Neonatal Sepsis Clinical Trial
Official title:
Prospective Assessment of the Distribution of Haptoglobin Phenotype in Septic and Non Septic Pre-term Neonates (PTSH)
The Haptoglobin (Hp) gene locus at chromosome 16q22 is polymorphic with two alleles denoted
1 and 2 .The gene product exists in three phenotypes: 1-1, 2-1, and 2-2.
The Haptoglobin 2 allele is found only in man and is believed to have arisen from the
Haptoglobin 1 allele by a partial intragenic duplication. Haptoglobin 2 allele frequency is
higher than the Haptoglobin 1 allele. It has been hypothesized that the Haptoglobin 2 allele
was spread in man due to its selective advantage against life-threatening infections.
In vitro, only the Haptoglobin 2 allele protein, binds to the streptococcus T antigen,
resulting in its aggregation and slowing its growth .
Individuals homozygous for the Haptoglobin 1 allele (1-1 genotype) are more prone to the
streptococcal infection than individuals with the Haptoglobin 2 allele(2-1 or 2-2 genotype).
The investigators wish to explore the linkage between Hp phenotype and sepsis in pre-term
neonates, considering that in this early stage in life, genetic properties which provide a
defense against infectious agents will be of heightened importance.
The Haptoglobin (Hp) gene locus at chromosome 16q22 is polymorphic with two alleles denoted
1 and 2 .The gene product exists in three phenotypes: 1-1, 2-1, and 2-2. Hp 2 allele DM
individuals have larger myocardial infarctions than homozygous Hp 1 DM individuals. This may
be due to differences in the antioxidant and anti-inflammatory properties of these
proteins.The same phenomenon was demonstrated in a murine coronary ischemia-reperfusion
model.
The Haptoglobin is an acute phase protein with anti-oxidant, bacteriostatic and
anti-inflammatory functions.
The Haptoglobin 2 allele is found only in man and is believed to have arisen from the
Haptoglobin 1 allele by a partial intragenic duplication. Haptoglobin 2 allele frequency is
higher than the Haptoglobin 1 allele. It has been hypothesized that the Haptoglobin 2 allele
was spread in man due to its selective advantage against life-threatening infections.
In vitro, only the Haptoglobin 2 allele protein, binds to the streptococcus T antigen,
resulting in its aggregation and slowing its growth .
We proposed that in individuals homozygous for the Haptoglobin 1 allele (1-1 genotype), the
streptococcal infection would be more severe than in individuals with the Haptoglobin 2
allele (2-1 or 2-2 genotype).
During a severe outbreak of impetigo in two infantry units in the Israeli Defense Forces,
over 60% (57/91) of the soldiers developed impetigo caused by a single pathogen-group A
streptococcus. 33% of them developed serious life-threatening complications requiring
hospitalization. The risk of Haptoglobin 1-1 genotype individuals developing severe
infection was significantly higher than individuals with Haptoglobin 2 genotype (45.5%
(5/11) vs. 17.5% (14/80), risk ratio 2.6 (95% confidence interval 1.2-5.8), p=0.05). This
supports the notion that the Haptoglobin genotype determines the susceptibility to
streptococcus infection, an important pathogen early in human evolution, and explains the
spread of Haptoglobin 2 allele in human.
Another study demonstrated that Diabetic dialysis patients at the age of 60 and above
carrying the Hp1-1 phenotype had a lower mortality rate compared to the patients who are
Hp2-2. However, younger population has shown the opposite. This can be explained by the
survivorship pattern of Hp1-1 diabetic patients who have lower risk for diabetic
complications. They will also survive dialysis in older age by suffering less from vascular
complications compared to Hp2-2. However, in Hp2-2 younger patients, the infectious
parameter is more significant and mortality will be lower.
We wish to explore the linkage between Hp phenotype and sepsis in pre-term neonates,
considering that in this early stage in life, genetic properties which provide a defense
against infectious agents will be of heightened importance.
During the study period of one year, all preterm neonates (a total of 150 preterm babies, 35
weeks or younger) admitted to the preterm unit at Carmel hospital will be typed for Hp
phenotype by a blood test. Hp phenotyping needs only about 500 microliters of blood which
will be taken during routine blood drawn. All blood samples will be identified with the
patient's I.D. number and name in addition to the study consecutive serial number. The blood
samples will be sent to the laboratory of vascular medicine in the faculty of medicine at
the Technion. If the number of participating infants during one year will be insufficient
(less than 150), we will ask for additional permission of the ethical committee to continue
the study for the second year.
Septic neonates will be recognized by clinical deterioration (abnormal body temperature
and/or disturbed skin perfusion and/or apathy and/or increase in apnea/bradycardia episodes
and/or abnormal CBC, leukocytosis or leucopenia or left shift or thrombocytopenia) and
concomitant positive blood cultures, without another explanation of non infectious etiology.
Details of the bacteria including antibiotic resistance profile will be documented.
Demographic data will be collected for all patients.
In addition data regarding known pre-maturity complications such as Retinopathy of
Pre-maturity (ROP), Necrotizing Entero-Colitis (NEC), Broncho-Pulmonary Dysplasia (BPD) will
be assessed and documented according to the admission summary.
Blood transport, Hp typing and data collection will be done by a MD student as part of her
MD thesis.
As part of the informed consent, we will ask the permission for a possible follow up one
year after discharge from the hospital which will be done by a phone questionnaire and
acquiring the patients medical file data with the help of his family
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