成人吉尔伯特综合征相关高胆红素血症的代谢柔韧性和运动表现。

IF 5.9 2区医学 Q1 SPORT SCIENCES

Sports Medicine - Open Pub Date : 2026-04-15 DOI:10.1186/s40798-026-01011-2

Tamara Christina Stelzer, Anna Maria Kripp, Agnes Draxler, Lina Maqboul, Katharina Tatjana Pfeiffer, Andrew Cameron Bulmer, Daniel König, Karl-Heinz Wagner

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引用次数: 0

摘要

背景：最近的证据表明，适度升高的胆红素血浆浓度对非传染性疾病具有保护作用。一种可能的解释是吉尔伯特综合征（GS），一种轻度高胆红素血症，导致脂质代谢增强。此外，有初步迹象表明，患有GS的人可能有更大的表现能力。我们假设GS参与者有更大的最大脂肪氧化和性能能力。方法：为了验证这一点，我们进行了一项年龄和性别匹配的人类病例对照研究。我们纳入了40名GS患者和40名对照组，年龄在18-65岁之间，他们都进行了适度的体育锻炼。50%的参与者年龄在35岁以上。参与者在自行车测力器上进行了FatMax测试。该研究于2023年3月至2023年12月在维也纳大学进行。结果：35岁以上GS组参与者的FatMax （GS：中位数= 1.03[最大值= 0.44，最小值= 2.42]W/kg体重，C：中位数= 0.48[最小值= 0.33，最大值= 1.61]W/kg体重，p = 0.002）和耗氧量(GS：平均值= 30.2±标准分割(sd) = 8.09 ml/min/ kg体重；C：呼吸代偿点平均= 23.4±sd = 5.91 ml/min/kg体重，p = 0.005)。结论：这是第一个证明老年GS个体在利用脂肪酸代谢的同时可以产生更多能量的研究，这可能会提高他们在长时间次极限运动中的表现。

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Metabolic Flexibility and Exercise Performance in Adults with Gilbert's Syndrome-Associated Hyperbilirubinemia.

Background: Recent evidence suggests that moderately elevated bilirubin plasma concentrations possess protective effects against non-communicable diseases. One possible explanation for this might be that Gilbert's Syndrome (GS), a mildly hyperbilirubinaemic condition, leads to an enhanced lipid metabolism. Furthermore, there are first hints that individuals with GS may have a greater performance capacity. We hypothesize that GS participants have a greater maximal fat oxidation and performance capacity.

Methods: To test this, we conducted an age- and gender-matched human case-control study. We included 40 people with GS and 40 controls, aged 18-65 years, who were all moderately physically active. 50% of the participants were over the age of 35. Participants performed a FatMax test on a bicycle ergometer. The study was performed from March 2023 to December 2023 at the University of Vienna.

Results: The group of GS participants over the age of 35 had a significantly higher FatMax (GS: median = 1.03 [maximum = 0.44; minimum = 2.42] W/kg body weight; C: median = 0.48 [minimum = 0.33; maximum = 1.61] W/kg body weight, p = 0.002) and a significantly greater oxygen consumption (GS: mean = 30.2 ± standard diviation (sd) = 8.09 ml/min/ kg body weight; C: mean = 23.4 ± sd = 5.91 ml/min/kg body weight, p = 0.005) at the respiratory compensation point.

Conclusion: This is the first study to demonstrate that older GS individuals can generate more power whilst harnessing fatty acid metabolism and this may enhance their performance over prolonged periods of sub-maximal exercise.

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来源期刊

Sports Medicine - Open SPORT SCIENCES-

CiteScore

7.00

自引率

4.30%

发文量

142

审稿时长

13 weeks