Diagnosis and Management of G6PD Deficiency (2024)

Diagnosis and Management of G6PD Deficiency (1)

JENNIFER E. FRANK, MAJ, MC, USA

Am Fam Physician. 2005;72(7):1277-1282

Author disclosure: Nothing to disclose.

Glucose-6-phosphate dehydrogenase deficiency, the most common enzyme deficiency worldwide, causes a spectrum of disease including neonatal hyperbilirubinemia, acute hemolysis, and chronic hemolysis. Persons with this condition also may be asymptomatic. This X-linked inherited disorder most commonly affects persons of African, Asian, Mediterranean, or Middle-Eastern descent. Approximately 400 million people are affected worldwide. hom*ozygotes and heterozygotes can be symptomatic, although the disease typically is more severe in persons who are hom*ozygous for the deficiency. The conversion of nicotinamide adenine dinucleotide phosphate to its reduced form in erythrocytes is the basis of diagnostic testing for the deficiency. This usually is done by fluorescent spot test. Different gene mutations cause different levels of enzyme deficiency, with classes assigned to various degrees of deficiency and disease manifestation. Because acute hemolysis is caused by exposure to an oxidative stressor in the form of an infection, oxidative drug, or fava beans, treatment is geared toward avoidance of these and other stressors. Acute hemolysis is self-limited, but in rare instances it can be severe enough to warrant a blood transfusion. Neonatal hyperbilirubinemia may require treatment with phototherapy or exchange transfusion to prevent kernicterus. The variant that causes chronic hemolysis is uncommon because it is related to sporadic gene mutation rather than the more common inherited gene mutation.

Glucose-6-phosphate dehydrogenase (G6PD) deficiency increases the vulnerability of erythrocytes to oxidative stress. Clinical presentations include acute hemolytic anemia, chronic hemolytic anemia, neonatal hyperbilirubinemia, and an absence of clinical symptoms. The disease is rarely fatal.

Clinical recommendationEvidence ratingReferences
Patients with G6PD deficiency should avoid exposure to oxidative drugs (Table 3) and ingestion of fava beans.C3
Neonates should be screened for G6PD deficiency when family history, ethnic or geographic origin, or the timing of the appearance of neonatal jaundice suggests the possibility of G6PD deficiency.C23
G6PD can be diagnosed with a quantitative spectrophotometric analysis or, more commonly, by a rapid fluorescent spot test.C7

Epidemiology

G6PD deficiency occurs with increased frequency throughout Africa, Asia, the Mediterranean, and the Middle East. In the United States, black males are most commonly affected, with a prevalence of approximately 10 percent. Prevalence of the deficiency is correlated with the geographic distribution of malaria, which has led to the theory that carriers of G6PD deficiency may incur partial protection against malarial infection.13 Cases of sporadic gene mutation occur in all populations.

Pathophysiology

G6PD catalyzes nicotinamide adenine dinucleotide phosphate (NADP) to its reduced form, NADPH, in the pentose phosphate pathway (Figure 14). NADPH protects cells from oxidative damage. Because erythrocytes do not generate NADPH in any other way,3 they are more susceptible than other cells to destruction from oxidative stress. The level of G6PD activity in affected erythrocytes generally is lower than in other cells.5 Normal red blood cells that are not under oxidative stress generally exhibit G6PD activity at approximately 2 percent of total capacity.1 Even with enzyme activity that is substantially reduced, there may be few or no clinical symptoms. A total deficiency of G6PD is incompatible with life.6 The G6PD-deficient variants are grouped into different classes corresponding with disease severity(Table 11,7).

Diagnosis and Management of G6PD Deficiency (2)
ClassLevel of deficiencyEnzyme activityPrevalence
ISevereChronic nonspherocytic hemolytic anemia in the presence of normal erythrocyte functionUncommon; occurs across populations
IISevereLess than 10 percent of normalVaries; more common in Asian and Mediterranean populations
IIIModerate10 to 60 percent of normal10 percent of black males in the United States
IVMild to none60 to 150 percent of normalRare
VNoneGreater than 150 percent of normalRare

Genetics

The gene mutations affecting encoding of G6PD are found on the distal long arm of the X chromosome. More than 400 mutations have been identified, most being missense mutations.6 Most of the variants occur sporadically, although the G6PD Mediterranean and the G6PD A–variants occur with increased frequency in certain populations (Table 23,6,7).

G6PD MediterraneanG6PD A–
World Health Organization classClass IIClass III
Populations affectedItalian, Grecian, Spanish, Arabic, Jewish (Kurdish) descentAfrican descent
Neonatal hyperbilirubinemiaYes, may be more severeYes
FavismMore commonLess common
Hemolysis with oxidative drugsYesYes

Diagnosis

The diagnosis of G6PD deficiency is made by a quantitative spectrophotometric analysis or, more commonly, by a rapid fluorescent spot test detecting the generation of NADPH from NADP.7 The test is positive if the blood spot fails to fluoresce under ultraviolet light.8 In field research, where quick screening of a large number of patients is needed, other tests have been used; however, they require definitive testing to confirm an abnormal result.9,10 Tests based on polymerase chain reaction detect specific mutations and are used for population screening, family studies, or prenatal diagnosis.6

In patients with acute hemolysis, testing for G6PD deficiency may be falsely negative because older erythrocytes with a higher enzyme deficiency have been hemolyzed. Young erythrocytes and reticulocytes have normal or near-normal enzyme activity. Female heterozygotes may be hard to diagnose because of X-chromosome mosaicism leading to a partial deficiency that will not be detected reliably with screening tests.7,11,12

G6PD deficiency is one of a group of congenital hemolytic anemias, and its diagnosis should be considered in children with a family history of jaundice, anemia, splenomegaly, or cholelithiasis, especially in those of Mediterranean or African ancestry.13

Testing should be considered in children and adults (especially males of African, Mediterranean, or Asian descent) with an acute hemolytic reaction caused by infection, exposure to a known oxidative drug, or ingestion of fava beans.

Although rare, G6PD deficiency should be considered as a cause of any chronic nonspherocytic hemolytic anemia across all population groups.

Newborn screening for G6PD deficiency is not performed routinely in the United States, although it is done in countries with high disease prevalence. The World Health Organization recommends screening all newborns in populations with a prevalence of 3 to 5 percent or more in males.3

Neonatal Hyperbilirubinemia

The prevalence of neonatal hyperbilirubinemia is twice that of the general population14 in males who carry the defective gene and in hom*ozygous females. It rarely occurs in heterozygous females.15,16

The mechanism by which G6PD deficiency causes neonatal hyperbilirubinemia is not completely understood. Although hemolysis may be observed in neonates who have G6PD deficiency and are jaundiced,17 other mechanisms appear to play a more important role in the development of hyperbilirubinemia.6,18,19 Hyperbilirubinemia is likely secondary to impairment of bilirubin conjugation and clearance by the liver leading to indirect hyperbilirubinemia.6,20 Infants with G6PD deficiency and a mutation of uridine diphosphoglucuronate glucuronosyltransferase-1 gene promoter (UDPGT-1) are particularly susceptible to hyperbilirubinemia secondary to decreased liver clearance of bilirubin.21 UDPGT-1 is the enzyme affected in Gilbert disease.

G6PD deficiency should be considered in neonates who develop hyperbilirubinemia within the first 24 hours of life, a history of jaundice in a sibling, bilirubin levels greater than the 95th percentile, and in Asian males.22,23

G6PD deficiency can lead to an increased risk and earlier onset of hyperbilirubinemia,24,25 which may require phototherapy or exchange transfusion.6,25 In certain populations, hyperbilirubinemia secondary to G6PD deficiency results in an increased rate of kernicterus and death,26,27 whereas in other populations this has not been observed.18 This may reflect genetic mutations specific to different ethnic groups.18,19

Acute Hemolysis

Acute hemolysis is caused by infection, ingestion of fava beans, or exposure to an oxidative drug.3 Medications that should be avoided in patients with G6PD deficiency are listed in Table 3,6 and drugs that can be used safely in these patients are listed in Table 4.6 Hemolysis occurs after exposure to the stressor but does not continue despite continued infection or ingestion. This is thought to be a result of older erythrocytes having the greatest enzyme deficiency and undergoing hemolysis first. Once the population of deficient erythrocytes has been hemolyzed, younger erythrocytes and reticulocytes that typically have higher levels of enzyme activity are able to sustain the oxidative damage without hemolysis.7 Clinically, acute hemolysis can cause back or abdominal pain and jaundice secondary to a rise in unconjugated bilirubi n (Table 521). Jaundice, in the setting of normal liver function, typically does not occur until greater than 50 percent of the erythrocytes have been hemolyzed.21

Drug nameUse
DapsoneAntimicrobial for treatment of leprosy
Flutamide (Eulexin)Antiandrogen for treatment of prostate cancer
Mafenide cream (Sulfamylon)Topical antimicrobial
Methylene blue (Urolene Blue)Antidote for druginduced methemoglobinemia
Nalidixic acid (NegGram)Antibiotic used primarily for urinary tract infections
Nitrofurantoin (Macrodantin)Antibiotic used primarily for urinary tract infections
Phenazopyridine (Pyridium)Analgesic for treatment of dysuria
PrimaquineAntimalaria agent
Rasburicase (Elitek)Adjunct to antineoplastic agents
Sulfacetamide (Klaron)Antibiotic (ophthalmic and topical preparations)
Sulfamethoxazole (Gantanol)Antibiotic used in combination preparations (i.e., trimethoprim-sulfamethoxazole [TMP-SMX; Bactrim, Septra])
Sulfanilamide (AVC)Antifungal agent for treatment of vulvovagin*lCandida albicans infection

The rightsholder did not grant rights to reproduce this item in electronic media. For the missing item, see the original print version of this publication.

SymptomsLaboratory evaluationFindings in patients with G6PD deficiency and associated acute hemolysis
Back painComplete blood countMild to severe anemia
Abdominal painReticulocyte countIncreases four to seven days after hemolysis
JaundicePeripheral blood smearHeinz bodies
Transient splenomegalyHaptoglobinDecreased
HemoglobinuriaLiver function testsElevated indirect bilirubin
Scleral icterusCoombs’ testNegative

Drugs that cause hemolysis in G6PD-deficient persons inf lict oxidative damage to erythrocytes leading to erythrocyte destruction. Hemolysis typically occurs 24 to 72 hours after ingestion, with resolution within four to seven days.21 Oxidative drugs ingested by a woman who is breast-feeding may be transmitted in breast milk and can cause acute hemolysis in a G6PD-deficient child.16,28

Although persons who experience hemolysis after the ingestion of fava beans can be presumed to have G6PD deficiency, not all of them will exhibit hemolysis.6,7 Favism is most common in persons with G6PD class II variants, but rarely it can occur in patients with the G6PD A–variant.5 Fava beans (Table 6) are presumed to cause oxidative damage by an unknown component, possibly vicine, convicine, or isouramil.6,7

Bell beans
Broad beans
English dwarf beans
Fever beans
Haba beans
Horse beans
Pigeon beans
Silkworm beans
Tick beans

Infection is the most common cause of acute hemolysis in G6PD-deficient persons,6 although the exact mechanism by which this occurs is unknown. Leukocytes may release oxidants during phagocytosis that cause oxidative stress to the erythrocytes; however, this explanation alone would not account for the variety of infections associated with hemolysis in G6PD-deficient persons. The most common infectious agents causing hemolysis include Salmonella,Escherichia coli, beta-hemolytic streptococci, rickettsial infections, viral hepatitis, and influenza A.

A peripheral smear taken during an acute hemolytic reaction in a G6PD-deficient person may demonstrate Heinz bodies, although this rarely is seen in clinical practice.7

Chronic Hemolysis

In chronic nonspherocytic hemolytic anemia, which usually is caused by a sporadic gene mutation, hemolysis occurs during normal erythrocyte metabolism.5,6 The severity of the hemolysis varies, causing mild hemolysis to transfusion-dependent anemia. Exposure to oxidative stress can cause acute hemolysis in these persons.

Other Clinical Considerations

G6PD-deficient persons are predisposed to the development of sepsis and complications related to sepsis after a severe injury.29 Although research has failed to consistently show a clinically significant risk to patients receiving G6PD-deficient donor blood, blood banks generally do not accept G6PD-deficient blood donors.30

Treatment

The main treatment for G6PD deficiency is avoidance of oxidative stressors. Rarely, anemia may be severe enough to warrant a blood transfusion. Splenectomy generally is not recommended. Folic acid and iron potentially are useful in hemolysis, although G6PD deficiency usually is asymptomatic and the associated hemolysis usually is short-lived. Antioxidants such as vitamin E and selenium have no proven benefit for the treatment of G6PD deficiency.6,31 Research is being done to identify medications that may inhibit oxidative-induced hemolysis of G6PD-deficient red blood cells.32

Diagnosis and Management of G6PD Deficiency (2024)

References

Top Articles
Incredible Gordon Ramsay Holiday Stuffing Recipe - TheFoodXP
Amagansett Corn Salad Recipe on Food52
Walkthrough - Baldur's Gate III Guide - IGN
Baldur's Gate III Guide - IGN
Msp To Lax Google Flights
Huntington Bank Overnight Payoff Address
Magic Seaweed Folly
Walker Eastman Heydinger
Xraws.con
Td Bank Utica Ny
Projo Com Obituaries
The Best Ways To Score Free Access To Airport Lounges - Islands
Obert Funeral Home
Ferguson Employee Pipeline
Cvs.com/ Otchs/Myorder
Needful Things Bait Shop & General Store
2008 Buick Lacrosse Belt Diagram
Mylifechoices Com Login
Fatal Lessons In The Pandemic Manhwa
دانلود فیلم الماس خونین دوبله فارسی بدون سانسور نماشا
Wys Meaning Snapchat
A guide to buying second hand cars online in Thailand
Herald-Dispatch Obituaries 2020
Linux Relative Crossword Clue
Restored Republic Oct 3 2023
Spirited Showtimes Near Cinemark At Antelope Valley Mall
Adecco Check Stubs
Chipotle Digital Kitchen Briggs Chaney
Half of the world’s habitable land is used for agriculture
Download Family Farm Adventure op PC met MEmu
Hmnu Stocktwits
Putnam.schoology.com
(541) 787-3087
Lavonne's Alterations
Weather Underground Kalamazoo Mi
Congdon Heart And Vascular Center
Tamilblasters.click
Kumbomb Leaks
R Alzheimersgroup
Isaac Used Diaper
Ryan Bergbower Instagram
Iha East Brighton
College Confidential Tamu 2027
Megan Graves Only Fans
How Much Do I Get Paid To Donate Plasma At Grifols
Associate Director, Donor Base Support
Ken Tenbusch Nasa Flow Director Rev
Mujeres Prepago Puerto Rico
Shiftselect Carolinas
My.cfisd.hac
Elemental Showtimes Near Movies Inc Calallen
Sean Evans Lpsg
First United Bank Seminole Texas
Wilson Tattoo Shops
Eikenberry Eddy Obituaries
Partnerconnect.com.cintas
Bj's Gas Price Sanford
Best The Planet Crafter mods, listed
Hessaire Mini Split Remote Control Manual
Tuscon Arizona Craigslist
Tyrones Unblocked Games Basketball Stars
Myusu Canvas
Md Mile Split
Kahoot Bot Spammer 2023
Craigslist Cars For Sale By Owner Buffalo Ny
About Greenville | Greenville, NC
Barclaylogin
Craiglist Hollywood
Cal State Fullerton Master Programs
Rayune’s Autopsy and Grave Rating Guide – Steam Solo
'Speak No Evil,' 'The Killer's Game,' 'The Critic' among new movies in Milwaukee this week
How the family of a wealthy heiress stopped her ‘evil, dangerous’ killer inheriting her £4m fortune
Mi Casita South Milwaukee
Beacon Gis Huntington Indiana
Awning Airbnb
Premios Emmy 2024: quiénes son los nominados de la premiación más importante para las series televisivas
0Gomovies To To
Mobile Phone Plans, Tablet Plans & Modem Plans
Hrworkways Cintas Login
Craigslist Hilton Head Sc Pets
Location Enceinte Portable Hute-Savoie
Xxc Renegade 1000 Xxc Price In India Price
Her Triplet Alphas Chapter 32
Kinoprogramm für Berlin und Umland
Jurassic World Epic Attack Final Clash Pack Mattel - NEW • $181.35
Jurassic World Dominion Trash N Devour Tyrannosaurus T-Rex Mattel Figur getestet • EUR 23,68
Mpreviews Lomita
[PDF] Huawei Ascend Y530 Black Download - Free Download PDF
Bible Gateway passage: Daniel 7 - Amplified Bible
Daniel 7 Chapter Summary
Waarom zit er citroenzuur in mijn mondwater of tandpasta? - VraagDeTandarts.nl
Uitleg over chemicalien - Citroenzuur, een uitgebreide gids
Fisher-Cheney Funeral Home Obituaries
Shepard Smith Eye Lashes
Moore County Nc Arrests Mugshots
Sam's Club Stafford Gas Price
Ts Somaya
Rachaelrayshow Com Recipes
Southwest Airlines Departures Atlanta
Cobra - Frederick Forsyth
Craigslist Musicians Phoenix
Modelo Julinha Forum
Latest Posts
Article information

Author: Annamae Dooley

Last Updated:

Views: 6369

Rating: 4.4 / 5 (65 voted)

Reviews: 88% of readers found this page helpful

Author information

Name: Annamae Dooley

Birthday: 2001-07-26

Address: 9687 Tambra Meadow, Bradleyhaven, TN 53219

Phone: +9316045904039

Job: Future Coordinator

Hobby: Archery, Couponing, Poi, Kite flying, Knitting, Rappelling, Baseball

Introduction: My name is Annamae Dooley, I am a witty, quaint, lovely, clever, rich, sparkling, powerful person who loves writing and wants to share my knowledge and understanding with you.