Page personnelle



Tél : 0557656235
Envoyer un email

49 publication(s) depuis Juin 1999:

Trier par

* equal contribution
Les IF indiqués ont été collectés par le Web of Sciences en

17/05/2019 | obes surg   IF 3.6
Oral Hydration, Food Intake, and Nutritional Status Before and After Bariatric Surgery.
Vinolas H, Barnetche T, Ferrandi G, Monsaingeon-Henry M, Pupier E, Collet D, Gronnier C, Gatta-Cherifi B

BACKGROUND AND AIMS: Bariatric surgery is considered to be the most effective treatment of morbid obesity. Sleeve gastrectomy (SG) and Roux-en-Y gastric bypass (RYGBP) are the most popular procedures. We evaluated nutritional status, micro- and macronutrient intake, and oral hydration in patients before and regularly during 1 year after RYGBP and SG. METHODS: All patients that had been through bariatric surgery with at least 1-year post-surgery were retrospectively included in the study. All participants were evaluated once during the 2 months before the surgery and at 1, 3, 6, and 12 months after surgery. Clinical and biological evaluations as well as dietary investigations were performed. RESULTS: Fifty-seven patients were included in this study (28 RYGBP and 29 SG). Patients in the RYGBP group had significantly higher body weight (132.3 +/- 22 versus 122.2 +/- 22.2 kg, p = 0.039) than patients in the SG group. Before surgery, total energy intake, oral hydration, and vitamin and mineral intakes were not different between the two groups. RYGBP and SG induced significant similar excess weight loss 1 year after surgery, 48.6 29.8% and 57.6 27.6% of body weight respectively. Energy intake significantly decreased 1 month after surgery and slightly increased from 1 to 12 months without reaching baseline intake levels. Macronutrient repartition did not change during follow-up. Oral hydration significantly decreased after RYGBP (- 58%) and showed a trend to be decreased after SG (- 49%). Sixty-five percent of patients still had vitamin D deficiency 1 year after surgery. Whatever the type of surgery, more than 20% had some vitamin deficiency 1 month after surgery. CONCLUSIONS: Calories intake decreases after bariatric surgery, whatever the type of procedure. In addition, the prevalence of vitamin deficiency is high after bariatric surgery. Lastly, oral hydration is importantly decreased after bariatric surgery, especially after RYGBP.

26/01/2019 | obes surg   IF 3.6
Severe Chronic Kidney Disease Is Associated with a Lower Efficiency of Bariatric Surgery.
Hansel B, Arapis K, Kadouch D, Ledoux S, Coupaye M, Msika S, Vrtovsnik F, Marre M, Boutten A, Cherifi B, Cambos S, Beslay M, Courie R, Roussel R

BACKGROUND: Obesity is a risk factor for chronic kidney disease (CKD) and a relative contraindication for renal transplantation. Bariatric surgery (BS) is an option to address this issue but we hypothesize that severe CKD is associated with a loss of efficacy of BS which could justify recommending it at an earlier stage of the CKD. METHODS: A retrospective study (n = 101 patients) to test primarily for differences in weight loss at 6 and 12 months according to estimated glomerular filtration rate categories (eGFR < 30 including patients on dialysis, 30-60, 60-90, and >/= 90 ml/min/1.73 m(2)) was performed with multivariate analysis adjusted for sex, age, BMI, surgical procedure, and diabetes. We used a second method to confirm our hypothesis comparing weight loss in patients with stage 4-5 CKD (eGFR < 30 ml/min/1.73 m(2), n = 17), and matched controls with eGFR >/= 90 ml/min/1.73 m(2). RESULTS: In the first comparison, the multivariate analysis showed a significant positive association between eGFR and weight loss. However, after exclusion of the subgroup of patients with eGFR < 30 ml/min/1.73 m(2), the difference between groups was no more significant. In addition, percent total weight loss (%TWL) was significantly lower in patients with severe CKD compared to controls: - 15% vs - 23% at 6 months (p < 0.01); - 17% vs - 27% at 12 months (p < 0.01). The percent excess weight loss at 1 year reached 47% in patients with stage 4-5 CKD and 68% in controls subjects (p < 0.01). Surgery was a success at 12 months (weight loss > 50% of excess weight) in 38% of advanced CKD and 88% of controls (p < 0.01). CONCLUSION: The efficacy of BS was reduced in patients with advanced CKD. These results support early BS in patients with early-to-moderate CKD.

06/2018 | obes surg   IF 3.6
Malnutrition After Bariatric Surgery Requiring Artificial Nutrition Supplies.
Loddo C, Poullenot F, Riviere P, Pupier E, Monsaingeon-Henry M, Gronnier C, Collet D, Gatta-Cherifi B


2018 | Front Endocrinol (Lausanne)   IF 3.6
Dietary Protein and Energy Balance in Relation to Obesity and Co-morbidities.
Drummen M, Tischmann L, Gatta-Cherifi B, Adam T, Westerterp-Plantenga M

Dietary protein is effective for body-weight management, in that it promotes satiety, energy expenditure, and changes body-composition in favor of fat-free body mass. With respect to body-weight management, the effects of diets varying in protein differ according to energy balance. During energy restriction, sustaining protein intake at the level of requirement appears to be sufficient to aid body weight loss and fat loss. An additional increase of protein intake does not induce a larger loss of body weight, but can be effective to maintain a larger amount of fat-free mass. Protein induced satiety is likely a combined expression with direct and indirect effects of elevated plasma amino acid and anorexigenic hormone concentrations, increased diet-induced thermogenesis, and ketogenic state, all feed-back on the central nervous system. The decline in energy expenditure and sleeping metabolic rate as a result of body weight loss is less on a high-protein than on a medium-protein diet. In addition, higher rates of energy expenditure have been observed as acute responses to energy-balanced high-protein diets. In energy balance, high protein diets may be beneficial to prevent the development of a positive energy balance, whereas low-protein diets may facilitate this. High protein-low carbohydrate diets may be favorable for the control of intrahepatic triglyceride IHTG in healthy humans, likely as a result of combined effects involving changes in protein and carbohydrate intake. Body weight loss and subsequent weight maintenance usually shows favorable effects in relation to insulin sensitivity, although some risks may be present. Promotion of insulin sensitivity beyond its effect on body-weight loss and subsequent body-weight maintenance seems unlikely. In conclusion, higher-protein diets may reduce overweight and obesity, yet whether high-protein diets, beyond their effect on body-weight management, contribute to prevention of increases in non-alcoholic fatty liver disease NAFLD, type 2 diabetes and cardiovascular diseases is inconclusive.

11/2017 | obes surg   IF 3.6
Lifestyle Intervention Has to Be Part of the Strategy in Kidney Transplant Candidate with Obesity.
Cambos S, Pupier E, Monsaingeon-Henry M, Sawaya E, Moreau K, Gatta-Cherifi B


10/01/2017 | arthritis res ther   IF 4.1
High body mass index in rheumatoid arthritis: why we should promote physical activity.
Hugo M, Mehsen-Cetre N, Pierreisnard A, Pupier E, Cherifi B, Schaeverbeke T, Rigalleau V


2017 | PLoS ONE   IF 2.8
Lifestyle intervention program in deprived obese adult patients and their non-deprived counterparts.
Loddo C, Pupier E, Amour R, Monsaingeon-Henry M, Mohammedi K, Gatta-Cherifi B

INTRODUCTION: Although it is known that the prevalence of obesity is high in deprived patients, the link between deprivation and obesity, and the impact of deprivation on compliance and efficacy of a lifestyle intervention program are not known. MATERIALS AND METHODS: Deprivation was assessed in 40 patients (23 Females, mean+/-SD age: 49+/-17 years) from the diabetology department and 140 patients (101 Females, age: 50+/-15 years) from the nutrition department of Bordeaux University hospital. Eighty-seven patients suffering from obesity were evaluated before and after a tailored, multidisciplinary lifestyle intervention. Deprivation was assessed using EPICES scores. Deprivation was defined with an EPICES score > 30. RESULTS: Deprived patients suffering from obesity had significantly higher current (43.8 +/-8.4 versus 40.9 +/- 5.5 kg/m2, p = 0,02) and maximal BMI (46.1+/- 8.6 versus 42.3+/- 5.2 kg/m2, p = 0.002) compared to non-deprived obese. Percentage of body weight loss was not different according to deprivation (4.74 +/- 0.75 versus 4.65 +/- 1.04%, p = 0.9). EPICES scores were not different according to adherence to lifestyle intervention program (20.5 +/- 8.5 versus 29.9 +/- 3.9 versus 29.0 +/-2.5, no follow up versus partial follow up versus total follow up, p = 0,58). CONCLUSION: Deprived patients suffering from obesity have a more serious disease than non-deprived patients. However, neither compliance to the lifestyle intervention program nor body weight loss differed between deprived patients with obesity and non-deprived ones. Deprivation should not be a limitation when enrolling patients with obesity in lifestyle intervention programs.

10/2016 | Ann Endocrinol (Paris)   IF 1.4
[Obesities: What's new in 2016?]
Gatta-Cherifi B

Since 1997, the World Health Organisation considered obesity, defined as an excess of fat mass, as a disease. Many plans have been set up to fight against obesity in industrialised countries. However, the prevalence of obesity is still increasing. The goal of this paper is to report some of the major scientific publications in terms of epidemiology, physiopathology or therapeutic in the field of obersity mainly published during year 2015-2016 or presented at ENDO meeting 2016.

10/2015 | Trends Endocrin Met   IF 9.8
The Endocannabinoid System: Pivotal Orchestrator of Obesity and Metabolic Disease.
Mazier W*, Saucisse N*, Cherifi-Gatta B, Cota D

The endocannabinoid system (ECS) functions to adjust behavior and metabolism according to environmental changes in food availability. Its actions range from the regulation of sensory responses to the development of preference for the consumption of calorically-rich food and control of its metabolic handling. ECS activity is beneficial when access to food is scarce or unpredictable. However, when food is plentiful, the ECS favors obesity and metabolic disease. We review recent advances in understanding the roles of the ECS in energy balance, and discuss newly identified mechanisms of action that, after the withdrawal of first generation cannabinoid type 1 (CB1) receptor antagonists for the treatment of obesity, have made the ECS once again an attractive target for therapy.

10/2015 | clin nutr   IF 6.4
Maintenance of energy expenditure on high-protein vs. high-carbohydrate diets at a constant body weight may prevent a positive energy balance.
Martens EA, Gonnissen HK, Gatta-Cherifi B, Janssens PL, Westerterp-Plantenga MS

BACKGROUND & AIMS: Relatively high-protein diets are effective for body weight loss, and subsequent weight maintenance, yet it remains to be shown whether these diets would prevent a positive energy balance. Therefore, high-protein diet studies at a constant body weight are necessary. The objective was to determine fullness, energy expenditure, and macronutrient balances on a high-protein low-carbohydrate (HPLC) diet compared with a high-carbohydrate low-protein (HCLP) diet at a constant body weight, and to assess whether effects are transient or sustained after 12 weeks. METHODS: A randomized parallel study was performed in 14 men and 18 women [mean +/- SD age: 24 +/- 5 y; BMI (in kg/m(2)): 22.8 +/- 2.0] on diets containing 30/35/35 (HPLC) or 5/60/35 (HCLP) % of energy from protein/carbohydrate/fat. RESULTS: Significant interactions between dietary intervention and time on total energy expenditure (TEE) (P = 0.013), sleeping metabolic rate (SMR) (P = 0.040), and diet-induced thermogenesis (DIT) (P = 0.027) appeared from baseline to wk 12. TEE was maintained in the HPLC diet group, while it significantly decreased throughout the intervention period in the HCLP diet group (wk 1: P = 0.002; wk 12: P = 0.001). Energy balance was maintained in the HPLC diet group, and became positive in the HCLP diet group at wk 12 (P = 0.008). Protein balance varied directly according to the amount of protein in the diet, and diverged significantly between the diets (P = 0.001). Fullness ratings were significantly higher in the HPLC vs. the HCLP diet group at wk 1 (P = 0.034), but not at wk 12. CONCLUSIONS: Maintenance of energy expenditure on HPLC vs. HCLP diets at a constant body weight may prevent development of a positive energy balance, despite transiently higher fullness. The study was registered on with Identifier: NCT01551238.