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Academic Reference Archive:High Fat Diet 32

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Academic Reference Archive:High Fat Diet 32

High Fat Diet 32 Academic Reference List

This Academic Reference Archive provides a collection of representative peer-reviewed publications using High Fat Diet 32, CLEA Japan's super-high-fat laboratory diet developed for diet-induced obesity and metabolic disease research.

The references are organized by research purpose to support studies of obesity, insulin resistance, metabolic syndrome, fatty liver disease including MASLD/MASH, gut microbiota, inflammation, and other metabolic disorders. A chronological publication index is also provided, allowing researchers to explore the expanding applications of High Fat Diet 32 across basic, translational, and preclinical research.

For detailed information on diet composition, nutritional specifications, and product information, please visit the corresponding High Fat Diet 32 product page.


Research Use Snapshot

  • Product type: Super-high-fat laboratory diet (High Fat Diet 32)
  • Typical applications: Diet-induced obesity, metabolic syndrome, insulin resistance, MASLD/MASH, fatty liver disease, and metabolic inflammation research under standardized feeding conditions.
  • Evidence on this page: Representative peer-reviewed publications covering obesity, glucose metabolism, hepatic steatosis and fibrosis, gut microbiota, immune regulation, cardiovascular and skeletal muscle complications, aging-related metabolic dysfunction, and therapeutic intervention studies.
  • How to browse: Explore publications by research topic below or use the chronological index to follow the evolution of High Fat Diet 32 applications across metabolic disease research.


🩺 Obesity, Adiposity & Energy Homeostasis

Modeling diet-induced obesity, adiposity, and altered energy balance. Studies in this section use High Fat Diet 32 to induce body weight gain, visceral fat accumulation, appetite changes, altered energy expenditure, and obesity-related endocrine responses under controlled feeding conditions.


🍬 Insulin Resistance, Glucose Metabolism & Type 2 Diabetes Research

Investigating high-fat diet-induced insulin resistance, glucose intolerance, and metabolic syndrome. Publications in this section support mechanistic and interventional studies related to impaired glucose homeostasis, diabetes-related vascular dysfunction, and metabolic disease progression.


🫀 MASLD/MASH, Fatty Liver, Fibrosis & Lipid Metabolism

Modeling diet-driven hepatic steatosis, MASLD/MASH, liver fibrosis, and lipid dysregulation. This section highlights the use of High Fat Diet 32 in metabolic liver disease research, including hepatic lipid accumulation, inflammation, fibrosis, hepatocarcinogenesis, and therapeutic intervention studies.


🧠 Inflammation, Immune Regulation & Gut–Metabolic Axis

Exploring how high-fat feeding affects chronic inflammation, immune regulation, gut microbiota, intestinal homeostasis, and host–microbe interactions. These publications connect diet-induced metabolic stress with inflammatory and microbiota-mediated mechanisms involved in obesity, fatty liver disease, insulin resistance, and systemic metabolic dysfunction.


🧬 Multi-Organ Complications & Systemic Crosstalk

Understanding downstream complications and organ-to-organ interactions caused by prolonged metabolic stress. This section includes studies on cardiovascular, renal, skeletal muscle, neurological, dermatological, reproductive, and cancer-related outcomes associated with high-fat diet feeding.


⏳ Aging, Senescence & Therapeutic Evaluation

Evaluating age-related metabolic dysfunction, cellular senescence, and emerging therapeutic strategies. Recent studies increasingly utilize High Fat Diet 32 to investigate biological aging, metabolic resilience, and the efficacy of pharmacological, nutritional, microbiota-targeted, and senolytic interventions for obesity-associated metabolic diseases.


📚 Key Publications (Timeline)

Representative publications illustrating the evolution of High Fat Diet 32 applications. This timeline highlights landmark studies spanning diet-induced obesity, insulin resistance, metabolic liver disease, immune regulation, gut microbiota, multi-organ complications, and emerging therapeutic strategies. Together, these publications demonstrate how High Fat Diet 32 has become a widely used dietary platform for metabolic disease research.



Related CLEA Japan product: High Fat Diet 32
References by Year

 

Related CLEA Japan product: High Fat Diet 32

High Fat Diet 32 product image
For the animal, please click here↓
https://www.clea-japan.com/en/products/general_diet/item_d0080

 

Inquiry:

If you have any question, please feel free to contact us from here .

 

2005

 

2007

 

 

 

 

 

 

2008

 

 

 

2009

 

 

 

 

 

 

 

 

 

 

 

 

 

2010

 

 

 

 

2011

 

 

 

 

 

 

 

 

 

2012

 

 

 

 

 

 

 

 

 

 

2013

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2014

 

 

 

 

 

 

 

 

 

2015

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2016

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2017

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2018

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2019

 

 

 

 

 

 

 

 

 

 

 

 

 

2020

 

 

 

 

 

 

 

 

 

2021

 

 

2022

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2023

 

 

 

 

 

 

 

 

 

  • Xichen Hu, Tadahito Yasuda, Noriko Yasuda-Yosihara, Atsuko Yonemura, Terumasa Umemoto, Yutaka Nakachi, Kohei Yamashita, Takashi Semba, Kota Arima, Tomoyuki Uchihara, Akiho Nishimura, Luke Bu, Lingfeng Fu, Feng Wei, Jun Zhang, Yilin Tong, Huaitao Wang, Kazuya Iwamoto, Takaichi Fukuda, Hayato Nakagawa, Koji Taniguchi, Yuji Miyamoto, Hideo Baba, Takatsugu Ishimoto
    Downregulation of 15-PGDH enhances MASH-HCC development via fatty acid-induced T-cell exhaustion
    August 2023 JHEP Reports 5(12):100892 DOI: 10.1016/j.jhepr.2023.100892

 

 

 

2024

 

 

  • Kenya Honda, Takeshi Tanoue, Manabu Nagayama, Ayumi Roochana, Samuel Zimmerman, Orr Ashenberg, Tanvi Jain, Satoshi Sasajima, Kozue Takeshita, Nicola Hetherington, Nobuyuki Okahashi, Masahiro Ueda, Morichika Konishi, Yoshiaki Nakayama, Aki Minoda, Ashwin Skelly, Yasuhiko Minokoshi, Nicholas Pucci, Daniel Mende, Makoto Arita, Hironori Yamamoto, Shunji Watanabe, Kouichi Miura, Wataru Suda, Koji Atarashi, Mami Matsushita, Shingo Kajimura, Damian Plichta, Masayuki Saito, Ramnik Xavier
    Identification of specific microbiota members that induce beige fat biogenesis in response to dietary cues
    Res Sq [Preprint]. 2024 Dec 3: rs.3.rs-5454144. [Version 1] doi: 0.21203/rs.3.rs-5454144/v1

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  • Yoshimitsu Nakanishi, Mayuko Izumi, Hiroaki Matsushita, Yoshihisa Koyama, Diego Diez, Hyota Takamatsu, Shohei Koyama, Masayuki Nishide, Maiko Naito, Yumiko Mizuno, Yuta Yamaguchi, Tomoki Mae, Yu Noda, Kamon Nakaya, Satoshi Nojima, Fuminori Sugihara, Daisuke Okuzaki, Masahito Ikawa, Shoichi Shimada, Sujin Kang, Atsushi Kumanogoh
    Semaphorin 6D tunes amygdalar circuits for emotional, metabolic, and inflammatory outputs
    Neuron. 2024 Sep 4;112(17):2955-2972.e9. doi: 10.1016/j.neuron.2024.06.017. Epub 2024 Jul 12.

 

 

 

 

 

 

2025

 

 

 

 

 

 

 

 

 

 

 

 

  • Hiroyuki Sowa, Hiroki Yagi, Kazutaka Ueda, Masaki Hashimoto, Kohei Karasaki, Qing Liu, Atsumasa Kurozumi, Yusuke Adachi, Tomonobu Yanase, Shun Okamura, Bowen Zhai, Norifumi Takeda, Masahiko Ando, Haruo Yamauchi, Nobuhiko Ito, Minoru Ono, Hiroshi Akazawa, Issei Komuro
    Perivascular inflammation in the progression of aortic aneurysms in Marfan syndrome
    JCI Insight. 2025 Aug 28;10(19):e184329. doi: 10.1172/jci.insight.184329. eCollection 2025 Oct 8.

 

 

 

  • Katarzyna Drzewicka, Katarzyna M Głuchowska, Michal Mlącki, Bartłomiej Hofman, Irina Tuszyńska, Tristram A J Ryan, Katarzyna Piwowar, Bartosz Wilczyński, Dorota Dymkowska, Marcin M Grzybowski, Barbara Dymek, Tomasz Rejczak, Kamil Lisiecki, Adam Gołębiowski, Adam Jagielski, Angelika Muchowicz, Dylan Ryan, Krzysztof Zabłocki, Luke A J O'Neill, Zbigniew Zasłona
    Chitinase-1 inhibition reverses metabolic dysregulation and restores homeostasis in MASH animal models
    Front Immunol. 2025 May 29:16:1544973. doi: 10.3389/fimmu.2025.1544973. eCollection 2025.

 

2026

 

  • Takeshi Tanoue, Manabu Nagayama, Ayumi J.A. Roochana, Samuel Zimmerman, Orr Ashenberg, Tanvi Jain, Ryo Igarashi, Satoshi Sasajima, Kozue Takeshita, Nicola Hetherington, Nobuyuki Okahashi, Masahiro Ueda, Morichika Konishi, Yoshiaki Nakayama, Aki Minoda, Ashwin N. Skelly, Yasuhiko Minokoshi, Nicholas Pucci, Daniel R. Mende, Makoto Arita, Hironori Yamamoto, Shunji Watanabe, Kouichi Miura, Scott Behie, Wataru Suda, Toshiro Sato, Koji Atarashi, Mami Matsushita, Shingo Kajimura, Damian R. Plichta, Masayuki Saito, Ramnik J. Xavier, Kenya Honda
    Microbiota-mediated induction of beige adipocytes in response to dietary cues
    Nature. 2026 Mar 4;653(8114):499–509. doi: 10.1038/s41586-026-10205-3

 

 

 

 

 

 

FAQ

Q: What is included on this page?
A: This page provides an academic reference list for High Fat Diet 32, along with a related product section and an inquiry link.

Q: How are the references organized?
A: References are presented in the original "References by Year" list. You can jump to each year using the year index on this page.

Q: Can I browse the same references by research purpose?
A: Yes. The topic-based sections above provide a research-purpose view that points to selected publications listed in the year-based archive.

Q: Which years are available in the References by Year index?
A: The year index on this page includes 2005 through 2026.

Q: Where can I find the related product information for High Fat Diet 32?
A: The related product information is provided in the "Related CLEA Japan product: High Fat Diet 32" section on this page.

Q: How can I contact CLEA Japan about High Fat Diet 32?
A: The "Inquiry" section on this page includes a link to the contact form for questions about High Fat Diet 32.
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