Medicine and Health Sciences Commons^™

Use Of Pre-Transplant Cmi To Predict Infection And Mortality Post-Cardiac Transplantmortality Post-Cardiac Transplant, Chetaj A. Mahabir

Theses & Dissertations

This paper discusses a study investigating the relationship between the cell-mediated immunity (CMI) level before cardiac transplant and the incidence of infection and mortality after the transplant. CMI is an important measure of a person's immune system. The study included 126 patients who underwent cardiac transplants between September 2011 and January 2020. Out of these, 21 patients had a low CMI level (<225), and 105 had a high CMI level (≥ 225) before transplant. The mean CMI level in the low CMI group was 175.3, while in the high CMI group, it was 479.9. The two groups were similar except for the lower white cell count and cardiac output in the CMI< 225 groups and the higher Caucasian demographic in the CMI≥ 225 groups. The study concludes that patients with lower CMI levels before cardiac transplant have a higher risk of infection (p=0.052) and mortality (p=0.005) one year after the transplant. The risk of dying for patients with CMI <225 is 12.9 times the risk of dying for patients with CMI ≥ 225 after adjusting for the other covariates in the model. However, this study has some limitations including its retrospective nature, small sample size, and single-center design. Further studies are needed to replicate these findings and investigate the optimal immunosuppressive regimens based on baseline CMI levels.

Exploring Epigenetic Reprogramming During Central Nervous System Infection, Zachary Van Roy, Tammy Kielian

Journal Articles: Pathology and Microbiology

Epigenetics involves the study of various modes of adaptable transcriptional regulation, contributing to cell identity, characteristics, and function. During central nervous system (CNS) infection, epigenetic mechanisms can exert pronounced control over the maturation and antimicrobial properties of nearly every immune cell type. Epigenetics is a relatively new field, with the first mention of these marks proposed only a half-century ago and a substantial body of immunological epigenetic research emerging only in the last few decades. Here, we review the best-characterized epigenetic marks and their functions as well as illustrate how various immune cell populations responding to CNS infection utilize these …

Evaluation Of Stratified Antibiograms For Use In Laboratory And Antimicrobial Stewardship, Linsey Donner

Theses & Dissertations

Antibiograms are critical for choosing empiric antimicrobial therapy. Cumulative antibiograms, which aggregate susceptibility data, can mask differences within specific patient subsets or clinical syndromes. This dissertation was done to determine if antibiotic susceptibilities showed substantial differences when comparing stratified antibiograms to cumulative antibiograms.

Antibiotic susceptibility data was retrospectively obtained from Nebraska Medicine January 1, 2017 – December 31, 2019 for Escherichia coli, Pseudomonas aeruginosa, Klebsiella pneumoniae, Staphylococcus aureus, and Enterococcus faecalis. The University of Nebraska Medical Center’s web antibiogram clinical decision support tool was used to export the data. Bacteria-antibiotic susceptibility rates of stratified antibiograms …

The Prospect Of Nanoparticle Systems For Modulating Immune Cell Polarization During Central Nervous System Infection, Lee E. Korshoj, Wen Shi, Bin Duan, Tammy Kielian

Journal Articles: Pathology and Microbiology

The blood-brain barrier (BBB) selectively restricts the entry of molecules from peripheral circulation into the central nervous system (CNS) parenchyma. Despite this protective barrier, bacteria and other pathogens can still invade the CNS, often as a consequence of immune deficiencies or complications following neurosurgical procedures. These infections are difficult to treat since many bacteria, such as Staphylococcus aureus, encode a repertoire of virulence factors, can acquire antibiotic resistance, and form biofilm. Additionally, pathogens can leverage virulence factor production to polarize host immune cells towards an anti-inflammatory phenotype, leading to chronic infection. The difficulty of pathogen clearance is magnified by …