TY - THES A1 - Bahlke, Katrin T1 - Wachstumsverhalten, Chemo- und Radiosensitivität ausgewählter Brustkrebszellen werden durch Betahydroxybutyrat nicht beeinflusst. T1 - Proliferation, chemo- and radiosensitivity of selected breast cancer cells are not influenced by Beta-hydroxybutyrate. N2 - Brustkrebs ist die häufigste maligne Erkrankung der Frau. Die Therapie setzt sich in der Regel individuell aus den Bausteinen der chirurgischen Tumorexzision, der Bestrahlung und der systemischen Therapie zusammen. Daneben gewinnt die ketogene Diät als supportiver Therapieansatz immer mehr an Aufmerksamkeit und Forschungsinteresse. Diese Ernährungsform imitiert durch starke Restriktion der Kohlenhydratzufuhr den Fastenstoffwechsel, da Blutzucker- und konsekutiv auch Insulinspitzen im Blut vermieden werden. Eine tragende Rolle kommt dabei der Bildung von Ketonkörpern, allen voran Betahydroxybutyrat, zu, die sowohl in den Tumorstoffwechsel als auch in immunologische Prozesse eingreifen können. In dieser Arbeit wurde ausgewählten Brustkrebszellen 3 mM Betahydroxybutyrat zugesetzt und ihr Wachstumsverhalten, ihre Chemo- und Radiosensitivität im Vergleich zu Kontrollzellen erfasst. Die Kontrollzellen wurden identisch behandelt, jedoch wurde Ihnen kein Betahydroxybutyrat zugefügt. Es zeigte sich dabei kein statistisch signifikanter Unterschied zwischen den beiden Zellgruppen. N2 - Breast cancer is the most common malignant disease in women. The therapy usually includes surgical tumor excision, radiation and systemic therapy. In addition, the ketogenic diet is gaining more and more attention as a supportive therapeutic approach. This form of nutrition mimics the fasting metabolism by strongly restricting the carbohydrate intake, since peaks in blood glucose levels and consequently in insulin levels are avoided. The formation of ketone bodies, especially Beta-hydroxybutyrate, plays a key role in this, since ketone bodies can intervene both in tumor metabolism and in immunological processes. In our experiment, selected breast cancer cells were treated with 3 mM Beta-hydroxybutyrate and their proliferation, chemo- and radiosensitivity compared to control cells were examined. Control cells were treated identically but were not exposed to Beta-hydroxybutyrate. It can be stated that there was no statistically significant difference between the two groups. KW - Ketogene Kost KW - Brustkrebs KW - Strahlensensibilität KW - Hydroxybutyrat <3-> KW - Ketogene Diät KW - Chemosensititvität KW - Radiosensitivität Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-238666 ER - TY - THES A1 - Winkler, Jana T1 - Einfluss von D-β-Hydroxybutyrat auf Stoffwechsel und Interaktion mit Chemo-/Strahlentherapie bei triple negativen Mamma-Karzinom Zellen T1 - The effect of D-ß-Hydroxybutyrat on metabolism and proliferation in combination with Chemotherapy / Radiation on triple negativ breast cancer N2 - Das triple negative Mamma-Karzinom stellt eine Tumorart dar, welche besonders junge Frauen betrifft und eine schlechte Prognose aufweist. Unterstützende und pro- gnoseverbessernde Therapien sind deshalb Gegenstand aktueller Forschung. Eine mögliche unterstützende Therapie stellt hierbei die ketogene Diät dar. Diese Arbeit untersuchte die Fragestellung, ob β-Hydroxybutyrat (3OHB), welches als Hauptme- tabolit unter ketogener Diät oder beim Fasten erhöht ist, Einfluss auf das Zellwachs- tum triple-negativer Brustkrebszellen ausübt. Außerdem wurde eruiert, ob 3OHB die üblichen Behandlungsformen - Chemotherapie und Strahlentherapie - positiv oder negativ beeinflusst. In vitro wurden Versuche mit drei triple-negativen Brust- krebszellreihen unter möglichst physiologischen Bedingungen durchgeführt. Hierbei konnte durch 3OHB weder ein wachstumsfördernder noch ein wachstumshemmender Effekt beobachtet werden. Genauso zeigte sich bei den Chemo- oder Strahlenthera- pieversuchen keine durch 3OHB induzierte Wechselwirkung. In vivo durchgeführte Studien über den Einfluss einer ketogenen Diät finden sich nur vereinzelt. Um be- lastbare Daten zu erhalten werden deshalb weitere Studien in Zukunft vonnöten sein. Eine ketogene Diät könnte hierbei im Rahmen eines multimodalen Therapie- konzeptes eine unterstützende Rolle spielen, wofür erste Einzelfallstudien Hinweise geben N2 - Triple-negative breast cancer is an aggressive cancer subtype affecting predominantly younger women. Owing to the worse prognosis obtained with standard therapy, alternative supportive approaches like ketogenic diet gain popular interest. Beta-hydroxybutyrate (3-OHB) is the main physiologic substrate generated during ketogenic diet. In this paper the effect of 3-OHB on metabolism, proliferation, and viability of triple negative breast cancer cells in vitro with exposure to cytotoxic chemotherapy and radiation was investigated. Different concentrations for 3-OHB, oxygen, chemotherapeutic agents and radiation doses were applied, resembling physiologic conditions within the tumor. 3-OHB did not influence cell proliferation and metabolism. Neither an inhibitory nor a growth-promoting effect for 3-OHB could be detected. The cytotoxic effects of chemotherapeutic agents as well as radiation were similar with or without the addition of 3-OHB. Given the limitations of in-vitro studies and the promising results of individual case studies, clinical trials investigating the effects of a ketogenic diet are necessary to provide further insights. KW - Ketogene Kost KW - Brustkrebs KW - Betahydroxybutyrat KW - triple negatives Mamma Karzinom Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-347044 ER - TY - JOUR A1 - Klement, Rainer Johannes A1 - Frobel, Thomas A1 - Albers, Torsten A1 - Fikenzer, Sven A1 - Prinzhausen, Jan A1 - Kämmerer, Ulrike T1 - A pilot case study on the impact of a self-prescribed ketogenic diet on biochemical parameters and running performance in healthy and physically active individuals N2 - Background: Ketogenic diets (KDs) have gained some popularity not only as effective weight-loss diets and treatment options for several diseases, but also among healthy and physically active individuals for various reasons. However, data on the effects of ketosis in the latter group of individuals are scarce. We therefore collected pilot data on the physiological response to a self-prescribed ketogenic diet lasting 5-7 weeks in a small cohort of healthy and physically active individuals. Methods: Twelve subjects (7 males, 5 females, age 24-60 years) who followed moderate to intensive exercise routines underwent blood testing, bioelectrical impedance analysis (BIA) and spiroergometry during an incremental treadmill test. On the next day, they went on a self-prescribed KD for a median of 38 days (range 35-50 days), after which the same tests were performed again. Ketosis was self-monitored by urinary ketone strips. Subjective feeling during the diet was assessed by a questionnaire after the intervention. Due to the small and heterogenous sample, the results are interpreted in the context of the already existing literature. Results: The KDs were tolerated well by the majority of individuals. Impaired recovery from exercise remained the most frequently reported side effect until the end of the study. Most blood parameters remained stable during the intervention. However, there were significant elevations of total and LDL cholesterol concentrations (p<0.01) and a trend towards increased HDL-cholesterol (p=0.05). The drastic reduction of carbohydrates had no statistically significant influence on running performance judged by the time to exhaustion, VO2max and respiratory compensation points. BIA measurements showed significant increases in phase angle (p=0.01) indicating improvements of body composition with an estimated decrease of 3.4 kg of fat mass (p=0.002) and gain of 1.3 kg of fat free mass. We discuss the validity of these estimates taking into account a possibly altered hydration status due to the KD. Conclusions: Active healthy individuals will probably experience no major problems during a short term KD lasting several weeks. The drastically reduced carbohydrate content of the diet seems to be no limiting factor for running performance. In addition, improvements in body composition can be expected. While most biochemical parameters are not influenced by the diet, there seems to be an impact on the blood lipid profile that could be considered problematic with respect to cardiovascular disease risk. However, the predictive role of cholesterol levels alone in individuals undergoing regular physical activity remains to be elucidated. KW - Fettgehalt KW - Blut KW - Ketogene Kost KW - High fat diet KW - exercise KW - bioimpedance analysis KW - blood lipids; fat loss; running performance Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-78901 ER -