Friday, March 29, 2019
Critical Review of Milk Age-Thickening
Critical Review of Milk Age-ThickeningRobert Adi NugrahaThe phenomenon known as get along with inspissation(a) refers to the event of viscousness rise just onwards the constitution of jelly and loss of fluidity. It is described by Snoeren et al (1982) as structural build-up by means of weak interactions between casein micelles which could be disrupted through automatonlike shear. This launch is observed to a greater extent on voiceless take out than the atomic number 53 strength draw. (Datta Deeth, 2001) In profit, the type of take out whitethorn have a part as well in determining the susceptibility to mount knob. It was found that skim milk samples were more susceptible to old metre thicken than regular milk. This is be prep atomic number 18 fat had a protective performance against jump on boss, perhaps through the interaction with casein micelles. (Harwalker et al, 1983) Age leaf node is too a major limiting factor of shelf life for ultra blue tempe rature (UHT) milk. (Datta Deeth, 2001)According to Datta Deeth (2001), there ar 4 st progresss of age node. The initial pure tone is the thinning of the carrefour. There is non much change in viscousness observed in second step. The third step should display the sudden change of viscosity and change institution. The hold water step is where the separation begins and gel started to appear. This gel that formed has been characterised by the milk whey proteins (in particular -Lactoglobulin) interacting with casein (mainly -casein) of the casein particle and forming a three dimensional matrix of protein. Thus, this burdened in the formation of -Lactoglobulin--casein compoundes during the alter treatment process involved in production of UHT milk products. Moreover, further changes occur during storage which involve the -Lactoglobulin--casein complexes being released from casein micelles and come home linking proteins interactions. This resulted in the formation of three d imensional protein network and can be observed as the milk thicken and then gel. (Datta Deeth, 2001)There argon several factors that affect age thickening in milk which argon mode and severity of heat treatment, proteolysis, microbiology quality factor, storage temperatures, and fat content. These factors be related to the degree of the three processes which lead to age thickening or gelation which are 1) -Lactoglobulin and -casein interaction, 2) the -Lactoglobulin--casein complex release from the casein particle, and 3) the cross linking of the -Lactoglobulin--casein complexes and proteins. (Datta Deeth, 2001) There are several additional factors suggested by Walstra et al (2005) that involve the ready of age thickening in condensed milk. The factors added are the detail at which sugar is added (the last mentioned in the process, the less the age thickening) and the concentration factor (the spiriteder the concentration, the more the age thickening).The effect of heat treat ment on preventing age-thickening in cold-stored evaporated milk was looked at by Harwalker et al (1983) and showed that heat treatment was not rough-and-ready at all. The idea behind their research was because of some changes in casein micelles which resulted from cold storage could be change from thawing. Thus, the same concept was looked at for application in similar way, but they could not break secern that the treatment worked. On the other hand, several researches have found that the mental institution of UHT estrus whether that direct or indirect differentiate the susceptibility of the milk samples to age thickening effect.McKellar et al (1984) found that an increase in viscosity was observed between 6-10 weeks at 20C of directly alter UHT milk compared to the no apparent rise in viscosity during 30 weeks storage at the same temperature for the indirectly heated UHT milk. They suggested that the different warmth severity where the indirect heating have higher heat e ffect was the crucial factor that caused this result to be conform ton. Similar researches were carried out by increasing the temperature or time of heating and the same effect could be observed where the milk samples exposed to higher temperature or longer heating time tend to last longer without age thickening effect observed. (Samuelson Holm, 1966 Zadow Chituta, 1975) The reasoning behind this was suggested through the research of Manji Kakuda (1988) where they proposed that the resistance to age thickening effect observed in more severely heat interact milk samples was due to the increased level of denatured whey protein. The result from this research showed that start of the age thickening effect is factored by formation of denatured whey proteins and casein complex.Some studies have investigated the role of proteolysis of caseins in age thickening of milk. This was accredited to natural milk proteinase (plasmin) and heat stalls proteinase produced by contaminants psychro trophic bacterial. (Datta Deeth, 2001) During storage, the quantity of plasmin in milk may increase because of the endogenous plasminogen activators which convert plasminogen into plasmin and may cause gelation. Plasminogen is more heat stable than plasmin and therefore if proteolysis and subsequently age thickening need to be controlled, denaturation of plasminogen must be targeted. In a study specifically designed to look at the effect of proteolysis in age thickening, serine proteinase inhibitors were added to UHT milk to inhibit plasmin and the result later on storage for 9 months at 20C was that no proteolysis and gelation occurred. (de Koning et al, 1985) As for the heat stable proteinase produced by psychrothropic bacteria, a Pseudomonas fluorescens accomplish was isolated from raw milk. The presence of this bacteria led to age thickening gelation over time with the time dependent on the bacteria emersion prior to heat processing. (Law et al, 1985) Therefore, both bacter ial proteinases and plasmin displayed their abilities to initiate proteolysis and thus age thickening effect in UHT milk.Harwalker et al (1983) tested the microbic quality of the raw milk used for preparing the evaporated milk, but they did not find any significant relation between the age thickening effect and this microbial quality. They proceeded to look at the microbial appendage during storage to see if there was a relationship or not. In this part of their research, they did not find evidence to support relationship between an increase in standard denture count of microorganism with age thickening effect. The samples they were exam had an increase in standard plate count to millions, but the viscosity change was less than the samples which had much lower increases in standard plate count. The age thickened samples also showed no microorganisms which are capable of growth with the conditions. (Harwalker et al, 1983)The addition of additives to milk, such as sodium phosphate and sodium citrate, may speed up the age thickening effect, whereas the addition of polyphospates (e.g. sodium hexametaphosphate) could hold up this effect. (Datta Deeth, 2001) The age gelation protection provided by polyphosphates increases with chain length and concentration with the close effective one being at 4.8 phosphorus atoms per chain. (Leviton et al, 1963) Furthermore, cyclic phosphates are more effective than the corresponding linear polymers in hold backing the effect of age thickening. This is because cyclic phosphates are stable against hydrolysis and thus unable to form complexes with calcium ions which also posses anti-gelation activity as well compared to the linear polyphosphates which are converted slowly into orthophosphate that accelerates age thickening effect. (Leviton et al, 1962)Oxidising conditions such as aeration and hydrogen peroxide treatments accelerated age thickening, but reducing conditions such as antioxidant treatments tended to delay but not prevent this phenomenon. (Harwalkar et al, 1983) This research also found that age thickening was also accelerated when evaporated skim milk was cold-stored before sterilisation. In relation to commercial practice, the age thickening problem happens to be a seasonal problem and it is more frequent in the early spring. (Hardham, 1996) fund temperature is an important factor in age thickening effect as well. As noted by Datta Deeth (2001), age thickening takes place close to easily at room temperatures (20-25C) compared to the low (4C) or high temperatures (35-40C). Moreover, Harwalker et al (1983) concluded that age thickening may not pose a huge problem if cold storage of concentrate milk before sterilisation could be avoided. However, they noted that it is simply not possible in practical term because of the increasing volume of milk processed in combination with shorter working weeks.Datta Deeth (2001) summarised ways of controlling age gelation in their reputation which wil l be discussed here. These systems are based on minimising proteolytic activity, delaying dissociation of -Lactoglobulin--casein complex from casein micelle, and inhibition of crosslinking or protein network formation.The first and frontmost important way is by using raw milk of high quality in combination with low temperature storage for the least arrive of time. In this way, the growth of psychrotrophic bacteria and the proteinases generated from bacteria in milk is minimised before thermal processing. (Datta Deeth, 2001) The second method proposed is heat treatment during preheating and sterilisation. This method require to achieve the denaturation of most -Lactoglobulin and complex formation of the aforementioned denatured whey proteins with casein. In addition, the heat treatment would also inactivate plasmin. Indirect heating is more encouraged rather than direct heating to produce gelation stable milk. (McKellar et al, 1984) The drawback from this method is that it may give cooked flavour which would be a disconfirming attribute for consumers. (Datta Deeth, 2001)The third method suggested in the literature was reported by Barach et al (1976) which is the low temperature inactivation of heat stable enzymes in milk using T=55 C and extended holding time of 30-60 minutes. It was suggested that the proteinase undergoes a conformational change, and then the altered proteinase aggregates with casein, and thus an enzyme-casein complex was formed which inactivate the enzyme. However, this method is flawed in the way that the effect of this low temperature inactivation treatment varies between different milk batches and also some proteinases showed resistance to the temperature-time combination treatment proposed above. (Datta Deeth, 2001) Last method proposed is the addition of additives such as sodium hexametaphosphate to retard age thickening effect. This method was based on Kocak Zadow (1985) experiment which suggests that polyphosphates (sodium he xametaphosphate in particular) stopped the second manikin of age thickening gelation which involves coagulation of protein. The drawback is that the consumer reaction to additives being added to milk product may be unfavourable.In addition, ultrasound have emerged as a possible method to manage the milk age thickening phenomenon. (Zisu et al, 2012) In the study, they used high intensity ultrasound with frequency of 20 kilocycle per second to control the rate of age thickening and reduce the viscosity of concentrated skim milk. (Zisu et al, 2012) This study found that the ageing effect could be reversed which was observed by the reduction of viscosity to similar values that of the starting time material. However, they did also note that the ultrasound technique could not prevent age thickening once the process was started (especially if it is already at the advanced thickening stage), they rather delayed the thickening rate. (Zisu et al, 2012) The study concluded that if the ultra sound was to be utilised during the whole evaporation process, the effect on the early stage thickening stage could be prevented. (Zisu et al, 2012)In conclusion, milk age thickening poses a problem for the dairy industry as it could limit the shelf life of products. There is much to be learned of this phenomenon in golf club to solve this problem. Novel methods such as the ultrasound technique mentioned last are much needed and may arise as more research being focused on the causes of this age thickening effect. The mentality is that more ways would be suggested and researched to prevent this effect from happening and lastly resolving the problem. In the mean time, there are few alternatives methods already available or suggested to minimise or delay the age thickening effect.
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