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Reactive oxygen species production rates in hippocampal synaptic mitochondria from young, middle-aged, and old rats, revealing a progressive increase in oxidative stress that precedes detectable memory impairment.

Figure 3

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Source Paper

Premature synaptic mitochondrial dysfunction in the hippocampus during aging contributes to memory loss.

Redox biology (2020)

PMID: 32447261

DOI: 10.1016/j.redox.2020.101558

Cite This Figure

![Figure 3: Reactive oxygen species production rates in hippocampal synaptic mitochondria from young, middle-aged, and old rats, revealing a progressive increase in oxidative stress that precedes detectable memory impairment.]()

> Source: Margrethe A Olesen et al. "Premature synaptic mitochondrial dysfunction in the hippocampus during aging con." *Redox biology*, 2020. PMID: [32447261](https://pubmed.ncbi.nlm.nih.gov/32447261/)

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  <img src="" alt="Reactive oxygen species production rates in hippocampal synaptic mitochondria from young, middle-aged, and old rats, revealing a progressive increase in oxidative stress that precedes detectable memory impairment." />
  <figcaption>Figure 3. Reactive oxygen species production rates in hippocampal synaptic mitochondria from young, middle-aged, and old rats, revealing a progressive increase in oxidative stress that precedes detectable memory impairment.<br>  Source: Margrethe A Olesen et al. "Premature synaptic mitochondrial dysfunction in the hippocampus during aging con." <em>Redox biology</em>, 2020. PMID: <a href="https://pubmed.ncbi.nlm.nih.gov/32447261/">32447261</a></figcaption>
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