Pre-operative Blood Lipid Level and Post-operative Major Adverse Cardiac Event
Lipid Metabolism DisordersPostoperative ComplicationsWhether the pre-operative blood lipid level and post-operative cardiovascular events is associated is unknown. This study is to find out the main blood lipid and relative protein level change and the post-operative cardiovascular events occurrence.
Lipid Metabolism in Obese Subjects Undergoing Bariatric Surgery
Bariatric Surgery CandidateLipid Metabolism Disorders1 moreThe aim of the study is to evaluate modifications in the metabolism of polyunsaturated fatty acids (PUFA) and biosynthesis of the lipid mediators N-acylethanolamines (NAE), both known to induce and be induced by the nuclear peroxisome proliferator-activated receptor (PPAR)-α, which may also explain the well-established improved lipid and energy metabolism after bariatric surgery. The study is focused on understanding the weight loss mechanisms in order to develop targeted dietary protocols.
A Pharmacokinetic and Pharmacodynamic Study of PF-04950615 (RN316) in Subjects With Hypercholesterolemia...
HypercholesterolemiaDyslipidemias3 moreThis Phase 1 study has been designed to evaluate the absolute bioavailability of PF-04950615 (RN316) in subjects with hypercholesterolemia who are not currently on lipid-lowering therapy.
Effects of 10 Weeks of Lifestyle Coaching on Cardiometabolic Risk Factors, Workability and Subjective...
Work Related StressMetabolic Syndrome3 moreThe main purpose of this study is to understand the impact of lifestyle coaching on the risk of future cardiometabolic disease, workability and self-assessed wellbeing. The data gathered during the study helps in the future to better identify different focus groups for more tailored interventions. The study consists of two main stages: screening and coaching phase. Screening Aava and the pension will recruit 2000 participants for screening from the employer companies. Screening participants are invited to answer a wellbeing questionnaire (Aava Virta questionnaire, Work Ability Index questionnaire) and give blood samples and physiological measurements, including weight, height, waist circumference, neck circumference and blood pressure. All subjects participating in screening will receive the results from wellbeing questionnaire immediately and they receive the results from blood test within few weeks. Of these 2000 screened persons, a total of 300 high-risk (according to ApoB/ApoA1) individuals and 600 medium-risk individuals will be selected to participate in the coaching phase. These participants are randomly split into treatment and control groups, so that eventually 150 high-risk and 300 medium-risk individuals are placed in both groups. Therefore, a total of 900 subjects carry forward to the coaching phase and in 1100 subjects the study ends. All 900 subjects entering coaching phase receive home a Firstbeat Bodyguard 2 device with instructions for performing Firstbeat wellbeing analysis. After the measurement the device is posted back for analysis according to instructions. The results and feedback from this test is received in the end of the study after the coaching phase. Stage 2: Coaching phase Within the coaching groups, participants in the high-risk category and treatment group undergo an individual coaching program. Participants in the medium-risk category undergo a group coaching program with similar aims. Both coaching programs last 10 weeks during which there are 8 almost weekly coaching sessions at the subjects worksite or near vicinity. Both coaching programs aim in reducing cardiometabolic risk factors and improving subjective well-being. The topics of the lifestyle coaching are 1) nutrition, 2) physical activity, 3) sleep and stress and 4) the long-term maintenance of lifestyle changes. The aims and methods in each coaching topic is based on Finnish recommendations on the topic. The coaching sessions include mostly discussions but in the sessions focusing more on physical activity there are also sessions including activity. In the halfway (5 weeks) of coaching phase, a second blood sampling and Aava wellbeing questionnaire are taken from all subjects (both coaching and control groups). In the end of the coaching phase (10 weeks) blood samples, Aava wellbeing questionnaire, Work Ability Index -questionnaire and physiological measurements are taken the last time. At this stage a second Firstbeat analysis is also performed. BBI-15 questionnaire is administered before and after the coaching phase. An open ended questionnaire regarding lifestyle change motivators and experiences before, during and after the coaching phase is administered to all participants. Also, a small subset (20 persons) of subjects takes in interviews to delve more detailed to the experiences during the study. End of coaching phase and study - start of feedback and analysis After the coaching phase has ended and the subjects (coaching and their control groups) have received all the results (wellbeing questionnaire, blood tests and Firstbeat results) for the study and feedback sessions will be held for all. Willing subjects also receive the results from the gene test in form of PRS scores ie. total genetic risk for three areas of health: heart disease, type 2 diabetes and obesity. THL gene results do not identify single gene variants. After this feedback session the study has ended for the subject. After all data in the study has been gathered starts the analysing and reporting phase for the researchers. At this stage the researchers can retrieve data from Aava patient records to analyse the effect of earlier diagnoses and findings. The information retrieved relate to ICD-10 diagnosis codes C00-C97 (malignant neoplasms), E00-E89 (endocrine, nutritional and metabolic diseases), F00-F99 (mental, behavioral and neurodevelopmental disorders), I00-I99 (diseases of the circulatory system) and M00-M99 (diseases of the musculoskeletal system and connective tissue) as these diagnostic codes can be important background factors for biomarkers of CVD and Type 2 diabetes risk and to some of the secondary endpoints like workability.
The Effect of Levetiracetam on Lipid Profile in Children
EpilepsyChild3 moreLevetiracetam is a widely prescribed antiseizure medication in epileptic children due to an estimated better safety profile and easy accessibility. There is limited and contradicting data about the effect of levetiracetam on serum lipid metabolisms, especially in epileptic children. The aim of our study was to evaluate the effect of levetiracetam therapy on lipid metabolism in euthyroid non-obese epileptic children. In this case-control study, the investigators recruited 37 epileptic children receiving levetiracetam monotherapy for at least 12 months and 54 healthy controls. All the participants were euthyroid and within normal nutritional status limits for their age. Fasting blood samples were obtained for serum thyroid-stimulating hormone (TSH), free triiodothyronine, free thyroxine, total cholesterol (TC), high-density lipoprotein (HDL), low-density lipoprotein (LDL), triglycerides, Triglyceride/HDL Index, uric acid, CRP, and transaminases at the administration. The investigators would like to show if epileptic children with levetiracetam monotherapy are susceptible to lipid metabolism alterations.
Lipid Management in Clinical Practice (MK-0524A-115)
Lipid Metabolism DisorderThe aim of this observational program is to generate data on the use of Tredaptive (nicotinic acid/laropiprant) for lipid management under routine medical practice conditions.
Vascepa to Accelerate Lipoprotein Uptake and Elimination
Lipid DisorderTriglycerides High1 moreThis study is a Phase 1 pilot/feasibility mechanistic experiment to help clarify the mechanism of action of an EPA-rich fish oil preparation, icosapent ethyl, on lipid changes in statin-treated patients with residual triglyceridemia.
Statin Monotherapy or Statins in Combination With Ezetimibe in Patients for Prevention of CVD
Lipid Metabolism DisordersCardiovascular DiseasesRetrospective observational study of the efficacy and safety of statin monotherapy or statins in combination with ezetimibe in patients receiving lipid-lowering therapy in both primary and secondary prevention of cardiovascular diseases (CVD). The study will include patients receiving lipid-lowering therapy in both primary and secondary prevention of CVD who have received therapy of interest for ≥ 3 months in the 2 years preceding the signing of informed consent, i.e. statins as monotherapy or in combination with ezetimibe in a stable mode (without dose adjustment and/or statin replacement). Effectiveness of therapy will be evaluated based on the data on changes in baseline levels of total cholesterol (CS), low density lipoproteins (LDL), high density lipoproteins (HDL), triglycerides (TG), data on which will be obtained from primary medical records. Demographic and anthropometric data on patients, information on the history of hyperlipidemia and concomitant diseases will also be obtained. Also, the study will collect data on the development of adverse reactions of particular interest during therapy (liver/muscle damage, major cardiovascular events (MACE).
CoolSculpting the Flanks
Body Fat DisorderEvaluate the safety and efficacy of non-invasive subcutaneous fat layer reduction in the flanks.
CoolSculpting and RF for the Submental
Body Fat DisorderThe purpose of this study is to evaluate the safety and efficacy of sequential use of CoolSculpting (Cryolipolysis) and radiofrequency treatment of the submental and submandibular area.