Lower limb lymphedema and neurological complications after lymphadenectomy for gynecological cancer.

OBJECTIVE: Lymphadenectomy is a frequent procedure for surgical staging of gynecological malignancies. Nevertheless, minor complications, such as lower limb lymphedema (LLL) and neurological complications (NCs), after pelvic and aorto-caval lymphadenectomy still remain underinvestigated. The present study considers short-term and long-term incidence and risk factors for LLL and NC in patients with gynecological cancer who underwent lymphadenectomy. MATERIALS AND METHODS: In 2 different institutions, University of Turin and University of Lausanne, a total of 152 patients who received lymphadenectomy for endometrial, cervical, or ovarian cancer were retrospectively identified. During the follow-up, data about LLL and NC were collected by means of a questionnaire. Short-term and long-term incidence of LLL and NC was evaluated, and risk factors, such as age, body mass index, type of cancer, surgical approach, number and extension of the removed lymph nodes, presence of lymph node metastasis, and adjuvant treatments, were analyzed. RESULTS: Short-term incidence of LLL and NC after lymphadenectomy was high (36%) and predictive of long-term persistence. Between the analyzed risk factors, number of removed lymph nodes and adjuvant radiotherapy were significantly associated with an increased incidence of minor complications (P < 0.05). CONCLUSIONS: Lower limb lymphedema and NC are more frequent than expected. They are related to the radicality of lymphadenectomy and adjuvant radiotherapy. They affect the quality of life of the patients treated for gynecological cancer and their perceptions of healing. Minor complications are commonly persistent and need a prompt diagnosis and a specialized management to improve their prognosis.

Effects of a post-weaning cafeteria diet in young rats: metabolic syndrome, reduced activity and low anxiety-like behaviour.

Among adolescents, overweight, obesity and metabolic syndrome are rapidly increasing in recent years as a consequence of unhealthy palatable diets. Animal models of diet-induced obesity have been developed, but little is known about the behavioural patterns produced by the consumption of such diets. The aim of the present study was to determine the behavioural and biochemical effects of a cafeteria diet fed to juvenile male and female rats, as well as to evaluate the possible recovery from these effects by administering standard feeding during the last week of the study. Two groups of male and female rats were fed with either a standard chow diet (ST) or a cafeteria (CAF) diet from weaning and for 8 weeks. A third group of males (CAF withdrawal) was fed with the CAF diet for 7 weeks and the ST in the 8th week. Both males and females developed metabolic syndrome as a consequence of the CAF feeding, showing overweight, higher adiposity and liver weight, increased plasma levels of glucose, insulin and triglycerides, as well as insulin resistance, in comparison with their respective controls. The CAF diet reduced motor activity in all behavioural tests, enhanced exploration, reduced anxiety-like behaviour and increased social interaction; this last effect was more pronounced in females than in males. When compared to animals only fed with a CAF diet, CAF withdrawal increased anxiety in the open field, slightly decreased body weight, and completely recovered the liver weight, insulin sensitivity and the standard levels of glucose, insulin and triglycerides in plasma. In conclusion, a CAF diet fed to young animals for 8 weeks induced obesity and metabolic syndrome, and produced robust behavioural changes in young adult rats, whereas CAF withdrawal in the last week modestly increased anxiety, reversed the metabolic alterations and partially reduced overweight.

Assessment of metabolic fluxes in the mouse brain in vivo using 1H-[13C] NMR spectroscopy at 14.1 Tesla.

(13)C magnetic resonance spectroscopy (MRS) combined with the administration of (13)C labeled substrates uniquely allows to measure metabolic fluxes in vivo in the brain of humans and rats. The extension to mouse models may provide exclusive prospect for the investigation of models of human diseases. In the present study, the short-echo-time (TE) full-sensitivity (1)H-[(13)C] MRS sequence combined with high magnetic field (14.1 T) and infusion of [U-(13)C6] glucose was used to enhance the experimental sensitivity in vivo in the mouse brain and the (13)C turnover curves of glutamate C4, glutamine C4, glutamate+glutamine C3, aspartate C2, lactate C3, alanine C3, γ-aminobutyric acid C2, C3 and C4 were obtained. A one-compartment model was used to fit (13)C turnover curves and resulted in values of metabolic fluxes including the tricarboxylic acid (TCA) cycle flux VTCA (1.05 ± 0.04 μmol/g per minute), the exchange flux between 2-oxoglutarate and glutamate Vx (0.48 ± 0.02 μmol/g per minute), the glutamate-glutamine exchange rate V(gln) (0.20 ± 0.02 μmol/g per minute), the pyruvate dilution factor K(dil) (0.82 ± 0.01), and the ratio for the lactate conversion rate and the alanine conversion rate V(Lac)/V(Ala) (10 ± 2). This study opens the prospect of studying transgenic mouse models of brain pathologies.