01968nam 2200349 450 991068815790332120230625151647.0(CKB)5580000000514478(NjHacI)995580000000514478(EXLCZ)99558000000051447820230625d2022 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierBlood groups more than inheritance of antigenic substances /Kaneez Fatima Shad, editorLondon :IntechOpen,2022.1 online resource (144 pages)1-83969-904-3 Includes bibliographical references.Every cell in our body including red blood cells is covered with special markers called antigens, a substance that triggers the immune system response. Millions of antigens are present on the membrane of red blood cells and are ignored by the immune system because they are self-antigens. However, if a person receives a transfusion of blood that contains different antigens from their own blood, there will be a severe and immediate attack by the cells of the immune system. Therefore, it is important to use the patient's same blood group for the transfusion. The blood group antigens not only perform a critical role in the function of cells but can also be used by viruses to gain access into the cells. This book includes nine chapters on different blood group antigens and their activities behind the scenes. Chapters address blood antigens and their association with cardiovascular diseases, thromboembolic diseases, malaria, and many other diseases and infections.Blood group antigensBlood group antigens.616.0792Shad Kaneez FatimaNjHacINjHaclBOOK9910688157903321Blood Groups2134705UNINA03980nam 2200541 450 991079031070332120230725033639.03-03813-333-7(CKB)2670000000229277(EBL)1872444(Au-PeEL)EBL1872444(CaPaEBR)ebr10814310(OCoLC)897640395(MiAaPQ)EBC1872444(EXLCZ)99267000000022927720111101h20102010 uy| 0engur|n|---|||||rdacontentrdamediardacarrierExtending the reach of powder diffraction modelling by user defined macros special topic volume with invited peer reviewed papers only /edited by: Paolo Scardi and Robert E. DinnebierStafa-Zurich, Switzerland ;Enfield, New Hampshire :Trans Tech,2010.©20101 online resource (222 p.)Materials science forum,0255-5476 ;volume 651Description based upon print version of record.0-87849-261-5 Includes bibliographical references and index.Extending the Reach of Powder Diffraction Modelling; Preface; Table of Contents; Advanced Input Files & Parametric Quantitative Analysis Using Topas; Problem Solving with the TOPAS Macro Language: Corrections and Constraints in Simulated Annealing and Rietveld Refinement; Robust Refinement as Implemented in TOPAS; In Situ Diffraction Studies: Thermal Decomposition of a Natural Plumbojarosite and the Development of Rietveld-Based Data Analysis TechniquesMolecular Motion by Refinement of TLS Matrices from High Resolution Laboratory Powder Diffraction Data: Implementation in the Program TOPAS and Application to Crystalline NaphthaleneSimulated Annealing Approach for Global Minimum Verification in Modeling of Pressure-Volume Dependence by Equations of State Obtained by High-Pressure Diffraction; Direct Access to the Order Parameter: Parameterized Symmetry Modes and Rigid Body Movements as a Function of Temperature; "Powder 3D Parametric"- A program for Automated Sequential and Parametric Rietveld Refinement Using TopasMEM Calculations on Apatites Containing Peroxide Using BAYMEM and TOPASProtein Powder Diffraction Analysis with TOPAS; Composition-Induced Microstrain Broadening: From Pattern Decomposition to whole Powder Pattern Modelling Procedures; WPPM: Microstructural Analysis beyond the Rietveld Method; WPPM: Advances in the Modeling of Dislocation Line Broadening; Domain Size Analysis in the Rietveld Method; The Application of the Fundamental Parameters Approach as Implemented in TOPAS to Divergent Beam Powder Diffraction Data; Keywords Index; Authors IndexThe main focus of this special topic volume is the development and possibilities of the MACRO language within TOPAS, with a specific session dedicated to WPPM. The collection is presented here in the form of a ""macro tutorial"" for the benefit of the entire powder diffraction community. More than a collection of standard scientific papers, the contributions to this special issue provide methods, tutorials and practical suggestions and solutions for the proper use of TOPAS and WPPM in a number of applications; ranging from the most common to the most refined and specific cases. Readers will fiMaterials science forum ;v. 651.DiffractionMathematicsDiffractionComputer simulationDiffractionMathematics.DiffractionComputer simulation.535/.42028551Scardi P(Paolo)1508523Dinnebier Robert E1092311MiAaPQMiAaPQMiAaPQBOOK9910790310703321Extending the reach of powder diffraction modelling by user defined macros3739928UNINA