The study of animal cells through combination of numerical analysis and variousmagnetic microfluidics systems.

Kim, James

22 September 2020

No description available.

Chemical Engineering

Design and Engineering of Microfluidic Imaging Systems for Single-Cell Level Mechanobiology and Biophysics Studies of Blood Cells

Goreke, Utku

January 2022

No description available.

Biomedical Engineering

Biophysics

Biomechanics

Mechanobiology

Biophysics

Blood cells

Microfluidics

Single-Cell

Adhesion

Density

Motility

Analytical-based Methods for Studying the Interaction of Human Red Blood Cells with Noble Metal Nanoparticles

Alla, Praveen Kumar

25 May 2022

No description available.

Environmental Science

Silver Nanoparticles

Gold nanorods

Glutathione

Cholesterol

Red blood cells

Using Red Blood Cells in Microbial Fuel Cell Catholyte Solution to Improve Electricity Generation

Wang, Ying-Chin

29 September 2014

No description available.

Energy

Biomedical Engineering

Agricultural Engineering

CHARACTERIZATION OF LIGHT SICKLE ERYTHROCYTES DERIVED FROM DENSE ERYTHROCYTES IN VITRO

HOLTZCLAW, JOHN DAVID

11 October 2001

No description available.

Engineering, Aerospace

sickle cell

erythrocyte rehydration

cation transfer

red blood cells

oxy/deoxy cycling

THE EFFECTS OF JP-8 JET FUEL ON THE IMMUNE SYSTEM OF TANK ENTRY WORKERS

Rhodes, Audry Gayle

11 October 2001

No description available.

JP-8

JET FUEL

HEALTH EFFECTS

IMMUNE SYSTEM

WHITE BLOOD CELLS

Microluidic Sorting of Blood Cells by Negative Selection

Gao, Hua

January 2016

No description available.

Biomedical Research

Microfluidic cell sorter

Inertial Microfluidics

Negative Selection

Immunoselection

Blood cells sorting

passive inertial microfluidic

The interplay between a dietary preference for fat and sugar, gene expression in the dopaminergic system and executive cognition in humans

Ullmann, geb. Rausch, Franziska

01 August 2022

Obesity is a health issue of both individual and global importance. Evidence from rodent literature suggests that dietary preferences for fat and sugar might influence dopaminergic signaling in the brain and thus executive cognition. These diet-related changes could provide a mechanistic basis potentially explaining obesity-promoting behaviour. However, valid evidence for this link in humans is still scarce. This thesis aimed to add to this gap by studying dopamine-related gene expression profiles in peripheral cells and executive cognition in a human sample (n = 75). The results provide indications for an association between dietary preference and alterations in dopamingeric sigaling on a peripheral gene expression level even though the group differences were not statistically significant. A link to cognition could not be established with the methods applied. Yet, several targets for future research are suggested to further explore this interplay.

info:eu-repo/classification/ddc/610

ddc:610

Genomics-Based Analysis of Antibody Response to Sheep Red Blood Cells in Chickens

Geng, Tuoyu

01 June 2007

Immune response provides vertebrates an important mechanism to fight pathogens and to reduce the incidence of diseases. Defining the molecular basis of antibody response may facilitate genetic improvement in the immune response of animals to pathogens. For almost 4 decades, antibody titers in response to challenge by sheep red blood cells (anti-SRBC) have provided an investigative tool in the efforts to define molecular mechanisms that underlie vertebrate immune response. The overall objective of this dissertation research was to identify DNA markers associated with anti-SRBC response in chickens. Specific objectives were: to develop a resource population for QTL analysis for anti-SRBC, to identify DNA markers and genes associated with primary anti-SRBC, and to evaluate the allelic frequencies in non-selected chicken populations of candidate markers associated with either high or low anti-SRBC response. These objectives tested the hypothesis that genetic control of a chicken's response to SRBC is polygenic. The resource population developed consisted of F1, backcross, and F2 derived from reciprocal crosses of birds from parental lines in the 28th generation of divergent selection for low (L) and high (H) anti-SRBC. The mean anti-SRBC titers of the parental lines were significantly different, with 11.5 for H and 2.6 for L (P<0.05). That for the 4 groups of F2 progeny ranged from 6.3 to 7.5, while those of the 8 groups of backcross progeny ranged from 3.9 to 13.3. Four of 555 random primers used to screen the parental H and L anti-SRBC lines were informative by amplifying seven line-specific fragments (P<0.0025). Each of the 7 line-specific fragments was converted to a sequence characterized amplified region (SCAR) within which single nucleotide polymorphisms (SNPs) were identified and tested for association with anti-SRBC. Only two of the seven SCARs in the parental lines were associated (P<0.05) with anti-SRBC level in the backcross resource population. Additionally, from analysis of the parental L and H anti-SRBC lines using microarrays, a total of 57 line-specific SNPs were also identified. Twenty of the line-specific SNPs were in and/or near genes previously reported to have immunity-related function. Microarray-based gene expression profiling of pooled RNA samples from L and H anti-SRBC birds identified three differentially expressed genes. In summary, this dissertation describes resources that include candidate SCARs and SNPs as well as differentially expressed genes that may be useful for the identification of genes that underlie antibody response. / Ph. D.

Gallus gallus

quantitative trait locus

Exprese a funkce buněčného prionového proteinu na krevních buňkách / Expression and function of cellular prion protein in blood cells

Glier, Hana

January 2012

The cellular prion protein (PrPc) is essential for pathogenesis of fatal neurodegenerative prion diseases. Recently reported four cases of vCJD transmission by blood transfusion raise concerns about the safety of blood products. Proper understanding of PrPc in blood is necessary for development of currently unavailable blood screening tests for prion diseases. Flow cytometry is an attractive method for prion detection, however, the reports on the quantity of PrPc on human blood cells are contradictory. We showed that the majority of PrPc in resting platelets is present in the intracellular pool and is localized in α-granules. We demostrated that both, human platelets and red blood cells (RBC) express significant amount of PrPc and thus may play an important role in the transmission of prions by blood transfusion. Our results suggest a unique modification of PrPc on human RBC. Such modification of pathological prion protein could distort the results of blood screening tests for prions. Further we showed that the storage of blood prior to analysis and the choice of anti-prion antibody greatly affect the detection of PrPc by flow cytometry and we identified platelet satellitism as a factor contributing to the heterogeneity of PrPc detection in blood cells. Moreover, we demonstrated existence of...