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    Factors effecting an obesity reduction treatment programme in a secondary school : a thesis presented in partial fulfilment of the requirements for the degree of Master of Arts in Applied Psychology at Massey University /
    (Massey University, 1977) Tennent, Iain Baird
    The present study examined the effects of a 21 week programme on 9 obese adolescents in a school setting. The study's theme was chosen because research in the area of adolescent obesity is sparse. Self monitoring of intake, self monitoring of increased exercise, varying frequency of weighings and continuing instruction in the behavioural control of eating were used. Varying measures were examined to try to find predictors of the Ss' success probabilities and to describe psychological aspects associated with adolescent obesity. Significant correlations with weight loss indicated that: (a) gains in personal adjustment followed weight loss; (b) California Test of Personality Scores and Primary School Record Personal Effort Scores, were good predictors of success; (c) degree of self monitoring of intake and degree of family support were closely associated with success; It was found that: (d) increased exercise output was an important factor; (e) trends were present showing improved academic performance following weight loss; (f) obese adolescents had significantly more absences from school and were high risks for truancy and premature termination of schooling. These findings were discussed relative to the literature on obesity.
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    Development of beverage model to test appetite control food ingredients : a thesis presented in partial fulfilment of the requirements for the degree of Master of Technology in Food Technology at Massey University, Palmerston North, New Zealand
    (Massey University, 2013) Ho, Hui Hsing Irene
    The present project is part of the broader ‘Foods for Appetite Control’ research programme of Plant & Food Research. The programme aims to deliver validated satiety effects (reduce appetite and provide more than four hours of satiety) in foods through phytochemicals and macro-nutrients. As it is necessary to validate the satiety effects through clinical trials, a beverage model was developed. It served as a ‘vehicle’ for incorporating phytochemicals (e.g. fruit extract) and macro-nutrients (e.g. viscous fibre – alginate) to deliver their satiety effects, which were validated by a satiety measurement trial. The development work began with the characterization of viscous fibres. Based on the literature review, pectins and alginates appear to be more satiating than other viscous fibres. It is believed that gastric gelation can induce satiety, through the formation of a gel that has some strength (presumably in the stomach). Based on rheological measurements, Protanal® LF120 alginate and Grindsted® Pectin LA410 were selected for further evaluation in the beverage model. These viscous fibres met the criteria of providing viscosity to the beverage, showing sensitivity to acids and calcium ions resulting in gelation, and contributing to higher gel strength than others that were evaluated. The beverage model was developed as a partial-meal replacer beverage, which is non-dairy, soy protein-based, fruit-flavoured (blueberry), 250 mL and of neutral pH (~7.2). The development work has established a base formulation and processing method for the beverage model and has successfully incorporated Protanal LF120 (0.25% and 0.5%) and fruit extract (0.2%). Due to its low viscosity and poor stability in UHT-processing even at high levels, Pectin LA410 was excluded from further evaluation. Incorporation of quercetin and isoquercetin into the beverage model was unsuccessful because of their insolubility in water and interactions with soy proteins. A methodology for satiety measurement was established and a trial was carried out to validate the satiety effects (subjective appetite) of the fruit extract and Protanal LF120 in the beverage model. The trial used a preload (6 test beverages), within-subject (n = 12), repeated measures, completely balanced, crossover and randomized design. The satiety effect of Protanal LF120 was found to be dose-dependent; higher alginate level significantly increased the satiety effect of the beverage. Differences in mean appetite ratings (P <0.05) between low and high alginate levels were 6.9%, 8.3%, 10.6%, 6.3% and 6.7% for hunger, fullness, satiety, desire to eat and prospective food consumption ratings, respectively. On the other hand, the data did not reveal statistically significant results across all appetite scales (except for hunger, P = 0.015) between beverages with and without fruit extract. In addition, the interaction of alginate*fruit extract was not statistically significant, implying that the higher satiety effect of the high level alginate + fruit extract beverage could be purely due to the alginate. Further testing is warranted: (1) to incorporate higher levels of fruit extract in the beverage model to evaluate any dose-dependency, (2) to determine if an additive or synergetic satiety effect exists with a higher level of fruit extract and high alginate level in the beverage, and (3) to modify the current experimental design to increase power of the study to 80% by increasing the number of subjects.