ABSTRACT
Introduction: Multimodal anaesthesia techniques includeregional anaesthesia in the form of paravertebral block andvarious anaesthetic drugs which acts on different sites of painpathway with different mechanism of action, results in goodquality of analgesia with minimal side effects. They improverecovery along with early mobilization and rehabilitationand early resumption. This technique lowers the level ofinflammatory cytokines. Due to this we aim to evaluate theeffects multimodal anaesthesia technique on level of IL-6inflammatory cytokines in breast carcinoma surgery.Material and Methods: Patients were randomized intofollowing three groups (n=30 in each group) using a computergenerated random number tables. Group I: paracetamol 10 mg/kg, Group II: paracetamol at 10 mg/kg and dexmedetomidine0.5μg/kg, Group III: paracetamol 10 mg/kg, dexmedetomidine0.5 μg/kg and paravertebral block with levobupivacaine.Fentany (2 μg/kg) with general anaesthesia were common inall three groups. Statistical Analysis: All the categorical datawas compared by using student “t” test, chi-square test andparametric data by analysis of variance (ANOVA).Results: Patients of group III was haemodynamically morestable as compared to group II and I. IL-6 level was 358.15, ingroup I, 354 in group II and 346.65 in group III preoperativelywhile 324.85 in group I, 320.95 in group II, 278.35 in group IIIafter 2 hour surgery. IL-6 level was significantly different ingroup III as compared to group II and group I postoperatively.Conclusion: Multimodal approach is a better anesthetictechnique in terms of hemodynamic stability with decreasedlevels of IL-6 inflammatory cytokines.
ABSTRACT
The cyanobacterium Oscillatoria agardhii was isolated from the fresh water Mawatha lake, Jaipur and was grown in Zarrouk's medium at 25 ± 2°C, illuminated with white fluorescent light at the intensity of 2 500 lux with 12:12 h light and dark photoperiod. The effects of photoperiod and temperature on the growth and protein expression by Oscillatoria agardhii were studied under different controlled culture conditions (ALR, ALC, CLR, CLC, and NDL), measuring optical density, cell count and dry weight. Protein content was measured quantitatively by Bradford assay and qualitatively by SDS-PAGE. The densitometric analysis was also carried out for the measurement of the expression level of different proteins/peptides under different culture conditions. Maximum growth and protein content were observed in ALR condition while minimum was in the CLC. Alternate light and dark periods proved efficient as contrasting banding patterns were observed with many new unique polypeptides such as 32, 36.3, 47.9, 60.8, and 67.0 kDa, whereas, expressions of three polypeptides of 57.2, 110.1, and 117.3 kDa were inhibited in constant light cultures.
ABSTRACT
In order to find out optimum culture condition for algal growth, the effect of light irradiance and temperature on growth rate, biomass composition and pigment production of Spirulina platensis were studied in axenic batch cultures. Growth kinetics of cultures showed a wide range of temperature tolerance from 20 ºC to 40 ºC. Maximum growth rate, cell production with maximum accumulation of chlorophyll and phycobilliproteins were found at temperature 35 ºC and 2,000 lux light intensity. But with further increase in temperature and light intensity, reduction in growth rate was observed. Carotenoid content was found maximum at 3,500 lux. Improvement in the carotenoid content with increase in light intensity is an adaptive mechanism of cyanobacterium S.platensis for photoprotection, could be a good basis for the exploitation of microalgae as a source of biopigments.