Visceral Adiposity and Sarcopenic Visceral Obesity are Associated with Poor Prognosis After Resection of Pancreatic Cancer

Okumura, Shinya; Kaido, Toshimi; Hamaguchi, Yuhei; Kobayashi, Atsushi; Shirai, Hisaya; Yao, Siyuan; Yagi, Shintaro; Kamo, Naoko; Hatano, Etsuro; Okajima, Hideaki; Takaori, Kyoichi; Üemoto, Shinji

doi:10.1245/s10434-017-6077-y

Cited by 131 publications

(145 citation statements)

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“…Recently, the concept of sarcopenic obesity has been proposed. It has been suggested that sarcopenic obesity is a poor prognostic factor in several malignant diseases [25,26]. In the present study, BMI was higher in the H group than in the N group; thus, the proportion of body fat might also be higher in the H group, suggesting that a high IMAC may be an index of sarcopenic obesity.…”

Section: Discussionsupporting

confidence: 45%

Impact of intramuscular adipose tissue content on short- and long-term outcomes of hepatectomy for colorectal liver metastasis: a retrospective analysis

et al. 2020

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Background: Numerous reports regarding sarcopenia have focused on the quantity of skeletal muscle. In contrast, the impact of the quality of skeletal muscle has not been well investigated. Methods: A retrospective analysis of 115 patients who underwent initial hepatectomy for colorectal liver metastasis between January 2009 and December 2016 in our hospital was performed. Intramuscular adipose tissue content (IMAC) was used to evaluate the quality of skeletal muscle by analysing computed tomography (CT) images at the level of the umbilicus. The impact of poor skeletal muscle quality on short-term and long-term outcomes after hepatectomy for colorectal liver metastasis was analysed. Results: Patients were divided into two groups (high IMAC and normal IMAC) according to their IMAC values, and their backgrounds were compared. There were no significant differences in most factors between the two groups. However, both body mass index (P = 0.030) and the incidence of postoperative complications of Clavien-Dindo grade 3 or worse (P = 0.008) were significantly higher in the high-IMAC group. In multivariate analyses, an operative blood loss > 600 ml (P = 0.006) and high IMAC (P = 0.008) were associated with postoperative complications of Clavien-Dindo grade 3 or worse. Overall survival and recurrence-free survival were significantly lower (P < 0.001 and P = 0.045, respectively) in the high-IMAC group than in the normal IMAC group. In multivariate analyses for poor overall survival, high IMAC was associated with poor overall survival (P < 0.001). Conclusions: IMAC is a prognostic factor for poor short-and long-term outcomes in patients with colorectal liver metastasis.

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Section: Discussionsupporting

confidence: 45%

Impact of intramuscular adipose tissue content on short- and long-term outcomes of hepatectomy for colorectal liver metastasis: a retrospective analysis

et al. 2020

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“… 1, Antoun et al (2013); 2, Martin et al (2013); 3, Akahori et al (2015); 4, Aust et al (2015); 5, Fujiwara et al (2015); 6, Malietzis et al , (2015); 7, Malietzis et al , (2016); 8, Malietzis, Johns, et al (2016); 9, Malietzis, Lee, et al (2016); 10, Boer et al (2016); 11, Cushen et al (2016); 12, Hayashi et al (2016); 13, Kumar et al (2016); 14, Pędziwiatr et al (2016); 15, Rollins et al (2016); 16, Sjøblom et al (2016); 17, Tamandl, Pedley, Hoffmann, Fox, and Murabito (2016); 18, Atlan et al (2017); 19, Bye et al (2017); 20, Chu et al (2017); 21, Daly et al (2017); 22, Daly, Ní Bhuachalla, et al (2018); 23, Kubo, Naito, Mori, Osawa, and Aruga (2017); 24, Loumaye et al (2017); 25, Okumura et al (2017a); 26, Okumura et al (2017b); 27, Rier et al (2017); 28, Rier et al (2018); 29, Shachar, Deal, Weinberg, Williams, et al (2017); 30, Shachar, Deal, Weinberg, Nyrop, et al (2017); 31, Van Rijssen et al (2017); 32, van Roekel et al (2017); 33, Williams et al (2017); 34, Williams et al (2018); 35, Choi et al (2018); 36, Deng et al (2018); 37, Ní Bhuachalla et al (2018); 38, Rodrigues and Chaves (2018); 39, Silva de Paula et al (2018); 40, Souza et al (2018); 41, Versteeg et al (2018); 42, Charette et al (2019); 43, Kiss et al (2019); 44, Zhang et al (2018); 45, Dohzono, Sasaoka, Takamatsu, Hoshino, and Nakamura (2019); 46, van Baar et al (2018); 47, Atasevenet et al (2018); 48, Martin et al (2018); 49, Stretch et al (2018); 50, van Dijk et al (2018); 51, van Vugt, Gaspersz, et al (…”

Section: Resultsmentioning

confidence: 99%

“…1, Mayer et al (1989); 2, Goodpaster, Kelley, et al (2000); 3, Hicks et al (2005a); 4, Hicks et al (2005b); 5, Komiya et al (2006); 6, Laroche and Cintas (2010); 7, Anderson et al (2013); 8, Anderson et al (2014); 9, Antoun et al (2013); 10, Miljkovic et al (2013); 11, Therkelsen et al (2013); 12, Therkelsen et al (2016); 13, Kim et al (2014); 14, Akahori et al (2015); 15, Aust et al (2015); 16, Malietzis et al (2015); 17, Malietzis, Currie, et al (2016); 18, Malietzis, Johns, et al (2016); 19, Malietzis, Lee, et al (2016); 20, Cushen et al (2016); 21, Hayashi et al (2016); 22, Kumar et al (2016); 23, Looijaard et al (2016); 24, Montano‐Loza et al (2016); 25, Rollins et al (2016); 26, Wang et al (2016); 27, Atlan et al (2017); 28, Azuma et al (2017); 29, Bye et al (2017); 30, Erlandson et al (2017); 31, Locke et al (2017); 32, Loumaye et al (2017); 33, Okumura et al (2017b); 34, Rier et al (2017); 35, Rier et al (2018); 36, Shachar, Deal, Weinberg, Williams, et al (2017); 37, Shachar, Deal, Weinberg, Nyrop, et al (2017); 38, van Roekel et al (2017); 39, Williams et al (2017); 40, Williams et al (2018); 41, Choi et al (2018); 42, Rodrigues and Chaves, (2018); 43, Silva de Paula et al (2018); 44, Souza et al (2018); 45, Versteeg et al (2018); 46, Charette et al (2019); 47, Kiss et al (2019); 48, Zhang et al (2018); 49, Coats et al (2018); 50, Vella et al (2018); 51, Dohzono et al (2019); 52, van Baar et al (2018); 53, ...…”

Section: Resultsmentioning

confidence: 99%

“… 1, Mayer et al (1989); 2, Goodpaster, Kelley, et al (2000); 3, Ricq and Laroche, (2000); 4, Hicks et al (2005a); 5, Hicks et al (2005b); 6, Komiya et al (2006); 7, Anderson et al (2013); 8, Anderson et al (2014); 9, Antoun et al (2013); 10, Martin et al (2013); 11, Miljkovic et al (2013); 12, Akahori et al (2015); 13, Aust et al (2015); 14, Fujiwara et al (2015); 15, Malietzis et al (2015); 16, Malietzis, Currie, et al (2016); 17, Malietzis, Johns, et al (2016); 18, Malietzis, Lee, et al (2016); 19, Boer et al (2016); 20, Cushen et al (2016); 21, Hayashi et al (2016); 22, Kumar et al (2016); 23, Looijaard et al (2016); 24, Montano‐Loza et al (2016); 25, Pędziwiatr et al (2016); 26, Rollins et al (2016); 27, Sjøblom et al (2016); 28, Tamandl et al (2016); 29, Wang et al (2016); 30, Atlan et al (2017); 31, Bye et al ; (2017); 32, Chu et al (2017); 33, Daly et al (2017); 34, Daly, Ní Bhuachalla, et al (2018); 35, Erlandson et al (2017); 36, Kubo et al (2017); 37, Locke et al (2017); 38, Loumaye et al (2017); 39, Okumura et al (2017a); 40, Okumura et al (2017b); 41, Rier et al (2017); 42, Rier et al (2018); 43, van Grinsven et al (2017); 44, Van Rijssen et al (2017); 45, van Roekel et al (2017); 46, Choi et al (2018); 47, Matsumoto et al (2018); 48, Ní Bhuachalla et al (2018); 49, Souza et al (2018); 50, Versteeg et al (2018); 51, Graffy et al (2019); 52, Charette et al (2019); 53, Kiss...…”

Section: Resultsmentioning

confidence: 99%

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Assessing skeletal muscle radiodensity by computed tomography: An integrative review of the applied methodologies

Poltronieri

Paula

Chaves

2020

Clin Physio Funct Imaging

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Low‐radiodensity skeletal muscle has been related to the degree of muscle fat infiltration and seems to be associated with worse outcomes. The aim of this study was to summarize the methodologies used to appraise skeletal muscle radiodensity by computed tomography, to describe the terms used in the literature to define muscle radiodensity and to give recommendations for its measurement standardization. An integrative bibliographic review in four databases included studies published until August 2019 in Portuguese, English or Spanish and performed in humans, adults and/or the elderly, of both sex, which investigated skeletal muscle radiodensity through computed tomography (CT) of the region between the third and fifth lumbar vertebrae and evaluated at least two muscular groups. One hundred and seventeen studies were selected. We observed a trend towards selecting all abdominal region muscle. A significant methodological variation in terms of contrast use, selection of skeletal muscle areas, radiodensity ranges delimitation and their cut‐off points, as well as the terminologies used, was also found. The methodological differences detected are probably due to the lack of more precise information about the correlation between skeletal muscle radiodensity by CT and its molecular composition, among others. Therefore, until the gaps are addressed in future studies, authors should avoid arbitrary approaches when reporting skeletal muscle radiodensity, especially when it comes to prognosis inference. Studies using both CT and direct methods of muscle composition evaluation are encouraged, to enable the definition and validation of the best approach to classify fat‐infiltrated muscle tissue, which will favour the nomenclature uniformization.

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“…The alteration in body composition also makes an impaired response to chemotherapy and radiation therapy in a variety of cancers, making treatments more difficult in these patients. In a retrospective study of pancreatic cancer patients, sarcopenic obesity is associated with lower overall survival and recurrence-free survival [7,17,[73][74][75][76][77][78] Multiple studies of different cancer patients conclude sarcopenic obesity as an independent risk factor on clinical outcomes and overall survival after surgical resection [28,79]. Sarcopenic obesity is also seen as an independent risk factor of mortality in lung, prostate, and GI cancer patients with the locally advanced or metastatic disease [11,[80][81][82][83].…”

Section: Impacts Of Sarcopenic Obesity In Cancer Patientsmentioning

confidence: 99%

Sarcopenic Obesity in Cancer Patients: Focus on Pathogenesis

Raffaello

Kurniawan

2020

Indonesian Journal of Cancer

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Introduction: Sarcopenic obesity is an emerging problem in cancer patients. However, this is often difficult to diagnose without the measurement of body composition. Sarcopenic obesity is associated with increased mortality, chemo-toxicity, and other complications in cancer patients. Until now, there is scarce information about sarcopenic obesity in the cancer population.Method: We identified 1955 articles related to sarcopenic obesity in adult cancer patients using PubMed, PubMed Central, and Cochrane Library databases from January 1, 1989, until January 1, 2020. Firstly, we screened the titles and abstracts which mentioned sarcopenic and obesity, especially in pathogenesis. 29 articles could proceed to the next step; then, they were screened for the full text. All steps were reviewed by two authors.Results: At last, they were 9 articles included. Sarcopenic obesity is defined as the coexistence of sarcopenia and obesity, an increase in fat mass in the body. Sarcopenic obesity carried cumulative risks from each of the two individual body compositions. CT-scan offers the highest available precision in determining body composition parameters, especially in the cancer population. Multiple causes and interactions between hormonal changes, aging, disuse, neuronal, poor nutrition, physical inactivity, and low-grade inflammation played roles. Sarcopenic obesity is associated with chemotherapy toxicity. High protein intake should be initiated to ensure adequate protein intake. Resistance training is beneficial in improving muscle mass and strength by focusing on strength training, flexibility, and balance.Conclusions: Sarcopenic obesity is an emerging problem but is often neglected. Further research needs to be conducted especially in explaining the pathogenesis of sarcopenic obesity. The combination of physical exercise and diet modification is the best management to improve sarcopenia obesity in cancer patients.

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Visceral Adiposity and Sarcopenic Visceral Obesity are Associated with Poor Prognosis After Resection of Pancreatic Cancer

Abstract: Visceral adiposity and sarcopenic visceral obesity, as well as low muscle mass and quality, were closely associated with mortality and recurrence after resection of pancreatic cancer.

Cited by 131 publications

References 38 publications

Impact of intramuscular adipose tissue content on short- and long-term outcomes of hepatectomy for colorectal liver metastasis: a retrospective analysis

Impact of intramuscular adipose tissue content on short- and long-term outcomes of hepatectomy for colorectal liver metastasis: a retrospective analysis

Assessing skeletal muscle radiodensity by computed tomography: An integrative review of the applied methodologies

Sarcopenic Obesity in Cancer Patients: Focus on Pathogenesis

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