fenofibrate has been researched along with Chronic Disease in 11 studies
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Chronic Disease: Diseases which have one or more of the following characteristics: they are permanent, leave residual disability, are caused by nonreversible pathological alteration, require special training of the patient for rehabilitation, or may be expected to require a long period of supervision, observation, or care (Dictionary of Health Services Management, 2d ed). For epidemiological studies chronic disease often includes HEART DISEASES; STROKE; CANCER; and diabetes (DIABETES MELLITUS, TYPE 2).
| Excerpt | Relevance | Reference |
|---|---|---|
| "To assess the short-term urate-lowering effect of fenofibrate in men on long-term allopurinol therapy for hyperuricaemia and gout." | 9.10 | Fenofibrate enhances urate reduction in men treated with allopurinol for hyperuricaemia and gout. ( Ball, SG; Feher, MD; Hepburn, AL; Hogarth, MB; Kaye, SA, 2003) |
| "This study was to observe the effects of fenofibrate on blood lipid, sICAM-1, ET-1 and prognosis in chronic heart failure patients complicated with diabetes." | 8.31 | Effect of fenofibrate on blood lipid, sICAM-1, ET-1 and prognosis in chronic heart failure patients complicated with diabetes. ( Liu, J; Liu, X; Wang, Y; Zhang, J; Zhou, W, 2023) |
| "Inflammation is implicated in chronic heart failure (CHF)." | 5.35 | Fenofibrate attenuates endothelial monocyte adhesion in chronic heart failure: an in vitro study. ( Chen, JW; Huang, WP; Jen, HL; Lin, SJ; Yin, WH; Young, MS, 2009) |
| "To assess the short-term urate-lowering effect of fenofibrate in men on long-term allopurinol therapy for hyperuricaemia and gout." | 5.10 | Fenofibrate enhances urate reduction in men treated with allopurinol for hyperuricaemia and gout. ( Ball, SG; Feher, MD; Hepburn, AL; Hogarth, MB; Kaye, SA, 2003) |
| "This study was to observe the effects of fenofibrate on blood lipid, sICAM-1, ET-1 and prognosis in chronic heart failure patients complicated with diabetes." | 4.31 | Effect of fenofibrate on blood lipid, sICAM-1, ET-1 and prognosis in chronic heart failure patients complicated with diabetes. ( Liu, J; Liu, X; Wang, Y; Zhang, J; Zhou, W, 2023) |
| "Fenofibrate therapy was initiated for a 60-year old Hispanic man with stage 4 chronic kidney disease (CKD) for the treatment of hypertriglyceridemia." | 3.74 | Elevated serum creatinine levels associated with fenofibrate therapy. ( Anderson, J; Griego, J; McQuade, CR; Pai, AB, 2008) |
| "Inflammation is implicated in chronic heart failure (CHF)." | 1.35 | Fenofibrate attenuates endothelial monocyte adhesion in chronic heart failure: an in vitro study. ( Chen, JW; Huang, WP; Jen, HL; Lin, SJ; Yin, WH; Young, MS, 2009) |
| Timeframe | Studies, this research(%) | All Research% |
|---|---|---|
| pre-1990 | 0 (0.00) | 18.7374 |
| 1990's | 1 (9.09) | 18.2507 |
| 2000's | 5 (45.45) | 29.6817 |
| 2010's | 3 (27.27) | 24.3611 |
| 2020's | 2 (18.18) | 2.80 |
| Authors | Studies |
|---|---|
| Liu, X | 1 |
| Zhang, J | 1 |
| Zhou, W | 1 |
| Liu, J | 1 |
| Wang, Y | 1 |
| Ong, KL | 1 |
| Wu, L | 1 |
| Januszewski, AS | 1 |
| O'Connell, RL | 1 |
| Xu, A | 1 |
| Rye, KA | 1 |
| Ma, RCW | 1 |
| Li, H | 2 |
| Jenkins, AJ | 1 |
| Jia, W | 1 |
| Keech, AC | 1 |
| Lee, HY | 1 |
| Gao, X | 1 |
| Barrasa, MI | 1 |
| Elmes, RR | 1 |
| Peters, LL | 1 |
| Lodish, HF | 1 |
| Scheggi, S | 1 |
| Melis, M | 1 |
| De Felice, M | 1 |
| Aroni, S | 1 |
| Muntoni, AL | 1 |
| Pelliccia, T | 1 |
| Gambarana, C | 1 |
| De Montis, MG | 1 |
| Pistis, M | 1 |
| Huang, WP | 1 |
| Yin, WH | 1 |
| Chen, JW | 1 |
| Jen, HL | 1 |
| Young, MS | 1 |
| Lin, SJ | 1 |
| Moustafa, T | 1 |
| Fickert, P | 1 |
| Magnes, C | 1 |
| Guelly, C | 1 |
| Thueringer, A | 1 |
| Frank, S | 1 |
| Kratky, D | 1 |
| Sattler, W | 1 |
| Reicher, H | 1 |
| Sinner, F | 1 |
| Gumhold, J | 1 |
| Silbert, D | 1 |
| Fauler, G | 1 |
| Höfler, G | 1 |
| Lass, A | 1 |
| Zechner, R | 1 |
| Trauner, M | 1 |
| Feher, MD | 1 |
| Hepburn, AL | 1 |
| Hogarth, MB | 1 |
| Ball, SG | 1 |
| Kaye, SA | 1 |
| Duhaney, TA | 1 |
| Cui, L | 1 |
| Rude, MK | 1 |
| Lebrasseur, NK | 1 |
| Ngoy, S | 1 |
| De Silva, DS | 1 |
| Siwik, DA | 1 |
| Liao, R | 1 |
| Sam, F | 1 |
| McQuade, CR | 1 |
| Griego, J | 1 |
| Anderson, J | 1 |
| Pai, AB | 1 |
| Lepicard, A | 1 |
| Mallat, A | 1 |
| Zafrani, ES | 1 |
| Dhumeaux, D | 1 |
| Bratus', VV | 1 |
| Talaieva, TV | 1 |
| Lomakovs'kyĭ, OM | 1 |
| Tretiak, IV | 1 |
| Radalovs'ka, NV | 1 |
| Trial | Phase | Enrollment | Study Type | Start Date | Status | ||
|---|---|---|---|---|---|---|---|
| FEnofibRate as a Metabolic INtervention for Coronavirus Disease 2019[NCT04517396] | Phase 2 | 701 participants (Actual) | Interventional | 2020-08-18 | Completed | ||
| [information is prepared from clinicaltrials.gov, extracted Sep-2024] | |||||||
Death from any cause during the observation period (NCT04517396)
Timeframe: Up to 30 days
| Intervention | Participants (Count of Participants) |
|---|---|
| Fenofibrate + Usual Care | 19 |
| Placebo + Usual Care | 22 |
The exploratory global rank score, or global severity score, is a nonparametric, hierarchically ranked outcome. The global rank score was generated by ranking all 701 participants on a scale of 1 to 701, from worst to best clinical outcomes. Participants were ranked by (1) time to death; (2) the number of days supported by invasive mechanical ventilation or extracorporeal membrane oxygenation (ECMO); (3) The inspired concentration of oxygen/percent oxygen saturation (FiO2/SpO2) ratio area under the curve; (4) The number of days out of the hospital during the 30 day-period following randomization. (NCT04517396)
Timeframe: Up to 30 days
| Intervention | score on a scale (Median) |
|---|---|
| Fenofibrate + Usual Care | 5.03 |
| Placebo + Usual Care | 5.03 |
Number of days that participants were alive and out of the hospital during the 30 days following randomization (NCT04517396)
Timeframe: Up to 30 days
| Intervention | days (Median) |
|---|---|
| Fenofibrate + Usual Care | 30 |
| Placebo + Usual Care | 30 |
Number of days participants were alive, out of the intensive care unit, free of mechanical ventilation/extracorporeal membrane oxygenation, or maximal available respiratory support during the 30 days that followed randomization (NCT04517396)
Timeframe: Up to 30 days
| Intervention | days (Mean) |
|---|---|
| Fenofibrate + Usual Care | 28.8 |
| Placebo + Usual Care | 28.3 |
The primary endpoint of the trial is a global rank score that ranks patient outcomes according to 5 factors. The global rank score, or global severity score, is a nonparametric, hierarchically ranked outcome. The global rank score was generated by ranking all 701 participants on a scale of 1 to 701, from worst to best clinical outcomes. Participants were ranked by (1) time to death; (2) the number of days supported by invasive mechanical ventilation or extracorporeal membrane oxygenation (ECMO); (3) The inspired concentration of oxygen/percent oxygen saturation (FiO2/SpO2) ratio area under the curve; (4) For participants enrolled as outpatients who are subsequently hospitalized, the number of days out of the hospital during the 30 day-period following randomization; (5) For participants enrolled as outpatients who don't get hospitalized during the 30-day observation period, the modified Borg dyspnea scale (NCT04517396)
Timeframe: 30 days
| Intervention | Ranked Severity Score (Median) |
|---|---|
| Fenofibrate + Usual Care | 5.32 |
| Placebo + Usual Care | 5.33 |
The secondary global rank score, or global severity score, is a nonparametric, hierarchically ranked outcome. The global rank score was generated by ranking all 701 participants on a scale of 1 to 701, from worst to best clinical outcomes. Participants were ranked by (1) time to death; (2) the number of days supported by invasive mechanical ventilation or extracorporeal membrane oxygenation (ECMO); (3) The inspired concentration of oxygen/percent oxygen saturation (FiO2/SpO2) ratio area under the curve; (4) For participants enrolled as outpatients who are subsequently hospitalized, the number of days out of the hospital during the 30 day-period following randomization; (5) For participants enrolled as outpatients who don't get hospitalized during the 30-day observation period, a COVID-19 symptom scale rating fever, cough, dyspnea, muscle aches, sore throat, loss of smell or taste, headache, diarrhea, fatigue, nausea/vomiting, chest pain (each are rated from 0-10 then summed). (NCT04517396)
Timeframe: Up to 30 days
| Intervention | score on a scale (Median) |
|---|---|
| Fenofibrate + Usual Care | 5.05 |
| Placebo + Usual Care | 5.05 |
A seven-category ordinal scale consisting of the following categories: 1, not hospitalized with resumption of normal activities; 2, not hospitalized, but unable to resume normal activities; 3, hospitalized, not requiring supplemental oxygen; 4, hospitalized, requiring supplemental oxygen; 5, hospitalized, requiring nasal high-flow oxygen therapy, noninvasive mechanical ventilation, or both; 6, hospitalized, requiring extracorporeal membrane oxygenation (ECMO), invasive mechanical ventilation, or both; and 7, death. (NCT04517396)
Timeframe: At 15 days
| Intervention | score on a scale (Median) |
|---|---|
| Fenofibrate + Usual Care | 1 |
| Placebo + Usual Care | 1 |
1 trial available for fenofibrate and Chronic Disease
| Article | Year |
|---|---|
Fenofibrate enhances urate reduction in men treated with allopurinol for hyperuricaemia and gout.
Topics: Acute Disease; Adult; Aged; Alkaline Phosphatase; Allopurinol; Arthritis, Gouty; Chronic Disease; Cr | 2003 |
10 other studies available for fenofibrate and Chronic Disease
| Article | Year |
|---|---|
Effect of fenofibrate on blood lipid, sICAM-1, ET-1 and prognosis in chronic heart failure patients complicated with diabetes.
Topics: Chronic Disease; Diabetes Mellitus; Fenofibrate; Heart Failure; Hospitalization; Humans; Lipids | 2023 |
Relationships of adipocyte-fatty acid binding protein and lipocalin 2 with risk factors and chronic complications in type 2 diabetes and effects of fenofibrate: A fenofibrate Intervention and event lowering in diabetes sub-study.
Topics: Chronic Disease; Diabetes Mellitus, Type 2; Fatty Acid-Binding Proteins; Female; Fenofibrate; Humans | 2020 |
PPAR-α and glucocorticoid receptor synergize to promote erythroid progenitor self-renewal.
Topics: Acute Disease; Anemia; Anemia, Hemolytic; Animals; Butyrates; Cell Culture Techniques; Cells, Cultur | 2015 |
PPARα modulation of mesolimbic dopamine transmission rescues depression-related behaviors.
Topics: Anhedonia; Animals; Antidepressive Agents; Chronic Disease; Cyclic AMP; Depressive Disorder; Disease | 2016 |
Fenofibrate attenuates endothelial monocyte adhesion in chronic heart failure: an in vitro study.
Topics: Aged; Blotting, Western; Cell Adhesion; Chronic Disease; Female; Fenofibrate; Heart Failure; Humans; | 2009 |
Alterations in lipid metabolism mediate inflammation, fibrosis, and proliferation in a mouse model of chronic cholestatic liver injury.
Topics: Animals; ATP Binding Cassette Transporter, Subfamily B; ATP-Binding Cassette Sub-Family B Member 4; | 2012 |
Peroxisome proliferator-activated receptor alpha-independent actions of fenofibrate exacerbates left ventricular dilation and fibrosis in chronic pressure overload.
Topics: Aldosterone; Animals; Cells, Cultured; Chronic Disease; Extracellular Signal-Regulated MAP Kinases; | 2007 |
Elevated serum creatinine levels associated with fenofibrate therapy.
Topics: Chronic Disease; Creatinine; Fenofibrate; Humans; Hypertriglyceridemia; Hypolipidemic Agents; Kidney | 2008 |
[Chronic lesion of the interlobular bile ducts induced by fenofibrate].
Topics: Cholestasis, Intrahepatic; Chronic Disease; Female; Fenofibrate; Humans; Hypercholesterolemia; Liver | 1994 |
[Modified lipoproteins--their types and role in atherogenesis].
Topics: Adult; Animals; Arteriosclerosis; Child; Child, Preschool; Chronic Disease; Coronary Artery Disease; | 2000 |