Disrupted spermatogenesis in a metabolic syndrome model: the role of vitamin A metabolism in the gut–testis axis
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Title
Disrupted spermatogenesis in a metabolic syndrome model: the role of vitamin A metabolism in the gut–testis axis
Authors
Keywords
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Journal
GUT
Volume -, Issue -, Pages gutjnl-2020-323347
Publisher
BMJ
Online
2021-01-28
DOI
10.1136/gutjnl-2020-323347
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- (2019) Massimo Alfano et al. FERTILITY AND STERILITY
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- (2013) Lawrence A. David et al. NATURE
- High dietary intake of saturated fat is associated with reduced semen quality among 701 young Danish men from the general population
- (2012) Tina K Jensen et al. AMERICAN JOURNAL OF CLINICAL NUTRITION
- Dietary fat and semen quality among men attending a fertility clinic
- (2012) J. A. Attaman et al. HUMAN REPRODUCTION
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- Systemic multicompartmental effects of the gut microbiome on mouse metabolic phenotypes
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