This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Białowąs D., Kemona H., Prokopowicz J.: Bactericidal capability of blood platelets in eutrophic newborns. Haematol., 1995; 27: 47–50BiałowąsD.KemonaH.ProkopowiczJ.Bactericidal capability of blood platelets in eutrophic newbornsHaematol.1995274750Search in Google Scholar
Bont L., Kimpen J.L.: Immunological mechanisms of severe respiratory syncytial virus bronchiolitis. Intensive Care Med., 2002; 28: 616–621BontL.KimpenJ.L.Immunological mechanisms of severe respiratory syncytial virus bronchiolitisIntensive Care Med.20022861662110.1007/s00134-002-1256-z12029411Search in Google Scholar
Chiesa C., Signore F., Assumma M., Buffone E., Tramontozzi P., Osborn J.F., Pacifico L.: Serial measurements of C-reactive protein and interleukin-6 in the immediate postnatal period: Reference intervals and analysis of maternal and perinatal confounders. Clin. Chem., 2001; 47: 1016–1022ChiesaC.SignoreF.AssummaM.BuffoneE.TramontozziP.OsbornJ.F.PacificoL.Serial measurements of C-reactive protein and interleukin-6 in the immediate postnatal period: Reference intervals and analysis of maternal and perinatal confoundersClin. Chem.2001471016102210.1093/clinchem/47.6.1016Search in Google Scholar
Currie A.J., Curtis S., Strunk T., Riley K., Liyanage K., Prescott S., Doherty D., Simmer K., Richmond P., Burgner D.: Preterm infants have deficient monocyte and lymphocyte cytokine responses to group B Streptococcus. Infect. Immun., 2011; 79: 1588–1596CurrieA.J.CurtisS.StrunkT.RileyK.LiyanageK.PrescottS.DohertyD.SimmerK.RichmondP.BurgnerD.Preterm infants have deficient monocyte and lymphocyte cytokine responses to group B StreptococcusInfect. Immun.2011791588159610.1128/IAI.00535-10306755421300777Search in Google Scholar
Gaertner F., Ahmad Z., Rosenberger G., Fan S., Nicolai L., Busch B., Yavuz G., Luckner M., Ishikawa-Ankerhold H., Hennel R., Benechet A., Lorenz M., Chandraratne S., Schubert I., Helmer S., et al.: Migrating platelets are mechano-scavengers that collect and bundle bacteria. Cell, 2017; 171: 1368–1382GaertnerF.AhmadZ.RosenbergerG.FanS.NicolaiL.BuschB.YavuzG.LucknerM.Ishikawa-AnkerholdH.HennelR.BenechetA.LorenzM.ChandraratneS.SchubertI.HelmerS.Migrating platelets are mechano-scavengers that collect and bundle bacteriaCell20171711368138210.1016/j.cell.2017.11.00129195076Search in Google Scholar
Glasser L., Sutton N., Schmeling M., Machan J.T.: A comprehensive study of umbilical cord blood cell developmental changes and reference ranges by gestation, gender and mode of delivery. J. Perinatol., 2015; 35: 469–475GlasserL.SuttonN.SchmelingM.MachanJ.T.A comprehensive study of umbilical cord blood cell developmental changes and reference ranges by gestation, gender and mode of deliveryJ. Perinatol.20153546947510.1038/jp.2014.24125634517Search in Google Scholar
Jones S.A., Scheller J., Rose-John S.: Therapeutic strategies for the clinical blockade of IL-6/gp130 signaling. J. Clin. Invest., 2011; 121: 3375–3383JonesS.A.SchellerJ.Rose-JohnS.Therapeutic strategies for the clinical blockade of IL-6/gp130 signalingJ. Clin. Invest.20111213375338310.1172/JCI57158316396221881215Search in Google Scholar
Kalyoncu O., Aygün C., Cetinoğlu E., Kucukoduk S.: Neonatal morbidity and mortality of late-preterm babies. J. Matern. Fetal Neonatal Med., 2010; 23: 607–612KalyoncuO.AygünC.CetinoğluE.KucukodukS.Neonatal morbidity and mortality of late-preterm babiesJ. Matern. Fetal Neonatal Med.20102360761210.3109/14767050903229622Search in Google Scholar
Kemona H., Andrzejewska A., Prokopowicz J., Nowak H., Mantur M.: Phagocytic activity of human blood platelets examined by electron microscopy. Folia Haematol., 1986; 113: 696–702KemonaH.AndrzejewskaA.ProkopowiczJ.NowakH.ManturM.Phagocytic activity of human blood platelets examined by electron microscopyFolia Haematol.1986113696702Search in Google Scholar
Ko H.S., Jang Y.R., Yun H., Wie J., Choi S.K., Park W.Y., Shin J.C.: Late-preterm infants, early-term infants, and timing of elective deliveries; current status in a Korean medical center. J. Matern. Fetal Neonatal Med., 2017; 22: 1–8KoH.S.JangY.R.YunH.WieJ.ChoiS.K.ParkW.Y.ShinJ.C.Late-preterm infants, early-term infants, and timing of elective deliveries; current status in a Korean medical centerJ. Matern. Fetal Neonatal Med.2017221810.1080/14767058.2017.140456429130825Search in Google Scholar
Mankin P., Maragos J., Akhand M., Saving K.L.: Imparied platelet – dense granule release in neonates. J. Pediatr. Hematol. Oncol., 2000; 22: 143–147MankinP.MaragosJ.AkhandM.SavingK.L.Imparied platelet – dense granule release in neonatesJ. Pediatr. Hematol. Oncol.20002214314710.1097/00043426-200003000-0001210779028Search in Google Scholar
Mantur M., Wołosowicz N., Prokopowicz J., Kemona H.: System for testing the phagocytic capacity of human blood platelets. Folia Haemotol. Int. Mag. Klin. Morphol. Blutforsch, 1986; 113: 691–695ManturM.WołosowiczN.ProkopowiczJ.KemonaH.System for testing the phagocytic capacity of human blood plateletsFolia Haemotol. Int. Mag. Klin. Morphol. Blutforsch1986113691695Search in Google Scholar
Matowicka-Karna J., Kamocki Z., Kemona H.: Assessment of platelet activation and phagocytic activity in gastric cancer patients. World J. Gastrointest. Pathophysiol., 2013; 4: 12–17Matowicka-KarnaJ.KamockiZ.KemonaH.Assessment of platelet activation and phagocytic activity in gastric cancer patientsWorld J. Gastrointest. Pathophysiol.20134121710.4291/wjgp.v4.i1.12362783423596550Search in Google Scholar
Oygur N., Tunga M., Mumcu Y., Yesilipek A., Gura A., Coskun M., Yegin O.: Thrombopoietin levels of thrombocytopenic term and preterm newborns with infection. Am. J. Perinatol., 2001; 18: 279–286OygurN.TungaM.MumcuY.YesilipekA.GuraA.CoskunM.YeginO.Thrombopoietin levels of thrombocytopenic term and preterm newborns with infectionAm. J. Perinatol.20011827928610.1055/s-2001-16990Search in Google Scholar
Picone S., Paolillo P.: Neonatal outcomes in a population of late-preterm infants. J. Matern. Fetal Neonatal Med., 2010; 23: 116–120PiconeS.PaolilloP.Neonatal outcomes in a population of late-preterm infantsJ. Matern. Fetal Neonatal Med.20102311612010.3109/14767058.2010.509921Search in Google Scholar
Saving K.L., Jennings D.E., Aldag J.C., Caughey R.C.: Platelet ultrastructure of high-risk premature infants. Thromb. Res., 1994; 73: 371–384SavingK.L.JenningsD.E.AldagJ.C.CaugheyR.C.Platelet ultrastructure of high-risk premature infantsThromb. Res.19947337138410.1016/0049-3848(94)90039-6Search in Google Scholar
Schrijver I.T., Kemperman H., Roest M., Kesecioglu J., de Lange D.W.: Soluble P-selectin as a biomarker for infection and survival in patients with a systemic inflammatory response syndrome on the intensive care unit. Biomark. Insights, 2017; 12: 1177271916684823SchrijverI.T.KempermanH.RoestM.KeseciogluJ.de LangeD.W.Soluble P-selectin as a biomarker for infection and survival in patients with a systemic inflammatory response syndrome on the intensive care unitBiomark. Insights201712117727191668482310.1177/1177271916684823534594828469394Search in Google Scholar
Sitaru A.G., Holzhauer S., Speer C.P., Singer D., Obergfell A., Walter U., Grossmann R.: Neonatal platelets from cord blood and peripheral blood. Platelets, 2005; 16: 203–210SitaruA.G.HolzhauerS.SpeerC.P.SingerD.ObergfellA.WalterU.GrossmannR.Neonatal platelets from cord blood and peripheral bloodPlatelets20051620321010.1080/0953710040001686216011965Search in Google Scholar
Sola-Visner M.: Platelets in the neonatal period: developmental differences in platelet production, function, and hemostasis and the potential impact of therapies. Hematol. Am. Soc. Hematol. Educ. Prog., 2012; 506–511Sola-VisnerM.Platelets in the neonatal period: developmental differences in platelet production, function, and hemostasis and the potential impact of therapiesHematol. Am. Soc. Hematol. Educ. Prog.201250651110.1182/asheducation.V2012.1.506.3798532Search in Google Scholar
Urban D., Pluthero F.G., Christensen H., Baidya S., Rand M.L., Das A., Shah P.S., Chitayat D., Blanchette V.S., Kahr W.H.: Decreased numbers of dense granules in fetal and neonatal platelets. Haematologica, 2017; 102: e36–e38UrbanD.PlutheroF.G.ChristensenH.BaidyaS.RandM.L.DasA.ShahP.S.ChitayatD.BlanchetteV.S.KahrW.H.Decreased numbers of dense granules in fetal and neonatal plateletsHaematologica2017102e36e3810.3324/haematol.2016.152421528695027810994Search in Google Scholar
Wasiluk A.: Markers of platelets activation, CD 62P and soluble P-selectin in healthy term neonates. J. Perinat. Med., 2004; 32: 514–515WasilukA.Markers of platelets activation, CD 62P and soluble P-selectin in healthy term neonatesJ. Perinat. Med.20043251451510.1515/JPM.2004.12315576273Search in Google Scholar
Wasiluk A.: The effect of gestational age on platelet surface expression of CD62P in preterm newborns. Platelets, 2008; 19: 236–38WasilukA.The effect of gestational age on platelet surface expression of CD62P in preterm newbornsPlatelets2008192363810.1080/0953710070188204618432525Search in Google Scholar
Wasiluk A., Mantur M., Kemona-Chetnik I., Szczepanski M., Warda J., Bochenko-Luczynska J.: Does prematurity affect thrombocytopoiesis? Platelets, 2007; 18: 424–427WasilukA.ManturM.Kemona-ChetnikI.SzczepanskiM.WardaJ.Bochenko-LuczynskaJ.Does prematurity affect thrombocytopoiesis?Platelets20071842442710.1080/0953710070120681617763151Search in Google Scholar
Wasiluk A., Polewko A., Laudanski P., Redzko S., Kicel-Wesolowska B., Dabrowska M., Milewski R.: Platelet indices in late pre-term newborns. J. Matern. Fetal Neonatal Med., 2017; 30: 1699–1703WasilukA.PolewkoA.LaudanskiP.RedzkoS.Kicel-WesolowskaB.DabrowskaM.MilewskiR.Platelet indices in late pre-term newbornsJ. Matern. Fetal Neonatal Med.2017301699170310.1080/14767058.2016.122251927628188Search in Google Scholar
Wasiluk A., Radziwoń P.: Transfusion of platelet concentrate for treatment of neonatal thrombocytopenia use – current state of knowledge. Postępy Neonatologii, 2017; 1: 1–6WasilukA.RadziwońP.Transfusion of platelet concentrate for treatment of neonatal thrombocytopenia use – current state of knowledgePostępy Neonatologii2017116Search in Google Scholar
Wiedmeier S.E., Henry E., Sola-Visner M. C., Christensen R.D.: Platelet reference ranges for neonates, defined using data from over 47,000 patients in a multihospital healthcaresystem. J. Perinatol., 2009; 29: 130–136WiedmeierS.E.HenryE.Sola-VisnerM. C.ChristensenR.D.Platelet reference ranges for neonates, defined using data from over 47,000 patients in a multihospital healthcaresystemJ. Perinatol.20092913013610.1038/jp.2008.14118818663Search in Google Scholar
Yang K.D., Wang C.L., Huang L.T., Chang H., Huang H.C., Hsu T.Y., Ou C.Y.: Implication of cord blood myeloperoxidase but not of soluble p-selectin levels in preterm deliveries. J. Perinat. Med., 2004; 32: 49–52YangK.D.WangC.L.HuangL.T.ChangH.HuangH.C.HsuT.Y.OuC.Y.Implication of cord blood myeloperoxidase but not of soluble p-selectin levels in preterm deliveriesJ. Perinat. Med.200432495210.1515/JPM.2004.00815008386Search in Google Scholar
Yang Y.C., Mao J.: Value of platelet count in the early diagnosis of nosocomial invasive fungal infections in premature infants. Platelets, 2018; 29: 65–70YangY.C.MaoJ.Value of platelet count in the early diagnosis of nosocomial invasive fungal infections in premature infantsPlatelets201829657010.1080/09537104.2017.129381028374642Search in Google Scholar