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21 ± 0.21 at GA 10-14 weeks (n = 260), 0.14 ± 0.23 at GA ≥15 (n = 102) and 0.12 ± 0.12 at GA less then 10 (n = 63); P less then 0.001. Conclusion The lower number of SCT were identified from samples of women with a high BMI. Cell recovery for SCT testing seems optimal at GA 10-14 weeks, but earlier and later testing are still possible. This article is protected by copyright. All rights reserved.Objectives This study aimed at identifying new ABO alleles from155 unrelated blood samples with potential ABO discrepancy in a Chinese Han population of 835 144 donors. Background Serological strategies and genotyping are crucial for the precise determination of ABO discrepancy. Methods Their ABO phenotypes and plasma glycosyltransferase activity were determined by standard forward and reverse typing and dilution tests. The genomic DNA of the ABO gene was amplified by polymerase chain reaction and sequenced. The frequency of ABO subgroup alleles associated with ABO discrepancy was analysed. Results Serological analysis indicated that 53, 96 and 6 samples with ABO discrepancy were identified in the A, B and O subgroups, respectively. Genetic analysis revealed 12 novel alleles among the 46 associated with serologic ABO discrepancy. The majority of novel alleles was obtained from point mutations or single base insertion in Exons 6 to 7 of the ABO gene. The most frequent alleles were ABO*cisAB.01 (14/53, 26.42%) and ABO*A2.05 (7/53, 13.2%) in the A subgroup and ABO*BA.02 (34/96, 35.42%) and ABO*BEL.11 (15/96, 15.62%) in the B subgroup. Samples with the same ABO subgroup allele displayed different phenotypes, such as ABO*AX.13, ABO*BW.03, ABO*BW.12, ABO*BW.15, ABO*BEL.03, ABO*BEL.10 and ABO*BEL.11. Conclusion This study identified 12 novel alleles among the 46 associated with serologic ABO discrepancies. ABO genotyping is needed for the accurate evaluation of blood phenotype to improve the safety of blood transfusion.Developmental synaptic remodeling is important for the formation of precise neural circuitry, and its disruption has been linked to neurodevelopmental disorders such as autism and schizophrenia. Microglia prune synapses, but integration of this synapse pruning with overlapping and concurrent neurodevelopmental processes, remains elusive. Adhesion G protein-coupled receptor ADGRG1/GPR56 controls multiple aspects of brain development in a cell type-specific manner In neural progenitor cells, GPR56 regulates cortical lamination, whereas in oligodendrocyte progenitor cells, GPR56 controls developmental myelination and myelin repair. Here, we show that microglial GPR56 maintains appropriate synaptic numbers in several brain regions in a time- and circuit-dependent fashion. Phosphatidylserine (PS) on presynaptic elements binds GPR56 in a domain-specific manner, and microglia-specific deletion of Gpr56 leads to increased synapses as a result of reduced microglial engulfment of PS+ presynaptic inputs. Remarkably, a particular alternatively spliced isoform of GPR56 is selectively required for microglia-mediated synaptic pruning. Our present data provide a ligand- and isoform-specific mechanism underlying microglial GPR56-mediated synapse pruning in the context of complex neurodevelopmental processes.Avian semen dilution with appropriate extender allows to prolong the fertilizing ability of sperm stored in vitro. In the present study, the impact of extenders and time of storage on morphology of Muscovy duck (Cairina moschata) drake semen were examined. Semen was collected twice a week, using male stimulation by a female method, from 12 adults (29 weeks old) drakes kept individually in cages, under controlled environmental conditions. learn more Freshly collected, pooled ejaculates were divided into three part neat undiluted sample, and diluted 11 with Schramm (SCH) or Watanabe (W) extender and stored at 4°C. Morphological examination of all samples was conducted after dilution and then, after 3 and 6 hr of storage. The storage of undiluted semen caused decrease (p ≤ .01) in live morphologically normal sperm, from 79.73% in the freshly collected ejaculates to 55.75% and to 12.12% after 3 and 6 hr of storage, respectively (average calculated for the entire reproductive season). In the semen diluted with Schramm’s extender the adequate values attained 86.84, 79.65 and 61.66%, and using Watanabe extender 84.77, 83.58 and 75.25%, respectively. The period of semen storage and the type of extender caused significant (p ≤ 0,05; p ≤ 0,01) changes in sperm morphology. The longer period of storage contributed to the decrease in number of morphologically normal sperm, whereas their content in Watanabe extender after 3 and 6 hr of storage was higher (p ≤ .01) than in semen diluted in Schramm extender.Micropunch grafting is the simplest surgical intervention for refractory vitiligo but is tedious and time-consuming. Therefore, we aimed to verify the efficacy and safety of dermal orientation grafting using motorized 0.5-mm micropunch grafting for vitiligo. In a preliminary animal study, 12-week-old rats were used to observe the healing process after the transplantation of dermal orientation grafts with various punch sizes. In a clinical trial, a total of 100 vitiligo patches in 50 patients with stable vitiligo were randomly allocated to motorized 0.5-mm micropunch grafting in epidermal and dermal orientations, respectively. The grafts were implanted at intervals of 5 mm at the recipient site. Treatment success was defined as greater than 75% repigmentation. In the animal study, all grafts were shown to be well integrated into the recipient site within 3 weeks. In the clinical trial, treatment success was achieved in 72% and 76% of the epidermal and dermal orientation groups, respectively; a cobblestone appearance was observed in 4% and 2%, respectively. In conclusion, we demonstrated that this new grafting method irrespective of epidermal-dermal orientation using motorized 0.5-mm micropunch grafting was effective and safe. We have named this the “skin seeding technique” and it differs from traditional punch grafting in that it can be performed regardless of the graft orientation.