetal bleed, between 24 and 28 weeks if the mother is D-negative, and within 72

hours of delivery. They recommend administration of D immunoglobulin to unsensitized women at

28 weeks and postpartum, and after amniocentesis or induced abortion.58



Discussion



Although the burden of suffering from this disease is now low, the incidence was at least

10/1,000 live births before the introduction of preventive measures in the 1960s.9 There is

excellent evidence for the efficacy and effectiveness of blood typing, anti-D antibody screening,

and postpartum D immunoglobulin prophylaxis. Although antepartum prophylaxis offers some

additional benefit, some critics argue that the total impact of antepartum prophylaxis on the

incidence of D disease is relatively small, making it approximately 16 times less cost-effective

than a program consisting only of postpartum treatment.2,59,60 Other studies support the

cost-effectiveness of antepartum prophylaxis.21,61 The cost-effectiveness of D immunoglobulin

after obstetric procedures and complications is unknown.



CLINICAL INTERVENTION



D blood typing and antibody testing is recommended for all pregnant women at their first prenatal

visit, including visits for elective abortion ("A" recommendation). For purposes of blood typing

and prophylaxis, Du- and D-negative blood types should be considered equivalent.22 Unless the

father is known to be D-negative, a repeat D antibody test is recommended for all unsensitized

D-negative women at 24-28 weeks' gestation, followed by the administration of a full (300 mg)

dose of D immunoglobulin if they are antibody-negative ("B" recommendation). If a D- (or Du-)

positive infant is delivered, the dose should be repeated postpartum, preferably within 72 hours

after delivery ("A" recommendation). Unless the father is known to be D-negative, a full dose of

D immunoglobulin is recommended for all unsensitized D-negative women after elective abortion

(50 mg before 13 weeks) and amniocentesis ("B" recommendation). There is currently

insufficient evidence to recommend for or against the routine administration of D immunoglobulin

after other obstetric procedures or complications such as chorionic villus sampling, ectopic

pregnancy termination, cordocentesis, fetal surgery or manipulation (including external

version), antepartum placental hemorrhage, antepartum fetal death, and stillbirth ("C"

recommendation).



The draft update of this chapter was prepared for the U.S. Preventive Services Task Force by

Carolyn DiGuiseppi, MD, MPH.



REFERENCES



	1. Mollison PL, Engelfriet CP, Contreras M. Blood transfusion in clinical medicine. 8th ed.

Oxford: Blackwell Scientific Publications, 1987.



	2. Huchcroft S, Gunton P, Bowen T. Compliance with postpartum Rh isoimmunization

prophylaxis in Alberta. Can Med Assoc J 1985;133:871-875.



	3. Bowman JM. Controversies in Rh prophylaxis. Am J Obstet Gynecol 1985;151:289-

294.



	4. Tannirandorn Y, Rodeck CH. New approaches in the treatment of haemolytic disease of the

fetus. Baillieres Clin Haematol 1990;3:289-320.



	5. Centers for Disease Control. Rh hemolytic disease_Connecticut, United States, 1970-

1979. MMWR 1981;30: 13-15.



	6. Baskett TF, Parsons ML. Prevention of Rh(D) alloimmunization: a cost-benefit analysis.

Can Med Assoc J 1990; 142:337-339.



	7. Bowman JM, Pollock J. Rh immunization in Manitoba: progress in prevention and

management. Can Med Assoc J 1983;129:343-345.



	8. Wysowki DK, Flynt JW, Goldberg MF, et al. Rh hemolytic disease: epidemiologic

surveillance in the United States, 1968 to 1975. JAMA 1979;242:1376-1379.



	9. Bowman JM, Chown B, Lewis M. Rh isoimmunization, Manitoba, 1963-75. Can Med

Assoc J 1977;116: 282-284.



	10. Clarke CA. Preventing rhesus babies: the Liverpool research and follow up. Arch Dis

Child 1989;64: 1734-1740.



	11. Adams MM, Marks JS, Gustafson J, et al. Rh hemolytic disease of the newborn: using

incidence observations to evaluate the use of Rh immune globulin. Am J Public Health

1981;71:1031-1035.



	12. Walker RH, ed. Technical manual. 10th ed. Arlington, VA: American Association of Blood

Banks, 1990.



	13. American College of Obstetricians and Gynecologists. Management of isoimmunization in

pregnancy. Technical Bulletin no. 148. Washington, DC: American College of Obstetricians and

Gynecologists, 1990.



	14. Chown B, Duff AM, James J, et al. Prevention of primary Rh immunization: first

report of the Western Canadian Trial, 1966-1968. Can Med Assoc J 1969;100:1021-1024.



	15. Pollack W, Gorman JG, Freda VJ, et al. Results of clinical trials of RhoGAM in women.

Transfusion 1968;8:151-153.



	16. Prevention of Rh-haemolytic disease: results of the clinical trial. A combined study

from centres in England and Baltimore. BMJ 1966;2:907-914.



	17. Freda VJ, Gorman JG, Pollack W. Prevention of Rh hemolytic disease: ten years'

clinical experience with Rh immune globulin. N Engl J Med 1975;292:1014-1016.



	18. Davey MG, Zipursky A. McMaster conference on prevention of Rh immunization. Vox

Sang 1979;36: 50-64.



	19. Bowman JM, Chown B, Lewis M. Rh isoimmunization during pregnancy: antenatal

prophylaxis. Can Med Assoc J 1978;118:623-627.



	20. Tovey LA, Stevenson BJ, Townley A. The Yorkshire antenatal anti-D immunoglobulin

trial in primigravidae. Lancet 1983;2:244-246.



	21. Trolle B. Prenatal Rh-immune prophylaxis with 300 mg immune globulin anti-D in

the 28th week of pregnancy. Acta Obstet Gynecol Scand 1989;68:45-47.



	22. American College of Obstetricians and Gynecologists. Prevention of D isoimmunization.

Technical Bulletin no. 147. Washington, DC: American College of Obstetricians and Gynecologists,

1990.



	23. Daffos F, Capella-Pavlovsky M, Forestier F. Fetal blood sampling during pregnancy

with use of a needle guided by ultrasound: a study of 606 consecutive cases. Am J Obstet Gynecol

1985;153:655-660.



	24. Blakemore KJ, Baumgarten A, Schoenfeld-Dimaio M, et al. Rise in maternal serum

alpha-fetoprotein concentration after chorionic villus sampling and the possibility of

isoimmunization. Am J Obstet Gynecol 1986;155:988-993.



	25. Medical Research Council. An assessment of the hazards of amniocentesis. Br J Obstet

Gynaecol 1978; 85(Suppl 2):1-42.



	26. Crane JP, Rohland B, Larson D. Rh immune globulin after genetic amniocentesis:

impact on pregnancy outcome. Am J Med Genet 1984;19:763-768.



	27. Brandenburg H, Jahoda MGJ, Pijpers L, et al. Rhesus sensitization after midtrimester

genetic amniocentesis. Am J Med Genet 1989;32:225-226.



	28. Tabsh KMA, Lebherz TB, Crandall BF. Risks of prophylactic anti-D immunoglobulin

after second-trimester amniocentesis. Am J Obstet Gynecol 1984;149:225-226.



	29. Simonovits I. Efficiency of anti-D IgG prevention after induced abortion. Vox Sang

1974;26:361-367.



	30. Simonovits I, Timar I, Bajtai G. Rate of Rh immunization after induced abortion. Vox

Sang 1980;38: 161-164.



	31. Smidt-Jensen S, Philip J. Comparison of transabdominal and transcervical CVS and

amniocentesis: sampling success and risk. Prenat Diagn 1991;11:529-537.



	32. Pollack W, Ascari WQ, Kochesky RJ, et al. Studies on Rh prophylaxis: 1. Relationship

between doses of anti-Rh and size of antigenic stimulus. Transfusion 1971;11:333-339.



	33. Bowman JM. Historical overview: hemolytic disease of the fetus and newborn. In:

Kennedy MS, Wilson SM, Kelton JG, eds. Perinatal transfusion medicine. Arlington, VA: American

Association of Blood Banks, 1990.



	34. Ness PM, Baldwin ML, Niebyl JR. Clinical high-risk designation does not predict

excess fetal-maternal hemorrhage. Am J Obstet Gynecol 1987;156:154-158.



	35. Feldman N, Skoll A, Sibai B. The incidence of significant fetomaternal hemorrhage in

patients undergoing cesarean section. Am J Obstet Gynecol 1990;163:855-858.



	36. Bayliss KM, Keuck BD, Johnson ST, et al. Detecting fetomaternal hemorrhage: a

comparison of five methods. Transfusion 1991;31:303-307.



	37. Stedman CM, Baudin JC, White CA, et al. Use of the erythrocyte rosette test to screen

for excessive fetomaternal hemorrhage in Rh-negative women. Am J Obstet Gynecol

1986;154:1363-1369.



	38. Bowman JM, Pollock JM. Failures of intravenous Rh immune globulin prophylaxis: an

analysis of the reasons for such failures. Transfus Med Rev 1987;1:101-112.



	39. Tovey LAD. Haemolytic disease of the newborn_the changing scene. Br J Obstet

Gynaecol 1986;93: 960-966.



	40. Grimes DA, Ross WC, Hatcher RA. Rh immunoglobulin utilization after spontaneous and

induced abortion. Obstet Gynecol 1977;50:261-263.



	41. Grimes DA, Geary FH Jr, Hatcher RA. Rh immunoglobulin utilization after ectopic

pregnancy. Am J Obstet Gynecol 1981;140:246-249.



	42. Thornton JG, Page C, Foote G, et al. Efficacy and long term effects of antenatal

prophylaxis with anti-D immunoglobulin. BMJ 1989;298:1671-1673.



	43. Centers for Disease Control. Lack of transmission of human immunodeficiency virus

through Rho(D) immune globulin (human). MMWR 1987;36:728-729.



	44. Nicolaides KH, Fontanarosa M, Gabbe SG, et al. Failure of ultrasonographic parameters

to predict the severity of fetal anemia in rhesus isoimmunization. Am J Obstet Gynecol

1988;158:920-926.



	45. Nance SJ, Nelson JM, Horenstein J, et al. Monocyte monolayer assay: an efficient

noninvasive technique for predicting the severity of hemolytic disease of the newborn. Am J Clin

Pathol 1989;92:89-92.



	46. Zupanska B, Brojer E, Richards Y, et al. Serological and immunological characteristics

of maternal anti-Rh(D) antibodies in predicting the severity of haemolytic disease of the newborn.

Vox Sang 1989;56: 247-253.



	47. Bowman JM. Rh erythroblastosis fetalis 1975. Semin Hematol 1975;12:189-207.



	48. Liley AW. Errors in the assessment of hemolytic disease from amniotic fluid. Am J

Obstet Gynecol 1963;86:485-494.



	49. Nicolaides KH, Rodeck CH, Mibashan RS, et al. Have Liley charts outlived their

usefulness? Am J Obstet Gynecol 1986;155:90-94.



	50. Ananth U, Queenan JT. Does midtrimester delta OD450 of amniotic fluid reflect

severity of Rh disease? Am J Obstet Gynecol 1989;161:47-49.



	51. Daffos F. Access to the other patient. Semin Perinatol 1989;13:252-259.



	52. Pielet BW, Socol ML, MacGregor SN, et al. Cordocentesis: an appraisal of risks. Am J

Obstet Gynecol 1988;159: 1497-1500.



	53. Bennett PR, Le Van Kim C, Colin Y, et al. Prenatal determination of fetal RhD type by

DNA amplification. N Engl J Med 1993;329:607-610.



	54. Poissonnier MH, Brossard Y, Demedeiros N, et al. Two hundred intrauterine exchange

transfusions in severe blood incompatibilities. Am J Obstet Gynecol 1989;161:709-713.



	55. Harman CR, Bowman JM, Manning FA, et al. Intrauterine transfusion_intraperitoneal

versus intravascular approach: a case-control comparison. Am J Obstet Gynecol

1990;162:1053-1059.



	56. Watts DH, Luthy DA, Benedetti TJ, et al. Intraperitoneal fetal transfusion under direct

ultrasound guidance. Obstet Gynecol 1988;71:84-88.



	57. U.S. Public Health Service Expert Panel on the Content of Prenatal Care. Caring for our

future: the content of prenatal care. Washington, DC: Public Health Service, Department of Health

and Human Services, 1989. (NIH Publication No. 90-3182.)



	58. Canadian Task Force on the Periodic Health Examination. Canadian guide to clinical

preventive health care. Ottawa: Canada Communication Group, 1994:116-125.



	59. Urbaniak SJ. Rh(D) haemolytic disease of the newborn: the changing scene. BMJ

1985;291:4-6.



	60. Nusbacher J, Bove JR. Rh immunoprophylaxis: is antepartum therapy desirable? N

Engl J Med 1980;303:935-937.



	61. Torrance GW, Zipursky A. Cost-effectiveness of antepartum prevention of Rh

immunization. Clin Perinatol 1984; 11:267-281.