Minimal concentration of human IgM and IgG antibodies necessary to protect mice from challenges with live O6 Escherichia coli

This work evaluated the ability of human anti-lipopolysaccharide O6 IgM and IgG antibodies to protect mice challenged with Escherichia coli serotype O6 : K2ac. Purified IgM-effluent, purified IgG, pools of normal human serum (NHS), or control group were injected into mice 18 h before challenges with O6 E. coli. Interleukin 6 and tumor necrosis factor alpha were quantified in the sera of test and control groups. All mice receiving purified IgM-effluent (66.6 mg L(-1) of anti-lipopolysaccharide O6 IgM antibodies) and NHS survived. Purified IgG (1.1 mg L(-1) of anti-lipopolysaccharide O6 IgG antibodies) protected 87.5% of the animals. The control group showed no protective ability. The minimal concentration of anti-lipopolysaccharide O6 IgM antibodies, able to protect 50% of the animals was 33.3 mg L(-1) of purified IgM-effluent, whereas purified IgG was able to protect 50% of the animals with only 1.1 mg L(-1) of anti-lipopolysaccharide O6 IgG antibodies. Serum from animals pretreated with purified IgM-effluent and purified IgG before challenges with lipopolysaccharide O6 did not have detectable pro-inflammatory cytokines. Hepatocytes of the control group were completely invaded by bacteria, whereas none was found in animals pretreated with purified IgM-effluent and purified IgG. Higher concentrations of anti-lipopolysaccharide O6 IgM antibodies as compared to anti-lipopolysaccharide O6 IgG antibodies were needed to protect mice from challenges with E. coli O6 serotype.     

Preterm and term neonates transplacentally acquire IgG antibodies specific to LPS from Klebsiella pneumoniae, Escherichia coli and Pseudomonas aeruginosa

High incidences of Gram-negative bacteria are found in neonatal nosocomial infections. Our aim was to investigate placental transmission of immunoglobulin G (IgG) reactive with lipopolysaccharide from Klebsiella pneumoniae, Pseudomonas aeruginosa and Escherichia coli O111, O6 and O26. The total and lipopolysaccharide-specific IgM and IgG were determined in 11 maternal/umbilical-cord sera aged ≤33 weeks (GI); 21 aged >33 and <37 weeks (GII); and 32 term newborns (GIII). The total and lipopolysaccharide-specific IgM concentrations were equivalent in maternal sera. The total IgG concentrations were equivalent in maternal and newborn sera, with the exception of GIII newborns as compared with their mothers (P<0.0001) and with neonates from GI and GII (P<0.05). Lipopolysaccharide-specific IgG concentrations were lower in GI neonates than in their mothers (P<0.01) and lower in GII (P<0.05). Lower lipopolysaccharide-specific IgG levels were observed among neonates only for O111 in GI (P<0.05) and for O26 and Pseudomonas in GII, both as compared with GIII (P<0.05). The anti-lipopolysaccharide IgG transfer ratios were lower in GI (except for O26) and in GII (except for Klebsiella and O111) as compared with GIII (P<0.05). Our results suggest that the greater susceptibility to infections in preterm infants is influenced (besides the humoral response) by factors intrinsic and extrinsic to the condition of prematurity.     

腹泻犊牛源大肠杆菌对小鼠的致病性

[背景]建立细菌性动物腹泻模型是研究细菌性腹泻机制及抗腹泻药机理的常用方法.[目的]从临床腹泻犊牛粪便中分离出5株不同血清型大肠杆菌(Escherichia coli),经口灌服小鼠建立与临床犊牛腹泻症状近似的小鼠腹泻模型.[方法]72只昆明小鼠随机分为6组,每组12只,分为正常对照组(NC)、E.coli O1干预组...     

THE USE OF STREPTAVIDIN COATED MAGNETIC BEADS FOR DETECTING PATHOGENIC BACTERIA BY LIGHT ADDRESSABLE POTENTIOMETRIC SENSOR (LAPS)

A modified procedure for magnetic capture of antibody-conjugated bacteria for light addressable potentiometric sensor (LAPS) detection using the Threshold System was developed. Streptavidin coated magnetic beads, partially labeled with biotinylated anti Escherichia coli O157 antibodies, were used to capture Escherichia coli O157:H7. Captured bacteria were further labeled with fluorescein-conjugated anti -E. coli O157:H7 antibodies and urease-labeled. anti-fluorescein antibody. Magnetically concentrated bacteria-containing complexes were then immobilized through streptavidin-biotin interactions on 0.45 μ biotinylated nitro-cellulose membranes assembled as sample sticks for the Threshold instrument. The rate of pH change associated with the production of NH₃ by the urease in urea-containing solution was measured by a LAPS incorporated in the Threshold instrument. This approach allowed us to detect 10³ to 10⁴ CPU of cultured E. coli O157:H7 in PBS solutions. Furthermore, detectable LAPS signals of the sample sticks remained relatively constant for at least 24 h at 4C. The developed approach was applied to detect the E. coli in beef hamburger spiked with the bacteria. After a 5 to 6-h enrichment at 37C, as low as 1 CFU/g of E. coli O157:H7 in beef hamburger could be detected.     

A simple filtration technique to detect enterohemorrhagic Escherichia coli O157:H7 and its toxins in beef by multiplex PCR.

Primers, specific for a unique base substitution in uidA of Escherichia coli O157:H7, were coupled with oligonucleotides for the shiga-like toxin I (SLT-I) and SLT-II genes in a multiplex PCR assay. A minimum of 10(2) CFU per PCR (10 microliters) was necessary to amplify E. coli O157:H7-specific bands by multiplex PCR. Food particles as well as various unknown metabolic by-products of bacteria inhibited the PCR, but a simple two-step filtration procedure eliminated this inhibition. To reliably generate PCR products, an E. coli inoculum of 10(3) CFU g of food slurry-1 in a nonspecific medium was required with 6 h of enrichment at 37 degrees C. However, when the food homogenate was incubated overnight, E. coli O157:H7 at an initial inoculum of even 1 CFU g-1 was detected.     

PAP染色法在微生态学中应用的研究——Ⅰ.细菌染色方法的建立

在微生态学中应用过氧化物酶—抗过氧化物酶(PAP)染色法鉴定细菌的研究还未见报道。本文报告了用埃希氏大肠杆菌(O_(111)B_4)腹腔感染小鼠,取其多种脏器制石蜡切片,建立PAP染色程序。确定了第一抗体(兔抗埃希氏大肠杆菌O_(111)B_4型血清)最佳染色滴度为1:800～3200。观察到埃希氏大肠杆菌(O_(111)B_4)定位于组织器官上的状态。在细菌鉴定上PAP染色法较其它方法更具有优点。     

A mixed self-assembled monolayer-based surface plasmon immunosensor for detection of E. coli O157:H7

The sensitivity and specificity of a polyethylene glycol terminated alkanethiol mixed self-assembled monolayers (SAM) on surface plasmon resonance (SPR) immunosensor to detect Escherichia coli O157:H7 is demonstrated. Purified monoclonal (Mabs) or polyclonal antibodies (PAbs) against E. coli O157:H7 were immobilized on an activated sensor chip and direct and sandwich assays were carried to detect E. coli O157:H7. Effect of Protein G based detection and effect of concentrations of primary and secondary antibodies in sandwich assay were investigated. The sensor surface was observed under an optical microscope at various stages of the detection process. The sensor could detect as low as 10(3)CFU/ml of E. coli O157:H7 in a sandwich assay, with high specificity against Salmonella Enteritidis. The detection limit using direct assay and Protein G were 10(6)CFU/ml and 10(4)CFU/ml, respectively. Results indicate that an alkanethiol SAM based SPR biosensor has the potential for rapid and specific detection of E. coli O157:H7, using a sandwich assay.     

Colonization of Arabidopsis thaliana with Salmonella enterica and enterohemorrhagic Escherichia coli O157:H7 and competition by Enterobacter asburiae

Enteric pathogens, such as Salmonella enterica and Escherichia coli O157:H7, have been shown to contaminate fresh produce. Under appropriate conditions, these bacteria will grow on and invade the plant tissue. We have developed Arabidopsis thaliana (thale cress) as a model system with the intention of studying plant responses to human pathogens. Under sterile conditions and at 100% humidity, S. enterica serovar Newport and E. coli O157:H7 grew to 10(9) CFU g(-1) on A. thaliana roots and to 2 x 10(7) CFU g(-1) on shoots. Furthermore, root inoculation led to contamination of the entire plant, indicating that the pathogens are capable of moving on or within the plant in the absence of competition. Inoculation with green fluorescent protein-labeled S. enterica and E. coli O157:H7 showed invasion of the roots at lateral root junctions. Movement was eliminated and invasion decreased when nonmotile mutants of S. enterica were used. Survival of S. enterica serovar Newport and E. coli O157:H7 on soil-grown plants declined as the plants matured, but both pathogens were detectable for at least 21 days. Survival of the pathogen was reduced in unautoclaved soil and amended soil, suggesting competition from indigenous epiphytes from the soil. Enterobacter asburiae was isolated from soil-grown A. thaliana and shown to be effective at suppressing epiphytic growth of both pathogens under gnotobiotic conditions. Seed and chaff harvested from contaminated plants were occasionally contaminated. The rate of recovery of S. enterica and E. coli O157:H7 from seed varied from undetectable to 19% of the seed pools tested, depending on the method of inoculation. Seed contamination by these pathogens was undetectable in the presence of the competitor, Enterobacter asburiae. Sampling of 74 pools of chaff indicated a strong correlation between contamination of the chaff and seed (P = 0.025). This suggested that contamination of the seed occurred directly from contaminated chaff or by invasion of the flower or silique. However, contaminated seeds were not sanitized by extensive washing and chlorine treatment, indicating that some of the bacteria reside in a protected niche on the seed surface or under the seed coat.     

Levels of pro-inflammatory cytokines produced from cord blood in-vitro are pathogen dependent and increased in comparison to adult controls

BACKGROUND: Overproduction of pro-inflammatory cytokines may play a role in increased morbidity and mortality from neonatal sepsis. Objective of this study was to compare secretion of pro-inflammatory cytokines by the cord blood cells of healthy term neonates to the venous blood cells of healthy adults in vitro after stimulation with common neonatal pathogens. METHOD: Blood samples were cultured in the presence of heat-killed group B beta-hemolytic streptococci (GBS), Escherichia coli (E. coli) and Staphylococcus epidermidis (S. epi). Concentrations of secreted cytokines (interleukine-6, IL-6, tumor necrosis factor-alpha, TNF-alpha, interleukine-1 beta, IL-1beta and interleukine-8, IL-8) were measured after 0, 1, 2 and 4 h of incubation using chemiluminescent immunometric automated assay. RESULTS: Blood samples from 22 neonates and 16 adults were compared. After stimulation by GBS and E. coli, cord blood cells secreted significantly higher levels of IL-6 and IL-8 than blood cells of healthy adults. In cord blood, E. coli induced secretion of higher concentration of IL-6, TNF-alpha, IL-1beta and IL-8 than S. epi, and more IL-6 than GBS; GBS induced more IL-1beta than S.epi. CONCLUSIONS: Response of cord blood to microbial activators is different from that of adult controls. Each isolate of heat-killed bacteria induced different amount of pro-inflammatory cytokines in vitro. This may represent a useful in vitro virulence test.     

Modification of cord blood IL-6 production with IgM enriched human immunoglobulin in term and preterm infants

Pro-inflammatory cytokines contribute significantly to the morbidity of premature infants. IL-6 and IL-8 are involved in the pathogenesis of pulmonary and cerebral tissue injury. The effect of human immunoglobulin preparations on cytokine production in preterm infants has not been studied. We investigated the influence of immunoglobulin on LPS stimulated IL-6 and IL-8 production in cord blood of healthy preterm neonates. Ten non-infected preterm infants delivered by cesarean section and 5 healthy term neonates were included. In the preterm infants, significant IL-6 production was observed in the absence of immunoglobulin after 4 h [median 113 (39-725) pg/ml], 8 h [375 (234-1795) pg/ml] and 12 h [360 (248-2765) pg/ml] of LPS incubation. IL-6 concentrations were significantly lower after incubation with LPS+immunoglobulin after 4 h [median 38 (5-568) pg/ml; p=0.005], 8 h [178 (10-1830) pg/ml; p=0.001] and 12 h [182 (29-2530) pg/ml; p=0.002]. Cultures from term infants produced IL-6 levels approx. 4 times of those from premature infants unaffected by immunoglobulin. IL-8 production also correlated to gestational age and was not affected by immunoglobulin in both groups. Human immunoglobulin preparation may modify IL-6 production in cord blood cultures from premature infants.     

Rapid, automated separation of specific bacteria from lake water and sewage by flow cytometry and cell sorting.

The use of fluorescence-activated flow cytometric cell sorting to obtain highly enriched populations of viable target bacteria was investigated. Preliminary studies employed mixtures of Staphylococcus aureus and Escherichia coli. Cells of S. aureus, when mixed in different proportions with E. coli, could be selectively recovered at a purity in excess of 90%. This was possible even when S. aureus composed only approximately 0.4% of the total cells. Cell sorting was also tested for the ability to recover E. coli from natural lake water populations and sewage. The environmental samples were challenged with fluorescently labelled antibodies specific for E. coli prior to cell sorting. Final sample purities of greater than 70% were routinely achieved, as determined by CFU. Populations of E. coli released into environmental samples were recovered at greater than 90% purity. The use of flow cytometry and cell sorting to detect and recover viable target bacteria present at levels of less than 1% within an indigenous microflora was also demonstrated.     

Disposable amperometric immunosensing strips fabricated by Au nanoparticles-modified screen-printed carbon electrodes for the detection of foodborne pathogen Escherichia coli O157:H7

A disposable amperometric immunosensing strip was fabricated for rapid detection of Escherichia coli O157:H7. The method uses an indirect sandwich enzyme-linked immunoassay with double antibodies. Screen-printed carbon electrodes (SPCEs) were framed by commercial silver and carbon inks. For electrochemical characterization the carbon electrodes were coupled with the first E. coli O157:H7-specific antibody, E. coli O157:H7 intact cells and the second E. coli O157:H7-specific antibody conjugated with horseradish peroxidase (HRP). Hydrogen peroxide and ferrocenedicarboxylic acid (FeDC) were used as the substrate for HRP and mediator, respectively, at a potential +300 mV vs. counter/reference electrode. The response current (RC) of the immunosensing strips could be amplified significantly by 13-nm diameter Au nanoparticles (AuNPs) attached to the working electrode. The results show that the combined effects of AuNPs and FeDC enhanced RC by 13.1-fold. The SPCE immunosensing strips were used to detect E. coli O157:H7 specifically. Concentrations of E. coli O157:H7 from 10(2) to 10(7)CFU/ml could be detected. The detection limit was approximately 6CFU/strip in PBS buffer and 50CFU/strip in milk. The SPCE modified with AuNPs and FeDC has the potential for further applications and provides the basis for incorporating the method into an integrated system for rapid pathogen detection.     

Impact of vacuum cooling on Escherichia coli O157:H7 infiltration into lettuce tissue

Vacuum cooling is a common practice in the California leafy green industry. This study addressed the impact of vacuum cooling on the infiltration of Escherichia coli O157:H7 into lettuce as part of the risk assessment responding to the E. coli O157:H7 outbreaks associated with leafy green produce from California. Vacuum cooling significantly increased the infiltration of E. coli O157:H7 into the lettuce tissue (2.65E+06 CFU/g) compared to the nonvacuumed condition (1.98E+05 CFU/g). A stringent surface sterilization and quadruple washing could not eliminate the internalized bacteria from lettuce. It appeared that vacuuming forcibly changed the structure of lettuce tissue such as the stomata, suggesting a possible mechanism of E. coli O157:H7 internalization. Vacuuming also caused a lower reduction rate of E. coli O157:H7 in stored lettuce leaves than that for the nonvacuumed condition.     

APPLICATIONS OF TIME-RESOLVED FLUOROIMMUNOASSAY TO DETECT MAGNETIC BEAD CAPTURED ESCHERICHIA COLI O157:H7

A time-resolved fluorescence technique was developed to detect Escherichia coli O157:H7 in ground beef burger. After a 4.5 h enrichment period, streptavidin coated magnetic beads conjugated with biotin-labeled anti E. coli O157:H7 were used to capture the bacteria. The bacteria were, at the same time, also labeled by a nonfluorescent, europium (Eu)-tagged anti-E. coli O157:H7 antibody. The sandwiched bacterial complexes were then concentrated using a magnetic particle concentrator and washed to remove other solution components. Upon addition of an enhancement buffer, the Eu-labels were then released from the antibodies and chelated to nitrilo-triacetic acid (NTA) and trioctylphosphine oxide (TOPO) to form highly fluorescent Eu-(2-NTA)₃(TOPO)_2–3 micellar complexes. Delayed fluorescence associated with these complexes was measured and its intensity was used to estimate the original bacterial concentration spiked in hamburger. This approach was applied to detect E. coli O157:H7 spiked in hamburgers. The results indicated this method is able to detect 1 CFU/g of the bacteria after a brief enrichment for four and half hours at 37C. Specificity studies indicated that the approach exhibited no or limited cross reactivity to Salmonella typhimurium, E. coli K-12 or Shigella dysenteriae spiked in hamburgers. Thus, the developed approach may be used as a rapid screening procedure for E. coli O157 bacteria in foods.     

DIRECT DETECTION OF ESCHERICHIA COLI 0157:H7 IN UNPASTEURIZED APPLE JUICE WITH AN EVANESCENT WAVE BIOSENSOR

An evanescent wave biosensor was used to detect Escherichia coli O157:H7 in unpasteurized apple juice. Light is launched from a 635 nm laser diode into silica or polystyrene optical waveguides, generating an evanescent field which extends from the waveguide surface. Fluorescent molecules within the evanescent field are excited resulting in an emission signal that the biosensor then detects and quantifies. A sandwich immunoassay was performed on the waveguides using cyanine 5 dye-labeled anti-E. coli O157:H7 antibodies for generation of the specific fluorescent signal. The lower limit of detection was between 6.0 × 10² and 6.0 × 10⁴ CFU/mL with silica waveguides and between 3.2 × 10⁴ and 3.2 × 10⁴ CFU/mL using polystyrene waveguides. One-hundred percent correct identification of true positive samples occurred at 6.0 × 10⁴ and 3.2 × 10⁴ CFU/mL for silica and polystyrene waveguides, respectively. Signals from a variety of non-E. coli O157 bacteria, including closely related enterotoxigenic strains of E. coli at concentrations of ˜ 10⁶ CFU/mL, were below the limits of detection. Assays were conducted in near real-time with results obtained within 15 min of sample processing.     

Development of antibody array for simultaneous detection of foodborne pathogens

Pathogenic bacterial contaminations present serious problems for food industry and public health. Rapid, accurate and affordable assays are needed. In this study, antibody arrays to simultaneously detect two foodborne pathogenic bacteria (Escherichia coli O157:H7 and Salmonella spp.) have been developed using chemiluminescent detecting system. Solid supports using nitrocellulose membrane and poly-l-lysine (PLL) glass slide were compared and optimized for antibody array construction. Many parameters including optimal concentrations of antibodies, blocking reagents, assay time, storage time, sensitivity and cross-reactivity were considered during optimization. This study revealed that the PLL slide was a more suitable support due to highly accurate results and the absence of non-specific background. Phosphate-buffered saline (PBS, pH 7.2) and 3% skim milk in PBS buffer were optimal spotting and blocking reagents, respectively. With the same sensitivity for bacterial detection as in a conventional ELISA (10(5)-10(6)CFU/ml for the E. coli O157:H7 and 10(6)-10(7)CFU/ml for Salmonella detections), this antibody array has advantages of a much shorter assay time of 1h and much lower required amounts of antibodies. Moreover, there was no cross-reactivity in the detection among bacteria tested in this study. Bacteria detection in food sample was feasible as demonstrated using bacteria-added milk.     

Influence of the Intestinal Flora on the Development of Immune Reactions in Infants

Breast-fed and artifically fed infants are in contact with the O antigen of Escherichia coli from the first days after birth. From the mother, the infant obtains antibodies against nonpathogenic E. coli strains in low titer, and the infant begins to form its own antibodies during the 2nd month of life. The transition is known to be continuous even though the transferred antibodies could not be differentiated from the infant's own antibodies. Contact with endotoxin caused sensitization which was detected by the skin test at about 2.5 months, and thereafter the skin test data correlated with the presence of serum antibodies against endotoxin. The newborn infant can be colonized with a different E. coli serotype; such an antigenic stimulus evokes the formation of antibodies sooner and at a significantly higher titer than (i) the level of maternal antibodies transferred or (ii) the infant's antibodies normally formed later on against other random E. coli serotypes.     

Combined effect of high-pressure treatments and bacteriocin-producing lactic acid bacteria on inactivation of Escherichia coli O157:H7 in raw-milk cheese

The effect of high-pressure (HP) treatments combined with bacteriocins of lactic acid bacteria (LAB) produced in situ on the survival of Escherichia coli O157:H7 in cheese was investigated. Cheeses were manufactured from raw milk inoculated with E. coli O157:H7 at approximately 10(5) CFU/ml. Seven different bacteriocin-producing LAB were added at approximately 10(6) CFU/ml as adjuncts to the starter. Cheeses were pressurized on day 2 or 50 at 300 MPa for 10 min or 500 MPa for 5 min, at 10 degrees C in both cases. After 60 days, E. coli O157:H7 counts in cheeses manufactured without bacteriocin-producing LAB and not pressurized were 5.1 log CFU/g. A higher inactivation of E. coli O157:H7 was achieved in cheeses without bacteriocin-producing LAB when 300 MPa was applied on day 50 (3.8-log-unit reduction) than if applied on day 2 (1.3-log-unit reduction). Application of 500 MPa eliminated E. coli O157:H7 in 60-day-old cheeses. Cheeses made with bacteriocin-producing LAB and not pressurized showed a slight reduction of the pathogen. Pressurization at 300 MPa on day 2 and addition of lacticin 481-, nisin A-, bacteriocin TAB 57-, or enterocin AS-48-producing LAB were synergistic and reduced E. coli O157:H7 counts to levels below 2 log units in 60-day-old cheeses. Pressurization at 300 MPa on day 50 and addition of nisin A-, bacteriocin TAB 57-, enterocin I-, or enterocin AS-48-producing LAB completely inactivated E. coli O157:H7 in 60-day-old cheeses. The application of reduced pressures combined with bacteriocin-producing LAB is a feasible procedure to improve cheese safety.     

Monoclonal antibodies against O and K antigens of uropathogenic Escherichia coli O4 : K12 : H− as opsonins

Abstract Monoclonal antibodies of subclasses IgG1 and IgG2b and specific for the O4 antigen of Escherichia coli 20025 (O4 : K12 : H⁻) and the capsular K12 polysaccharide of the same strain (IgM) were obtained with the hybridoma technique using spleen cells from Balb/c mice, immunized with a crude bacterial extract, and Sp2/O-Ag8 myeloma cells. The anti-O4 antibodies reacted exclusively with the O4 lipopolysaccharide and not with those from serologically O-cross reactive E. coli . The anti-K12 antibodies recognized as epitope (part of) the KDO moiety of the capsular K12 polysaccharide. Not only anti-K12, but also anti-O4 antibodies effectively phagoopsonized encapsulated E. coli 20025. The opsonized bacteria were killed in subsequent in vitro phagocytosis by human leokocytes in the presence of human serum complement.     

Hematopoietic Stem Cells in Neonates: Any Differences between Very Preterm and Term Neonates?

Background

In the last decades, human full-term cord blood was extensively investigated as a potential source of hematopoietic stem and progenitor cells (HSPCs). Despite the growing interest of regenerative therapies in preterm neonates, only little is known about the biological function of HSPCs from early preterm neonates under different perinatal conditions. Therefore, we investigated the concentration, the clonogenic capacity and the influence of obstetric/perinatal complications and maternal history on HSPC subsets in preterm and term cord blood.

Methods

CD34+ HSPC subsets in UCB of 30 preterm and 30 term infants were evaluated by flow cytometry. Clonogenic assays suitable for detection of the proliferative potential of HSPCs were conducted. Furthermore, we analyzed the clonogenic potential of isolated HSPCs according to the stem cell marker CD133 and aldehyde dehydrogenase (ALDH) activity.

Results

Preterm cord blood contained a significantly higher concentration of circulating CD34+ HSPCs, especially primitive progenitors, than term cord blood. The clonogenic capacity of HSPCs was enhanced in preterm cord blood. Using univariate analysis, the number and clonogenic potential of circulating UCB HSPCs was influenced by gestational age, birth weight and maternal age. Multivariate analysis showed that main factors that significantly influenced the HSPC count were maternal age, gestational age and white blood cell count. Further, only gestational age significantly influenced the clonogenic potential of UCB HSPCs. Finally, isolated CD34+/CD133+, CD34+/CD133– and ALDH^high HSPC obtained from preterm cord blood showed a significantly higher clonogenic potential compared to term cord blood.

Conclusion

We demonstrate that preterm cord blood exhibits a higher HSPC concentration and increased clonogenic capacity compared to term neonates. These data may imply an emerging use of HSPCs in autologous stem cell therapy in preterm neonates.