The survival of children with sickle cell disease (SCD) has improved over the past several decades, especially for very young children. However, we know less about mortality during adolescence, and we do not accurately know the current proportion of children born with SCD who survive to adulthood. The first report from the Dallas Newborn Cohort (DNC), which included follow-up through June 2002, estimated overall survival at 18 years of age to be 85.6% (95% C.I.: 73.4 – 97.8) for individuals with sickle cell anemia (SS) or sickle-β0-thalassemia (Sβ0) (Blood2004;103:4023–7). The confidence interval of this estimate was wide because only 8 cohort subjects were 18 years old at the time. Here we update the survival analysis with 5 more years of accrual and follow-up to provide an accurate, contemporary estimate of mortality for patients with SCD through 18 years of age. The DNC includes all individuals with SS, Sβ0, sickle-hemoglobin C disease (SC), or sickle-β+-thalassemia (Sβ+) who were diagnosed by the newborn screening program of Texas (initiated November 1, 1983) and seen at least once in our center. Subjects were analyzed in two separate groups because of clinical similarity: SS/Sβ0 and SC/Sβ+. Overall survival was analyzed by the Kaplan-Meier method. Subjects were censored at the time of their last clinical encounter. Between July 2002 and July 2007 we identified 229 new members of the DNC and added 3,201 additional patient-years of follow-up. The cohort now includes 940 subjects (572 SS, 284 SC, 63 Sβ+, 21 Sβ0; 52.8% male), and it provides a total of 8,857 patient-years of follow-up (5,819 SS/Sβ0 patient-years, 3,039 SC/Sβ+ patient-years). Mean follow-up is 9.4 years (range 0.1– 20.6 years), and 97 subjects are now at least 18 years of age at last follow-up. To date, 92 subjects (9.8%) have been lost to follow-up (not seen for >5 years), and 33 subjects have died (30 SS/Sβ0, 3 SC/Sβ+). There were 7 new deaths in DNC patients since 2002, all of which occurred in patients who were 18 years of age or older. Of all deaths, 23 were SCD-related (5 acute chest syndrome, 5 sepsis, 4 multi-organ failure syndrome, 9 other), and 10 were apparently unrelated to SCD (4 trauma or accidental death, 6 unrelated medical conditions). All SC/Sβ+ deaths were apparently unrelated to SCD. Overall survival at 18 years was 93.9% (95% C.I. 90.3 – 96.2; 81 patients > 18 years of age) for SS/Sβ0 subjects and 98.4% (95% C.I. 94.4 – 99.5; 16 patients > 18 years) for SC/Sβ+ subjects. The overall incidence of death in the SS/Sβ0 and SC/Sβ+ subgroups was 0.52 and 0.10 per 100 patient-years, decreased from 0.59 and 0.24 in the original DNC analysis. Survival also appears to be improving across cohort eras (Figure). In conclusion, approximately 6% of children with SS or Sβ0 die during childhood, but almost all children with SC or Sβ+ live to become adults. Although early childhood mortality has greatly decreased, we show that many adolescents and young adults still die from SCD. Notably, acute chest syndrome and multi-organ failure have now surpassed sepsis as the leading causes of death. These data provide the accurate, contemporary foundation for the counseling of parents of newborns with SCD and for genetic counseling for prospective parents. Finally, given the marked decrease in early mortality we show here, new efforts to improve survival in SCD should focus on adolescents and young adults. Figure Figure
Antibody-Mediated Rejection in Lung Transplantation: Clinical Outcomes and Donor-Specific Antibody Characteristics
In the context of lung transplant (LT), because of diagnostic difficulties, antibody-mediated rejection (AMR) remains a matter of debate. We retrospectively analyzed an LT cohort at Foch Hospital to demonstrate the impact of AMR on LT prognosis. AMR diagnosis requires association of clinical symptoms, donor-specific antibodies (DSAs), and C4d
BACKGROUND There is a resurgence in the use of low‐titer group O whole blood (LTOWB) for hemorrhagic shock. We hypothesized the use of LTOWB compared to component therapy (CT) would be independently associated with improved 24‐hour mortality. STUDY DESIGN AND METHODS In this prospective observational study, trauma patients 18 years of age or older with massive transfusion protocol activations were included from August 17, 2018, to May 14, 2019. The primary outcome was 24‐hour mortality. Secondary outcomes included 72‐hour blood product totals, multiple organ dysfunction scores (MODS), and 28‐day mortality. Multivariable logistic regression (MVLR) and Cox regression were performed to determine independent associations. RESULTS There were no clinically meaningful differences in measures of injury severity between study groups (CT, n = 42; LTOWB, n = 44). There was no difference in MODS between study groups. The unadjusted mortality was not statistically different between the study groups (9/42 [21%] for CT vs. 7/44 [16%] for LTOWB; p = 0.518). In the MVLR model, LTOWB increased the odds of 24‐hour survival by 23% (odds ratio 0.81, 95% confidence interval 0.69‐0.96; p = 0.017). Adjusted survival curve analysis indicated improved survival at both 24 hours and 28 days for LTOWB patients (p < 0.001). Further stratification showed an association between LTOWB use and survival when maximum clot firmness (MCF) was 60 mm or less (p = 0.009). CONCLUSIONS The use of LTOWB is independently associated with improved 24‐hour and 28‐day survival, and does not increase organ dysfunction at 72 hours. Use of LTOWB most impacted survival of patients with reduced clot firmness (MCF ≤60 mm). Collectively, these data support the clinical use and continued study of LTOWB for hemostatic resuscitation.
One quarter of the world’s population is infected with Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB). Although most infected individuals successfully control or clear the infection, some individuals will progress to TB disease. Immune correlates identified using animal models are not always effectively translated to human TB, thus resulting in a slow pace of translational discoveries from animal models to human TB for many platforms including vaccines, therapeutics, biomarkers, and diagnostic discovery. Therefore, it is critical to improve our poor understanding of immune correlates of disease and protection that are shared across animal TB models and human TB. In this study, we have provided an in-depth identification of the conserved and diversified gene/immune pathways in TB models of nonhuman primate and diversity outbred mouse and human TB. Our results show that prominent differentially expressed genes/pathways induced during TB disease progression are conserved in genetically diverse mice, macaques, and humans. In addition, using gene-deficient inbred mouse models, we have addressed the functional role of individual genes comprising the gene signature of disease progression seen in humans with Mtb infection. We show that genes representing specific immune pathways can be protective, detrimental, or redundant in controlling Mtb infection and translate into identifying immune pathways that mediate TB immunopathology in humans. Together, our cross-species findings provide insights into modeling TB disease and the immunological basis of TB disease progression.
Effect of premedication guidelines and leukoreduction on the rate of febrile nonhaemolytic platelet transfusion reactions
Platelet transfusion reactions were prospectively studied in haematology/oncology patients at five university teaching hospitals over three consecutive summers. The initial summer study provided baseline information on the use of premedications and the rate of platelet transfusion reactions (fever, chills, rigors and hives). Most (73%) platelet recipients were premedicated and 30% (95% CI 28-33%) of transfusions were complicated by reactions. The second study followed implementation of guidelines for premedicating platelet transfusions. Despite a marked reduction in premedication (50%), there was little change in the platelet transfusion reaction rate, 26% (95% CI 24-29%), or the type of reactions. The third study followed implementation of prestorage platelet leukoreduction while maintaining the premedication guidelines. The reaction rate decreased to 19% (95% CI 17-22%). For nonleukoreduced platelets, there was a statistically significant association between the platelet age and reaction rate (P = 0.04). For leukoreduced platelets, there was no statistically significant association between platelet age and reaction rate (P = 0.5). Plasma reduction of nonleukoreduced platelet products also reduced the reaction rate. These prospective studies document a high rate of platelet transfusion reactions in haematology/oncology patients and indicate premedication use can be reduced without increasing the reaction rate. Prestorage leukoreduction and/or plasma reduction of platelet products reduces but does not eliminate febrile nonhemolytic platelet transfusion reactions.
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