14 research outputs found
Weight change during chemotherapy changes the prognosis in non metastatic breast cancer for the worse
<p>Abstract</p> <p>Background</p> <p>Weight change during chemotherapy is reported to be associated with a worse prognosis in breast cancer patients, both with weight gain and weight loss. However, most studies were conducted prior to the common use of anthracycline-base chemotherapy and on North American populations with a mean BMI classified as overweight. Our study was aimed to evaluate the prognostic value of weight change during anthracycline-based chemotherapy on non metastatic breast cancer (European population) with a long term follow-up.</p> <p>Methods</p> <p>Patients included 111 women diagnosed with early stage breast cancer and locally advanced breast cancer who have been treated by anthracycline-based chemotherapy regimen between 1976 and 1989. The relative percent weight variation (WV) between baseline and postchemotherapy treatment was calculated and categorized into either weight change (WV > 5%) or stable (WV < 5%). The median follow-up was 20.4 years [19.4 - 27.6]. Cox proportional hazard models were used to evaluate any potential association of weight change and known prognostic factors with the time to recurrence and overall survival.</p> <p>Results</p> <p>Baseline BMI was 24.4 kg/m2 [17.1 - 40.5]. During chemotherapy treatment, 31% of patients presented a notable weight variation which was greater than 5% of their initial weight.</p> <p>In multivariate analyses, weight change (> 5%) was positively associated with an increased risk of both recurrence (RR 2.28; 95% CI: 1.29-4.03) and death (RR 2.11; 95% CI: 1.21-3.66).</p> <p>Conclusions</p> <p>Our results suggest that weight change during breast-cancer chemotherapy treatment may be related to poorer prognosis with higher reccurence and higher mortality in comparison to women who maintained their weight.</p
A decrease in brown adipose tissue activity is associated with weight gain during chemotherapy in early breast cancer patients
International audienceBackground : A decrease in thermogenesis is suspected to be implicated in the energy expenditure reduction during breast cancer treatment. This study aimed to investigate the impact of chemotherapy on the metabolic activity of brown adipose tissue (BAT) and the link with weight variation.Methods : This was an ancillary analysis of a multicentre trial involving 109 HER2+ breast cancer patients treatedwith neoadjuvant chemotherapy. A centralised review of18F-FDG uptake intensity (SUVmax) in specific BAT regions(cervical and supraclavicular) was conducted on two PET-CT scans for each patient (before and after the first courseof chemotherapy).Results : Overall, after one course of chemotherapy a significant decrease of 4.4% in18F-FDG-uptake intensity wasobserved. It was not correlated to initial BMI, age or season. During chemotherapy, 10.1% (n= 11) of the patientslost weight (−7.7 kg ± 3.8 kg; ie,−9.4% ± 3.7%) and 29.4% (n= 32) gained weight (+ 5.1 kg ± 1.7 kg; ie, + 8.5% ±2.6%). Among these subgroups, only the patients who had gained weight underwent a significant decrease(13.42%) in18F-FDG uptake intensity (p= 0.042).Conclusion : This study is the first to highlight in a large cohort of patients the negative impact of chemotherapyon brown adipose tissue activity. Weight gain during chemotherapy could thus potentially be explained in part bya decrease in brown adipose tissue activit
Treatment-Induced Cardiotoxicity in Breast Cancer: A Review of the Interest of Practicing a Physical Activity
International audiencePhysical activity is known to prevent the occurrence of cancer and decrease the risk of breast cancer. At diagnosis of breast cancer, fewer than half of the patients reach the international recommendation for physical activity. However, breast cancer patients, and particularly HER2+ breast cancer patients, are exposed to treatment-induced cardiotoxicity because of a side effect of 2 molecules used in standard therapy to treat these tumors, i.e., anthracycline and trastuzumab. Cardiotoxicity can sometimes lead to discontinuation of the treatment and even to the development of cardiovascular diseases. Exercise is known to protect the cardiovascular system in the healthy population. Consequently, being physically active during treatment appears to be a way to prevent the negative impact of cancer treatment on the heart in this population. In particular, aerobic exercising could have a protective effect against treatment-induced cardiotoxicity. A supervised physical activity program seems to be the best way for breast cancer patients to be active during treatment. However, there is very little information, and in particular a lack of guidelines, on exercising available to patients. The interventional trials that have been conducted on this topic are very heterogeneous and no standard recommendations have been made available for cancer patients thus far. An effective physical activity program needs to take each patient’s barriers and motivations into account in order to encourage the practice of physical activity throughout treatment. To ensure the success of the program, it is essential to facilitate adherence and especially maintain motivation. Further studies are needed to determine what practice guidelines oncologists should give their patients
Hibernoma: a clinical model for exploring the role of brown adipose tissue in the regulation of body weight?
Context: Hibernoma is a rare benign tumor histologically similar to brown adipose tissue. Some studies reported weight loss in patients with this tumor; however, the mechanisms have never been investigated. Objective: The purpose of this study is to explore the impact of hibernoma resection on the whole-body metabolism. Patient and Methods: A 68-year-old woman was examined after a weight loss of 10 kg in 6 months. Body composition, food intake, physical activity, blood levels of thyroid hormones, and lipid profile were assessed before surgery and during 1 year after surgery. The patient's resting energy expenditure (REE) over time was compared to a control group of 18 matched healthy volunteers. Results: Within 1 year after hibernoma resection, the patient gained 15 kg of body weight. This was associated with fat mass gain (+41%), mainly in the abdominal region (+48%). The patient also developed hepatic nonalcoholic steatosis, mild hypertriglyceridemia, and reduced levels of high-density lipoproteins. REE increased during the dynamic phase of weight gain, compared to the presurgery measurement, and returned to baseline after 1 year. Food intake was increased by 37.5% 6 weeks after resection of the hibernoma and returned to baseline values within 6 months. Conclusions: In our study conditions, hibernoma did not alter REE, but weight gain did. Specific physical activities and dietetic follow-ups are suggested for those patients to prevent excess fat mass gain and metabolic disorders after hibernoma resection. More studies should focus on hibernoma mechanisms inducing weight loss. Affiliation
Prospective study of the energy balance disruption during adjuvant chemotherapy in post-menopausal early-stage breast cancer patient
International audienc
Poor prognostic value of weight change during chemotherapy in non-metastatic breast cancer patients: causes, mechanisms involved and preventive strategies
National audienceNumerous studies have demonstrated that a significant change in weight during chemotherapy treatment was a factor of poor prognosis in early breast cancer women. However, the causes and mechanisms involved in this phenomenon are not fully known. This review summarizes current knowledge about the causes of energy imbalance during chemotherapy treatment and the mechanisms that have been proposed as responsible for the increased risk of relapse and death in this population. Current preventive strategies focus on physical activity programs but also on the use of metformin during and after chemotherapy
Prospective Study on Body Composition, Energy Balance and Biological Factors Changes in Post-menopausal Women with Breast Cancer Receiving Adjuvant Chemotherapy Including Taxanes
International audienceIn breast cancer patients, weight and fat mass changes observed after chemotherapy have been related to poor prognosis but some recent works using modern chemotherapy failed to find this correlation with weight gain. In this study, the extent of changes in weight and body composition (DEXA, impedance) was characterized until six months after current chemotherapy, in 50 post-menopausal women with breast cancer. The evolution of factors contributing to the energy balance and some biological factors were also described. During chemotherapy, 20% of women lost weight due to both fat (-13.1% ± 10.3) and lean soft tissue mass loss (-3.6% ± 4.6). Twenty percent of women gained weight. No significant fat mass gain was observed in these women but significant water gain was highlighted. Six months later, women who gained weight presented a gain in fat mass (15.4% ± 19.0), especially in the abdominal region. Age and initial BMI were negatively correlated with fat mass in multivariate analyzes (r = 0.486, P = 0.0030). No significant variation of the glucose homeostasis, triglycerides, and HDL-Cholesterol was found six months after chemotherapy. These results do not suggest major adverse metabolic disturbances six months after modern chemotherapy and only a mild fat mass gain was observed in women who gained weight