Methods to characterize lactate turnover in aging and Alzheimer's disease; The LEAN study

IF 2 3区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL
Riley E. Kemna , Paul J. Kueck , Anneka E. Blankenship , Casey S. John , Chelsea N. Johnson , Zachary D. Green , Tyler Chamberlain , John P. Thyfault , Jonathan D. Mahnken , Benjamin F. Miller , Jill K. Morris
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Abstract

Background

There is evidence that chronic exercise can benefit the brain, but the effects vary markedly between studies. One potential mechanism for exercise-related benefit is the increase in systemic lactate concentration that is well-characterized to occur during exercise. Lactate is known to cross the blood brain barrier and can be used readily as a fuel for neurons. This may be particularly important in Alzheimer's Disease, which is characterized by cerebral hypometabolism. However, little is known about how whole-body lactate metabolism differs between older adults and individuals with cognitive impairment. This information is critical when considering potential differences in responses to exercise in various cognitive diagnosis groups.

Methods

Here we describe the use of a “lactate clamp” procedure to adjust blood lactate levels to approximate those achieved during exercise, but while at rest. This trial will compare lactate oxidation between cognitively healthy older adults and cognitively impaired participants. We will further evaluate the effect of acute lactate infusion on cognitive performance.

Discussion

The findings of the study described here, the Lactate for Energy and Neurocognition trial (clinicaltrials.gov # NCT05207397) will add to our understanding of systemic lactate mechanics in cognitively healthy older adults and individuals with Alzheimer's Disease. These findings will be applicable to ongoing exercise trials and to future studies aimed at modulating systemic bioenergetic function in aging and Alzheimer's Disease.

描述衰老和阿尔茨海默病中乳酸转化特征的方法;LEAN 研究。
背景:有证据表明,慢性运动对大脑有益,但不同研究的效果却有明显差异。运动相关益处的一个潜在机制是运动过程中全身乳酸浓度的增加。众所周知,乳酸可穿过血脑屏障,并可随时用作神经元的燃料。这对于以脑代谢低下为特征的阿尔茨海默氏症可能尤为重要。然而,人们对老年人和认知障碍患者的全身乳酸代谢有何不同知之甚少。在考虑不同认知诊断群体对运动的潜在反应差异时,这一信息至关重要。方法:在此,我们介绍使用 "乳酸钳夹 "程序来调整血液乳酸水平,使其接近运动时达到的水平,但仍处于休息状态。这项试验将比较认知能力健康的老年人和认知能力受损的参与者之间的乳酸氧化情况。我们还将进一步评估急性乳酸盐输注对认知能力的影响:讨论:本文所述的 "乳酸盐促进能量和神经认知试验"(clinicaltrials.gov # NCT05207397)的研究结果将加深我们对认知健康的老年人和阿尔茨海默氏症患者体内乳酸盐机制的了解。这些发现将适用于正在进行的运动试验以及未来旨在调节衰老和阿尔茨海默病全身生物能量功能的研究。
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来源期刊
CiteScore
3.70
自引率
4.50%
发文量
281
审稿时长
44 days
期刊介绍: Contemporary Clinical Trials is an international peer reviewed journal that publishes manuscripts pertaining to all aspects of clinical trials, including, but not limited to, design, conduct, analysis, regulation and ethics. Manuscripts submitted should appeal to a readership drawn from disciplines including medicine, biostatistics, epidemiology, computer science, management science, behavioural science, pharmaceutical science, and bioethics. Full-length papers and short communications not exceeding 1,500 words, as well as systemic reviews of clinical trials and methodologies will be published. Perspectives/commentaries on current issues and the impact of clinical trials on the practice of medicine and health policy are also welcome.
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