2022
The Effects of Chemotherapy on Circulating Plasma Omega-9, Omega-3 Fatty Acids and Plasmalogen in Breast Cancer Patients
Bennouna D, Orchard T, Lustberg M, Kopec R. The Effects of Chemotherapy on Circulating Plasma Omega-9, Omega-3 Fatty Acids and Plasmalogen in Breast Cancer Patients. Current Developments In Nutrition 2022, 6: 6009237. PMCID: PMC9193887, DOI: 10.1093/cdn/nzac052.004.Peer-Reviewed Original ResearchPlasma concentrationsCognitive impairmentLong-term cognitive impairmentNutritional targetsDocosahexaenoic acidNervonic acidEicosapentaenoic acidOmega-3 fatty acidsNeo-adjuvant chemotherapyBreast cancer patientsEffect of chemotherapyBreast cancer chemotherapyFatty acidsBreast cancer treatmentHippocampal concentrationsDietary interventionSolid tumor treatmentCancer patientsChemotherapy treatmentFatty acid concentrationsObjective biomarkersBreast cancerImpact of visitsChemotherapyMead acid
2021
The Effects of Chemotherapy on Circulating Plasma Carotenoids and Fat-Soluble Vitamins in Breast Cancer Patients
Bennouna D, Orchard T, Lustberg M, Kopec R. The Effects of Chemotherapy on Circulating Plasma Carotenoids and Fat-Soluble Vitamins in Breast Cancer Patients. Current Developments In Nutrition 2021, 5: 70. PMCID: PMC8180829, DOI: 10.1093/cdn/nzab034_004.Peer-Reviewed Original ResearchFat-soluble vitaminsNSAID useMultivitamin useNon-steroidal anti-inflammatory drug useAnti-inflammatory drug useNeo-adjuvant chemotherapyBreast cancer patientsPro-inflammatory cytokinesEffect of chemotherapyFat-soluble vitamin concentrationsBreast cancer chemotherapyMethods Serum samplesFree-living patientsChemotherapy commencementSerum luteinSerum retinolCancer patientsSerum concentrationsChemotherapy treatmentInflammatory processBreast cancerMerit further investigationChemotherapyPlasma carotenoidsDrug use
2017
Circulating myeloid-derived suppressor cells increase in patients undergoing neo-adjuvant chemotherapy for breast cancer
Wesolowski R, Duggan M, Stiff A, Markowitz J, Trikha P, Levine K, Schoenfield L, Abdel-Rasoul M, Layman R, Ramaswamy B, Macrae E, Lustberg M, Reinbolt R, Mrozek E, Byrd J, Caligiuri M, Mace T, Carson W. Circulating myeloid-derived suppressor cells increase in patients undergoing neo-adjuvant chemotherapy for breast cancer. Cancer Immunology, Immunotherapy 2017, 66: 1437-1447. PMID: 28688082, PMCID: PMC5647220, DOI: 10.1007/s00262-017-2038-3.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAntineoplastic Combined Chemotherapy ProtocolsBlack or African AmericanBreast NeoplasmsCell CountChemotherapy, AdjuvantCyclophosphamideCytokinesDoxorubicinFemaleGranulocytesHumansMiddle AgedMonocytesMyeloid-Derived Suppressor CellsNeoadjuvant TherapyPaclitaxelPilot ProjectsTreatment OutcomeWhite PeopleConceptsMyeloid-derived suppressor cellsPathologic complete responseG-MDSC levelsNeo-adjuvant chemotherapyG-MDSCSuppressor cellsComplete responseAnti-HER2 therapyPeripheral blood levelsBreast cancer patientsAfrican American patientsBreast cancer typesCyclophosphamide therapyBlood levelsCancer patientsLast administrationAmerican patientsBreast cancerPatientsFlow cytometryCancer typesChemotherapySignificant riseConfidence intervalsCycle 1Effect of neoadjuvant chemotherapy on immune checkpoint expression in breast cancer.
Stiff A, McQuinn C, Wesolowski R, Lustberg M, Reinbolt R, VanDeusen J, Sardesai S, Williams N, Noonan A, Dewani S, Ramaswamy B, Carson W. Effect of neoadjuvant chemotherapy on immune checkpoint expression in breast cancer. Journal Of Clinical Oncology 2017, 35: e12126-e12126. DOI: 10.1200/jco.2017.35.15_suppl.e12126.Peer-Reviewed Original ResearchNeo-adjuvant chemotherapyCD8 T cellsCD4 T cellsMore CD8 T cellsT cellsBreast cancerReceptor expressionCheckpoint inhibitorsCheckpoint expressionComplete pathologic response rateMore CD4 T cellsHormone receptorsPathologic response rateClinical stage IOperable breast cancerImmune checkpoint expressionReceptor expression changesBC subgroupsNeoadjuvant chemotherapyClinical responseProspective trialImmune checkpointsMedian agePD-1CTLA-4