Orvis Felt Bottom Boots Green Brown Size 15 Fishing Wading Boots Traction Spikes
$59
Orvis Felt Bottom Boots Green Brown Size 15 Fishing Wading Boots Traction Spikes
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Item specifics
Condition:
New without box: A brand-new, unused, and unworn item (including handmade items) that is not in ... New without box: A brand-new, unused, and unworn item (including handmade items) that is not in original packaging or may be missing original packaging materials (such as the original box or bag). The original tags may not be attached. For example, new shoes (with absolutely no signs of wear) that are no longer in their original box fall into this category.
Character:
Boots
US Shoe Size:
US 15
Color:
Brown
Fabric Type:
Felt
Brand:
Orvis
Type:
Boot
Department:
Men
Theme:
Fish
Style:
Wading Boots
Outsole Material:
Felt
Features:
Spikes
Upper Material:
Synthetic
Character Family:
Spike
Performance/Activity:
Fishing
Orvis Felt Bottom Boots Green Brown Size 15 Fishing Wading Boots Traction Spikes
Gut is a leading international journal in gastroenterology and hepatology and has an established reputation for publishing first class clinical research of the alimentary tract, the liver, biliary tree and pancreas. Gut delivers up-to-date, authoritative, clinically oriented coverage in all areas of gastroenterology and hepatology. Regular features include articles by leading authorities describing novel mechanisms of disease and new management strategies, both diagnostic and therapeutic, likely to impact on clinical practice within the foreseeable future.
Our new online collection highlights all research relating to the COVID-19 pandemic published by Gut, Frontline Gastroenterology and BMJ Open Gastroenterology. It is updated regularly as new articles are published.
All content is free to read and features original research, commentaries, letters and editorials from all three journals published with the British Society of Gastroenterology (BSG)
Disrupted spermatogenesis in a metabolic syndrome model
To cite: Zhang T, Sun P, Geng Q, et al. Gut 2022;71:78-87.
Read the full article here: link
Objective: Effects of the diet-induced gut microbiota dysbiosis reach far beyond the gut. We aim to uncover the direct evidence involving the gut–testis axis in the aetiology of impaired spermatogenesis.
Conclusions: These findings define a starting point for linking the testicular function and regulation of gut microbiota via host metabolomes and will be of potential value for the treatment of male infertility in MetS.
