Sex differences are observed in the evolution of numerous inflammatory conditions. Women exhibit better clinical courses compared to men in acute inflammatory processes, yet worse prognosis in several chronic inflammatory diseases. Inflammatory markers are significantly different between prepubertal boys and girls, whose sex steroid levels are very low, suggesting genetics play a role. To evaluate the potential influence of the X chromosome, we studied cytokine production and protein phosphorylation following Toll-like receptor (TLR) activation in whole blood and purified neutrophils and monocytes of healthy adults of both sexes as well as subjects with Klinefelter syndrome. We recorded higher levels of inflammatory cytokines in men compared to both women and patients with Klinefelter syndrome following whole blood stimulation. In purified monocytes, production of inflammatory cytokines was also higher in men compared to women, while Klinefelter subjects expressed the same pattern of cytokine production as males, in contrast with whole blood analyses. These differences remained after adjusting for sex steroid levels. Our study revealed higher cytokine inflammatory responses in men than women, yet also compared to subjects with Klinefelter syndrome, who carry two copies of the X chromosome, like women, and thus potentially benefit from the cellular mosaicism of X-linked genes.
Objective: To evaluate the Fetal Medicine Foundation (FMF) algorithm prospectively at 11-13 weeks' gestation in the prediction of preeclampsia (PE). Methods: Single-center prospective screening study for PE of singleton pregnancies at 11-13 weeks. The FMF algorithm takes into account maternal characteristics and biomarkers. Detection rate (DR) for a 10% false-positive rate (FPR) for delivery with preterm and term PE was estimated. Results: Between January 2011 and December 2013, of 3,239 patients available for final analysis, 36 (1.1%) subsequently developed preterm and 44 (1.4%) term PE. In combined screening by maternal factors, mean arterial pressure, uterine artery pulsatility index, and serum placental growth factor, the DR was 80.6% (95% CI 64.0-91.8) for PE at <37 weeks and 31.8% (95% CI 18.6-47.6) for PE at ≥37 weeks, at a 10% FPR. Conclusion: Our data suggest that the FMF algorithm provides effective first-trimester screening for preterm PE.
Six girls (7-13 yr old) with Turner's syndrome and short stature were treated for 1 yr with recombinant human GH (0.15 U/kg.day, sc) and had sequential determinations of serum insulin-like growth factor-I (IGF-I), osteocalcin, and procollagen-III. Bone mineral content and density of the spine and radius were measured before treatment and at 90 and 360 days. Two girls received small doses of ethinyl estradiol (0.025 micrograms/kg) in addition to GH. Height velocity increased by 144% after 3 months of treatment. IGF-I was normal (0.75 +/- 0.20 kU/L) before treatment and increased by 90% on day 1 and by 290% on day 360. Procollagen-III was low before treatment; it peaked at 53.0 +/- 14.7 micrograms/L (260% above baseline) on day 30, then decreased to the normal range. Serum osteocalcin increased more slowly to reach a plateau on day 90 of 23.7 +/- 1.2 micrograms/L (46% above baseline). Before treatment, bone mineral content of the spine was 25% lower than that of children matched for bone age. Bone mineral contents of the peripheral and axial skeleton were increased by 10% and 17%, respectively, after 1 yr of treatment, an increase commensurate with that of bone age in the four patients who did not receive estrogen. On day 90, however, although radius mineral density was already increased by 3%, the mineral density of the lumbar spine was significantly decreased by 4%. We conclude that treatment with GH increases IGF-I, collagen turnover, osteoblastic function, and height velocity in Turner's syndrome. However, there is no catch-up of bone mineral content after 1 yr of treatment, and an early effect of GH is to decrease spine mineral density.
Conventional pretransfusion testing based on hemagglutination assays can be challenging for patients with autoimmune hemolytic anemia (AIHA) because of the presence of auto-antibodies. It has been suggested that deoxyribonucleic acid-based methods could be more efficient in the selection of antigen-matched red blood cell units in those settings. Because of the high risk of alloimmunization of these patients and the labor-intensive nature of adsorption techniques, we decided to evaluate the feasibility of selecting antigen-matched units on the basis of RBC genotyping. We included in our routine RBC genotyping program samples from 7 patients with AIHA presenting a strongly positive direct antiglobulin test. This made the routine compatibility tests difficult. Most patients had previously received transfusions because of warm AIHA. Matched donor units were selected according to the genotype. For all but 1 patient, blood group genotyping could be done on time to allow antigen-matched transfusion. Four patients received antigen-matched red blood cell units based on RBC genotyping and for 1 patient the fact that no matched units were available led us to postpone the transfusion. After each transfusion, the recovery was recorded and considered satisfactory for all transfused patients.
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