Lesson 1Sugar alcohols and polyols: digestive tolerance, browning and caramelization limitations, best-use percentagesDis section focus on sugar alcohols used in diet cakes, including erythritol, xylitol, and maltitol. You go learn digestive tolerance, impact on browning and caramelization, and safe usage ranges to balance taste and comfort.
Overview of common baking polyols and formsDigestive tolerance and labeling considerationsBrowning and caramelization limits wid polyolsSetting percentage caps for home formulationsCombining polyols wid fibers and sweetenersMinimizing cooling effect and crystallizationLesson 2Alternative flours and fibers: whole-grain flours, oat flour, almond flour, coconut flour, inulin, psyllium — absorption and structure implicationsLearn how alternative flours and fibers change absorption, structure, and nutrition in diet cakes. Compare whole-grain, oat, almond, and coconut flours, plus inulin and psyllium, and see how to rebalance liquids, fats, and leavening.
Comparing gluten and non-gluten flour behaviorsWhole-grain and oat flour in lighter sponge cakesAlmond and coconut flour: fat and absorptionUsing inulin for bulk, fiber, and mild sweetnessPsyllium husk for binding and crumb structureHydration and mixing tweaks for new flour blendsLesson 3Sweetener properties and usage: stevia, erythritol, xylitol, monk fruit, allulose — sweetness intensity, hygroscopicity, cooling effect, bake stabilityGain a practical guide to stevia, erythritol, xylitol, monk fruit, and allulose. Compare sweetness levels, hygroscopicity, cooling effect, and bake stability so you can choose de right sweetener or blend for each style of diet cake.
Relative sweetness versus table sugarStevia and monk fruit: potency and off-notesErythritol and xylitol: cooling and crystallizingAllulose: browning, spread, and softnessManaging hygroscopicity and water activityBake tests and troubleshooting off texturesLesson 4Fat replacers and healthier fats: swapping butter for yogurt, applesauce, olive oil, nut butters — mouthfeel and shelf-life effectsExplore how to replace butter wid lower-calorie fats while protecting flavor, moisture, and shelf life. Learn when to use yogurt, fruit purées, oils, or nut butters, and how to adjust formulas to keep cakes tender, not greasy or dry.
Comparing fat content and calories of common replacersUsing yogurt and kefir for moisture and tangFormulating wid fruit purées like applesauce or bananaChoosing olive, canola, or avocado oil for cakesNut butters for richness, protein, and satietyImpact on mouthfeel, staling, and shelf stabilityLesson 5Natural humectants and moisture carriers: fruit purées, applesauce, mashed banana, glycerin — preserving softness wid less sugarDiscover how natural humectants keep low-sugar cakes moist and soft. Learn to use fruit purées, applesauce, banana, glycerin, and syrups, how dey bind water, affect sweetness and browning, and how to balance dem wid starch and fat.
How humectants bind water and slow stalingFormulating wid applesauce and mixed fruit puréesUsing mashed banana for sweetness and bodyGlycerin and sugar-free syrups in home bakingBalancing humectants wid flour and leaveningAvoiding gumminess and underbaked centersLesson 6Protein enrichment options: whey protein, milk protein isolate, pea protein, Greek yogurt — solubility and impact on crumbUnderstand how to enrich diet cakes wid protein while keeping a soft, pleasant crumb. Compare whey, milk isolates, plant proteins, and Greek yogurt, and learn hydration, mixing, and baking adjustments to avoid toughness or dryness.
Protein’s effect on crumb, chew, and satietyWorking wid whey and milk protein concentratesUsing pea and oda plant proteins in battersIncorporating Greek yogurt without curdlingAdjusting liquids and fats for added proteinPreventing dense, rubbery, or dry protein cakesLesson 7Low-calorie and non-nutritive sweetener blends: balancing flavor, bulking agents, and textureDis section explain how to design sweetener blends dat mimic sugar’s sweetness, bulk, and texture. You go combine low-calorie sweeteners wid fibers, starches, and polyols to improve mouthfeel, browning, and overall flavor balance.
Why single sweeteners rarely behave like sugarPairing high-intensity sweeteners wid polyolsUsing fibers and resistant starches for bulkTuning sweetness curves and aftertaste maskingTexture, spread, and crumb wid different blendsIterative testing and recording blend formulasLesson 8Leavening and structure enhancers when sugar/fat reduced: egg whites, emulsifiers (lecithin), hydrocolloids (xanthan gum, guar) and deir dosingLearn how to maintain rise and crumb when sugar and fat are reduced. Dis section covers egg white foams, chemical leaveners, emulsifiers, and hydrocolloids, plus dosing guidelines to avoid collapse, gumminess, or dry, crumbly textures.
Role of sugar and fat in aeration and structureWhipping and folding egg whites for stable volumeAdjusting baking powder and baking soda levelsUsing lecithin and oda emulsifiers in battersHydrocolloids: xanthan, guar, and blends in cakesDosing tips to prevent gumminess or collapse
