1 / 20

The role of organoleptic inspection in food qualification

The role of organoleptic inspection in food qualification. Food quality components:. Food hygiene properties Physical properties Chemical properties Packing and labelling Organoleptic properties Exterior characteristics: surface, colour, packing, shape, form Odour Taste Temperature

octavia-mccall
Download Presentation

The role of organoleptic inspection in food qualification

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The role of organoleptic inspection in food qualification

  2. Food quality components: • Food hygiene properties • Physical properties • Chemical properties • Packing and labelling • Organoleptic properties • Exterior characteristics: surface, colour, packing, shape, form • Odour • Taste • Temperature • Substance and structure

  3. Organs • eyes, nose, tongue and mouth, fingers, ears(!) • Using the human organs of senses as measurement tools raises some problems: • the human organs of senses are liable to sensorial errors • the human organs of senses are fatigable • there is a big biological variability • some bitter substances could be percepted only in higher concentration by some people • some people are sensitive to the chumestrol-content of the carrot

  4. Sense of Taste • ~6 million receptors on the tongue (dynamic balance), with aging death>production of receptors → ~1,5-2 million • 4 basic tastes (sweet, salty, sour, bitter), but there are some more tastes: • taste generating pain sensation (capsaicine) • taste influencing the sensation of substance characteristics (alkaline materials or contractive materials like alum) • metallic taste (FeSO4×7H2O) • the “umami” taste (complex taste, the taste of Na-glutamate; it’s salty, sweet, bitter and metallic at the same time) • Haller’s taste catalogue contains 12 basic tastes (for example there is taste generating changes in heat perception – menthol)

  5. Sweet taste • natural (sugars; mollenin – 2000 times sweeter than sucrose; miraculum – changes the taste effect: makes sweet from sour) • artificial (sugar-alcohols, ketones, esters, etc.) – they were developed during the research of diabetes • Intensity of the sweet taste increases with water-solubility. • Making symmetric structure from an asymmetric, the sweet taste changes into bitter

  6. Sour, salty taste • Sour taste: acids • Depends from: acid concentration, pH, dissociation rate, other food components, the buffer effect of saliva • Intensity: acetic acid (the least intensive)→lactic acid→malic acid→citric acid → tartaric acid (most intensive) • Around the perception threshold (0,02g/100cm3) the typical salty substances (like NaCl) seem to be sweet, they appear to be salty only around recognizing threshold (0,08g/100cm3).

  7. Salty taste: salt like materials

  8. Bitter taste • Substances containing nitrogen, anorganic salts, tanning materials, alkaloids (caffeine, quinine, morphine, nicotine), etc • “Taste blindness”: some people (and monkeys) don’t percept the bitter taste.

  9. Factors influencing personal values of taste sensing threshold • pH of the sample • temperature of the sample (no refrigeration temperature!) • clearness of the aroma substance • the water medium • size of the tongue surface • number of receptors on unit surface • Physical and psychical condition of the judge (judge has to know his program 2 days before the inspection – no coffee, smoking, big breakfast at the morning,etc.) • Circumstances of the inspection (noise, light, temperature, colour of the wall, etc.) • part of the day (a.m. is the best – between 10-11 hours) • experience of the judge (Can be learned and improved by practicing) • method of the inspection (drop-method, spoon-method, etc.) • other factors

  10. Sense of Smell • Aroma: odour (in mouth) + odour (in nose) + taste • Scent: pleasant smell • Smell materials: common characteristics are: the –OH, –CO, –COOH or –NH2 group • Factors influencing the sense of smell: temperature (optimal: 25-30°C), part of the day (a.m.), age (20-40 years), sex of the judge (female), smoking (no), experience (high) • Anomalies of the sense of smell: • hypozmia: decreased sense of smell • hyperozmia: hyper sensitivity (women) • anozmia: no sense of smell (above 80 years of age) • merozmia: no perception of specific smells • autozmia: sensation of smell without smelling substance

  11. Textural characteristics • Rheological classification of food: • liquid • cell tissue structure (vegetables, fruits) • gel structure (cheese, jelly) • fibre structure (meat and meat products) • plastic (butter, margarine) • hard, fragile (cookies, chocolate) • complex (bread)

  12. Choosing the judges: examination of tasting-, smelling- and colour recognizing abilities • Recognizing the tastes: • Sour: citric acid • Bitter: caffeine • Salty: NaCl • Sweet: sucrose • Umami: Na-glutamate • Metallic: FeSO4×7H2O • distilled water • methods: • draught method • spoon-test (more exact definition of amount) • drop-test (3 on the tongue – it’s the best; usually it turns to ridicule

  13. Recognizing the smells: • stable smell :ammonia • bitter almond smell: benzaldehide • sweat smell: butyric acid • Vinegar: acetic acid • nail polish smell: amyl-acetate • hospital smell: phenol • Vanilla: vanillin • butter aroma: Diacetile • Anise: anetole • method: put cotton-wool in a bottle, drop 0,5 cm3 of substance on it

  14. Recognizing the colours • Ishikawa-test (ophthalmologic sight-test) • -10 bottle dilution series of 3 basic colours (red, yellow, greenish-blue); should be put in order

  15. Faults in judgments: • perceptional: for example attractive packing • expectional: positive prejudice • habituation: too high number of samples, with little differences • contrast: too big differences between samples • settle: the judge uses the middle values in judging by points • tolerant approach: in case of favourite product

  16. The perfect judge: • has to have normal organs of senses, healthy, rested, with positive approach, curious, compliant, teachable, conscientious, capable, concentrated, calm, well-balanced, free from prejudice, critical, self-critical, reliable, disciplined, accurate, self-confident, unimpressionable, with good sense of phrasing, qualified 

  17. Methods of organoleptic inspections • One test: the sample is compared with a standard sample. First step: examination of the standard sample, then this standard is removed. Second step: examination of samples (there are standard samples and samples to be examined in the sample series). The judges have to differentiate the samples from the standard samples. Advantage: the sample series can be examined however long. Disadvantage: the samples have to be compared with a vision of memory. • Duo-trio test: • Tetrad test: 2 kinds of samples in 4 pots signed with codes. Aim: which two are the same. • Two from five test: 5 pots: sample No1 is in 2 pots, No2 in 3 pots. • Pair test: there are 2 kinds of this test: • Differentiation of two samples: is there a difference between A and B? (The “no difference” answer should be allowed.) • Indication of the direction of the difference (Which is more intensive? Which is better?, etc.)

  18. Descriptive organoleptic inspections • The judgment should be made by an expert of the specific sample/product. The sample is compared with standards (Codex Alimentarius, International standards, etc.). • There are two kinds of properties which should be examined during the comparison: • positive characteristics, which should be present • disqualifying characteristics, which should not be present • The presence/lack of positive and disqualifying characteristics should be detailed in the result. • Decision: passed, not passed.

  19. Methods for quantitative analysis • Extended examination of differences: • DescriptionScale • Grading: the samples are put in order on the basis of a specific property, then a grade point is given. • 3) Judging by points: • a) 100 points, point subtraction scale • b) 5 points, weighting scale (or 20 points scale) • Every property can obtain 5 points, the different importance of the properties is weighted with factors (the factors’ sum has to be 4, so the sum of pointsobtained will be 20). • Usually 4 properties are examined: appearance, odour, taste and substance

  20. Other methods • Matching together a concentration with sensation: for example: comparing a sweetener (saccharin) with different sugar-solutions. Result: which concentration of sugar-solution generated the same sweet taste perception as saccharin? • Pouring method: for example: we pour clear water to concentrated sugar-solution, and we try to find the concentration which generates the same sweet taste perception as saccharin. If it’s found → we measure the sugar-solution’s concentration with refractometry → Result: “The sweetener (saccharin) is as sweet as a … concentration sugar-solution.” • Consumers’ judgements: • Popularity surveys • Scales: • scale of popularity • Observing the consumers • Examination of focus groups

More Related