Endocrinology and Metabolism

Ji-hoon Kim (Kim Jh)

4 Articles

Diabetes, Obesity and Metabolism
Human Tissue-Engineered Skeletal Muscle: A Tool for Metabolic Research: Ji-Hoon Kim, Seung-Min Yu, Jang Won Son; Endocrinol Metab. 2022;37(3):408-414. Published online June 29, 2022; DOI: https://doi.org/10.3803/EnM.2022.302

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Abstract PDF PubReader ePub Crossref - TDM: Skeletal muscle is now regarded as an endocrine organ based on its secretion of myokines and exerkines, which, in response to metabolic stimuli, regulate the crosstalk between the skeletal muscle and other metabolic organs in terms of systemic energy homeostasis. This conceptual basis of skeletal muscle as a metabolically active organ has provided insights into the potential role of physical inactivity and conditions altering muscle quality and quantity in the development of multiple metabolic disorders, including insulin resistance, obesity, and diabetes. Therefore, it is important to understand human muscle physiology more deeply in relation to the pathophysiology of metabolic diseases. Since monolayer cell lines or animal models used in conventional research differ from the pathophysiological features of the human body, there is increasing need for more physiologically relevant in vitro models of human skeletal muscle. Here, we introduce recent studies on in vitro models of human skeletal muscle generated from adult myogenic progenitors or pluripotent stem cells and summarize recent progress in the development of three-dimensional (3D) bioartificial muscle, which mimics the physiological complexity of native skeletal muscle tissue in terms of maturation and functionality. We then discuss the future of skeletal muscle 3D-organoid culture technology in the field of metabolic research for studying pathological mechanisms and developing personalized therapeutic strategies.

Adrenal gland
Embryonic Development and Adult Regeneration of the Adrenal Gland: Ji-Hoon Kim, Man Ho Choi; Endocrinol Metab. 2020;35(4):765-773. Published online December 23, 2020; DOI: https://doi.org/10.3803/EnM.2020.403

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The adrenal gland plays a pivotal role in an organism’s health span by controlling the endocrine system. Decades of research on the adrenal gland have provided multiscale insights into the development and maintenance of this essential organ. A particularly interesting finding is that founder stem/progenitor cells participate in adrenocortical development and enable the adult adrenal cortex to regenerate itself in response to hormonal stress and injury. Since major advances have been made in understanding the dynamics of the developmental process and the remarkable regenerative capacity of the adrenal gland, understanding the mechanisms underlying adrenal development, maintenance, and regeneration will be of interest to basic and clinical researchers. Here, we introduce the developmental processes of the adrenal gland and discuss current knowledge regarding stem/progenitor cells that regulate adrenal cortex remodeling and regeneration. This review will provide insights into the fascinating ongoing research on the development and regeneration of the adrenal cortex.

Citations

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Adrenal Dysfunction in Mitochondrial Diseases
Madeleine Corkery-Hayward, Louise A. Metherell
International Journal of Molecular Sciences.2023; 24(2): 1126. CrossRef
Effects of very low-calorie ketogenic diet on hypothalamic–pituitary–adrenal axis and renin–angiotensin–aldosterone system
L. Barrea, L. Verde, E. Camajani, A. S. Šojat, L. Marina, S. Savastano, A. Colao, M. Caprio, G. Muscogiuri
Journal of Endocrinological Investigation.2023;[Epub] CrossRef
Post‐hatching developmental changes in the adrenal gland of the Japanese quail (Coturnix coturnix japonica): Histological, immunohistochemical, and electron microscopic studies
Fatma M. Abdel‐maksoud, Saher Fadl, Ahmed Abou‐Elmagd, Abdelmohaimen M.M. Saleh
Microscopy Research and Technique.2023;[Epub] CrossRef
Interactive metabolic signatures of testicular testosterone with bilateral adrenalectomy in mice
Hae Lim Cho, Ji-Hoon Kim, Seuk-Min Ryu, Jongsung Noh, Sang Won Lee, Man Ho Choi
The Journal of Steroid Biochemistry and Molecular Biology.2023; 231: 106333. CrossRef
Construction of a novel clinical nomogram to predict cancer-specific survival in patients with primary malignant adrenal tumors: a large population-based retrospective study
Mingzhen Li, Xiaoying Duan, Di You, Linlin Liu
Frontiers in Medicine.2023;[Epub] CrossRef
An Update on Genetics of Adrenal Gland and Associated Disorders
Chester Gauss, Dustin Rowland, Berrin Ergun-Longmire
Endocrines.2022; 3(2): 187. CrossRef
Immune dysfunction after spinal cord injury – A review of autonomic and neuroendocrine mechanisms
Kyleigh A. Rodgers, Kristina A. Kigerl, Jan M. Schwab, Phillip G. Popovich
Current Opinion in Pharmacology.2022; 64: 102230. CrossRef
Clinical and Technical Aspects in Free Cortisol Measurement
Man Ho Choi
Endocrinology and Metabolism.2022; 37(4): 599. CrossRef
Surrénalectomies
Isabelle Valin, Dan Rosenberg
Le Nouveau Praticien Vétérinaire canine & féline.2022; 19(82): 50. CrossRef
Adrenal medulla development and medullary-cortical interactions
Nicole Bechmann, Ilona Berger, Stefan R. Bornstein, Charlotte Steenblock
Molecular and Cellular Endocrinology.2021; 528: 111258. CrossRef
Theory: Treatments for Prolonged ICU Patients May Provide New Therapeutic Avenues for Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS)
Dominic Stanculescu, Lars Larsson, Jonas Bergquist
Frontiers in Medicine.2021;[Epub] CrossRef
Unravelling Polycystic Ovary Syndrome and Its Comorbidities
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Journal of Obesity & Metabolic Syndrome.2021; 30(3): 209. CrossRef

Miscellaneous
Corrigendum: Author's Name Correction. Study Protocol of Multicenter Prospective Cohort Study of Active Surveillance on Papillary Thyroid Microcarcinoma (MAeSTro): Jae Hoon Moon, Ji-hoon Kim, Eun Kyung Lee, Kyu Eun Lee, Sung Hye Kong, Yeo Koon Kim, Woo-Jin Jeong, Chang Yoon Lee, Roh-Eul Yoo, Yul Hwangbo, Young Shin Song, Min Joo Kim, Sun Wook Cho, Su-jin Kim, Eun-Jae Chung, June Young Choi, Chang Hwan Ryu, You Jin Lee, Jeong Hun Hah, Yuh-Seog Jung, Junsun Ryu, Yunji Hwang, Sue K. Park, Ho Kyung Sung, Ka Hee Yi, Do Joon Park, Young Joo Park; Endocrinol Metab. 2018;33(3):427-427. Published online August 14, 2018; DOI: https://doi.org/10.3803/EnM.2018.33.3.427

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Invasiveness and Metastatic Aggressiveness in Small Differentiated Thyroid Cancers: Demography of Small Papillary Thyroid Carcinomas in the Swedish Population
Haytham Bayadsi, Martin Bergman, Malin Sund, Joakim Hennings
World Journal of Surgery.2020; 44(2): 461. CrossRef
Clinical and pathologic predictors of lymph node metastasis in papillary thyroid microcarcinomas
Ling Zhao, Xiaoya Sun, Yukun Luo, Fulin Wang, Zhaohui Lyu
Annals of Diagnostic Pathology.2020; 49: 151647. CrossRef

Thyroid
Study Protocol of Multicenter Prospective Cohort Study of Active Surveillance on Papillary Thyroid Microcarcinoma (MAeSTro): Jae Hoon Moon, Ji-hoon Kim, Eun Kyung Lee, Kyu Eun Lee, Sung Hye Kong, Yeo Koon Kim, Woo-jin Jung, Chang Yoon Lee, Roh-Eul Yoo, Yul Hwangbo, Young Shin Song, Min Joo Kim, Sun Wook Cho, Su-jin Kim, Eun Jae Jung, June Young Choi, Chang Hwan Ryu, You Jin Lee, Jeong Hun Hah, Yuh-Seog Jung, Junsun Ryu, Yunji Hwang, Sue K. Park, Ho Kyung Sung, Ka Hee Yi, Do Joon Park, Young Joo Park; Endocrinol Metab. 2018;33(2):278-286. Published online June 21, 2018; DOI: https://doi.org/10.3803/EnM.2018.33.2.278

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Background

The ongoing Multicenter Prospective Cohort Study of Active Surveillance on Papillary Thyroid Microcarcinoma (MAeSTro) aims to observe the natural course of papillary thyroid microcarcinoma (PTMC), develop a protocol for active surveillance (AS), and compare the long-term prognosis, quality of life, and medical costs between the AS and immediate surgery groups.

Methods

This multicenter prospective cohort study of PTMC started in June 2016. The inclusion criteria were suspicious of malignancy or malignancy based on fine needle aspiration or core needle biopsy, age of ≥18 years, and a maximum diameter of ≤1 cm. If there was no major organ involvement, no lymph node/distant metastasis, and no variants with poor prognosis, the patients were explained of the pros and cons of immediate surgery and AS before selecting AS or immediate surgery. Follow-up visits (physical examination, ultrasonography, thyroid function, and questionnaires) are scheduled every 6 months during the first 2 years, and then every 1 year thereafter. Progression was defined as a maximum diameter increase of ≥3, ≥2 mm in two dimensions, suspected organ involvement, or lymph node/distant metastasis.

Results

Among 439 enrolled patients, 290 patients (66.1%) chose AS and 149 patients (33.9%) chose immediate surgery. The median follow-up was 6.7 months (range, 0.2 to 11.9). The immediate surgery group had a larger maximum tumor diameter, compared to the AS group (7.1±1.9 mm vs. 6.6±2.0 mm, respectively; P=0.014).

Conclusion

The results will be useful for developing an appropriate PTMC treatment policy based on its natural course and risk factors for progression.

Citations

Citations to this article as recorded by

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