BIOMAT Database Logo BIOMAT Database Logo

Red cell metabolism and severe neonatal jaundice in West Malaysia. 1977

L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan

A study was carried out of 332 babies suffering from severe neonatal jaundice who were admitted to the General Hospital, Kuala Lumpar, Malaysia. Of the 332 neonates, 51 were premature and 281 were full-term babies, 178 (110 Chinese, 58 Malay, 9 Indian and 1 European-Pakistani) had bilirubin levels of 20 mg% or higher, requiring exchange blood transfusion. Of the Chinese neonates, 23 (20.9%) had G6PD deficiency, 9 (8.2%) had Hb Bart's and 2 (1.8%) had an abnormal haemoglobin, one Hb Q and one fetal variant. Among the Malay infants, 10 (17.2%) had G6PD deficiency, 7 (12.1%) had Hb Bart's and 10 (17.2%) had abnormal haemoglobins (four had Hb E trait, one had Hb K and Bart's in addition to Hb E, three had Hb CoSp with Hb Bart's, one had Hb Q and one Hb Tak). One of the nine Indian neonates had G6PD deficiency and one had Hb S trait. The one European-Pakistani baby was a carrier of Hb D Punjab. In addition to G6PD deficiency, abnormal haemoglobins seem to have contributed to the high incidence of severe neonatal jaundice in Malaysia. The mean activities of GP, GR and GR after stimulation with FAD were higher, while the mean activity of PK and mean level of reduced glutathione were lower than in normal cord bloods. The percent increase of GR after FAD stimulation was significantly lower; fewer in this group had increases above 20% than in normal cord blood. The possible significance of the findings is discussed.

UI MeSH Term Description Entries
D007231 Infant, Newborn An infant during the first 28 days after birth. Neonate,Newborns,Infants, Newborn,Neonates,Newborn,Newborn Infant,Newborn Infants
D007567 Jaundice, Neonatal Yellow discoloration of the SKIN; MUCOUS MEMBRANE; and SCLERA in the NEWBORN. It is a sign of NEONATAL HYPERBILIRUBINEMIA. Most cases are transient self-limiting (PHYSIOLOGICAL NEONATAL JAUNDICE) occurring in the first week of life, but some can be a sign of pathological disorders, particularly LIVER DISEASES. Icterus Gravis Neonatorum,Neonatal Jaundice,Physiological Neonatal Jaundice,Severe Jaundice in Neonate,Severe Jaundice in Newborn,Jaundice, Physiological Neonatal,Neonatal Jaundice, Physiological
D008296 Malaysia A parliamentary democracy with a constitutional monarch in southeast Asia, consisting of 11 states (West Malaysia) on the Malay Peninsula and two states (East Malaysia) on the island of BORNEO. It is also called the Federation of Malaysia. Its capital is Kuala Lumpur. Before 1963 it was the Union of Malaya. It reorganized in 1948 as the Federation of Malaya, becoming independent from British Malaya in 1957 and becoming Malaysia in 1963 as a federation of Malaya, Sabah, Sarawak, and Singapore (which seceded in 1965). The form Malay- probably derives from the Tamil malay, mountain, with reference to its geography. (From Webster's New Geographical Dictionary, 1988, p715 & Room, Brewer's Dictionary of Names, 1992, p329) Federation of Malaya,Malay Federation,Malay Peninsula,Malaya,Malaya Federation,Sabah,Sarawak
D011770 Pyruvate Kinase ATP:pyruvate 2-O-phosphotransferase. A phosphotransferase that catalyzes reversibly the phosphorylation of pyruvate to phosphoenolpyruvate in the presence of ATP. It has four isozymes (L, R, M1, and M2). Deficiency of the enzyme results in hemolytic anemia. EC 2.7.1.40. L-Type Pyruvate Kinase,M-Type Pyruvate Kinase,M1-Type Pyruvate Kinase,M2-Type Pyruvate Kinase,Pyruvate Kinase L,R-Type Pyruvate Kinase,L Type Pyruvate Kinase,M Type Pyruvate Kinase,M1 Type Pyruvate Kinase,M2 Type Pyruvate Kinase,Pyruvate Kinase, L-Type,Pyruvate Kinase, M-Type,Pyruvate Kinase, M1-Type,Pyruvate Kinase, M2-Type,Pyruvate Kinase, R-Type,R Type Pyruvate Kinase
D004912 Erythrocytes Red blood cells. Mature erythrocytes are non-nucleated, biconcave disks containing HEMOGLOBIN whose function is to transport OXYGEN. Blood Cells, Red,Blood Corpuscles, Red,Red Blood Cells,Red Blood Corpuscles,Blood Cell, Red,Blood Corpuscle, Red,Erythrocyte,Red Blood Cell,Red Blood Corpuscle
D005955 Glucosephosphate Dehydrogenase Deficiency A disease-producing enzyme deficiency subject to many variants, some of which cause a deficiency of GLUCOSE-6-PHOSPHATE DEHYDROGENASE activity in erythrocytes, leading to hemolytic anemia. Deficiency of Glucose-6-Phosphate Dehydrogenase,Deficiency, GPD,Deficiency, Glucosephosphate Dehydrogenase,G6PD Deficiency,GPD Deficiency,Glucose 6 Phosphate Dehydrogenase Deficiency,Glucose-6-Phosphate Dehydrogenase Deficiency,Glucosephosphate Dehydrogenase Deficiencies,Hemolytic Anemia Due to G6PD Deficiency,Deficiencies, G6PD,Deficiencies, GPD,Deficiencies, Glucose-6-Phosphate Dehydrogenase,Deficiencies, Glucosephosphate Dehydrogenase,Deficiency of Glucose 6 Phosphate Dehydrogenase,Deficiency, G6PD,Deficiency, Glucose-6-Phosphate Dehydrogenase,Dehydrogenase Deficiencies, Glucose-6-Phosphate,Dehydrogenase Deficiencies, Glucosephosphate,Dehydrogenase Deficiency, Glucose-6-Phosphate,Dehydrogenase Deficiency, Glucosephosphate,G6PD Deficiencies,GPD Deficiencies,Glucose-6-Phosphate Dehydrogenase Deficiencies
D005979 Glutathione Peroxidase An enzyme catalyzing the oxidation of 2 moles of GLUTATHIONE in the presence of HYDROGEN PEROXIDE to yield oxidized glutathione and water. Cytosolic Glutathione Peroxidase,Glutathione Lipoperoxidase,Selenoglutathione Peroxidase,Glutathione Peroxidase, Cytosolic,Lipoperoxidase, Glutathione,Peroxidase, Glutathione,Peroxidase, Selenoglutathione
D005980 Glutathione Reductase Catalyzes the oxidation of GLUTATHIONE to GLUTATHIONE DISULFIDE in the presence of NADP+. Deficiency in the enzyme is associated with HEMOLYTIC ANEMIA. Formerly listed as EC 1.6.4.2. Glutathione-Disulfide Reductase,Reductase, Glutathione,Reductase, Glutathione-Disulfide
D006455 Hemoglobins, Abnormal Hemoglobins characterized by structural alterations within the molecule. The alteration can be either absence, addition or substitution of one or more amino acids in the globin part of the molecule at selected positions in the polypeptide chains. Abnormal Hemoglobins
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man

Related Publications

L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Red cell metabolism and neonatal jaundice.
July 1967, The Turkish journal of pediatrics,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Red-cell enzymes and severe neonatal jaundice.
October 1961, Cerebral palsy bulletin,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Bilirubin and red cell metabolism in relation to neonatal jaundice.
February 1969, Postgraduate medical journal,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Genetic red cell abnormalities in Trengganu and Perlis (West Malaysia).
June 1971, The Southeast Asian journal of tropical medicine and public health,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
[Severe neonatal jaundice: chemotherapy].
February 1975, [Kango gijutsu] : [Nursing technique],
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Red cell potassium levels in neonatal jaundice --a preliminary study.
April 1977, Medical laboratory sciences,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
[Bedside care of severe neonatal jaundice: management of neonatal jaundice].
February 1975, [Kango gijutsu] : [Nursing technique],
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Red cell pyruvate kinase deficiency in neonatal jaundice cases in India.
November 2006, Indian journal of pediatrics,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Relation of red blood cell glutathione peroxidase to neonatal jaundice.
April 1970, The Journal of pediatrics,
L E Lie-Injo, and H K Virik, and P W Lim, and A K Lie, and J Ganesan
Antenatal phenobarbital for reducing neonatal jaundice after red cell isoimmunization.
April 2007, The Cochrane database of systematic reviews,
Copied contents to your clipboard!