Studies on the Inorganic Constituents of Milk

Sisson, Warren R.; Denis, W.

doi:10.1001/archpedi.1921.01910340076006

Arch Pediatr Adolesc Med

1921

DOI: 10.1001/archpedi.1921.01910340076006

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Studies on the Inorganic Constituents of Milk

Warren R. Sisson¹,

W. Denis²

Abstract: In discussions of the composition of human milk and of modifications of cow's milk, much stress is laid on the absolute and relative proportions of fats, carbohydrates and protein, but, as a rule, no mention is made of the concentration of the mineral constituents. As an example, we may cite the fact that in many clinics the most premature infant is given mixtures of whey, which may provide certain advantages in regard to the quality of the protein, but which contain 300 per cent. more chlorids than does human… Show more

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1951

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Cited by 7 publications

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“…Hence, it may be concluded that the tendency for after-milk to have higher electrical conductivity and chloride values than fore-milk is a real one. Similar observations were made by Sisson and Denis (1921), Macy, Nims, Brown, andHunscher (1931) and Ishii (1937), but their results were not statistically analysed.These authors were agreed that the values for after-milk could be either greater or smaller than those for fore-milk. Thus, when making investigations into either the electrical conductivity or chloride content of milk, all milk samples should be taken either before a breast-feed or after a breastfeed, unless the daily milk yield can be obtained for examination.…”

supporting

confidence: 54%

supporting

confidence: 54%

“…Previous investigators, who have recorded chloride values for milk specimens taken throughout the day, fail to agree on the time of day when the highest values are obtained (Sisson and Denis, 1921;Macy et al, 1931;and Ishii, 1937). (24) * The number of observations from which each mean has been calculated is indicated by the figure in brackets.…”

mentioning

confidence: 99%

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The Electrical Conductivity and Chloride Content of Women's Milk: Part 2: The Effect of Factors Relating to Lactation

Kermack¹,

Miller²

1951

Archives of Disease in Childhood

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In Part I it was shown that the electrical conductivity of human milk is positively correlated with its chloride content. It was thought desirable to investigate in some detail the effect on both conductivity and chloride content of various factors connected with the time and mode of obtaining milk. Comparisons have been made between (1) fore-milk (milk taken just before a child is fed) and after-milk (milk taken just after a breast feed), (2) milk samples taken in the early morning, at mid-day, and in the evening, (3) milk samples taken at various stages of lactation, i.e., in the first, second, third, fourth, and fifth months of lactation, and (4) milk samples taken from right and left breasts respectively.Comparison of Fore-milk and After-milk From each of 62 women a specimen of milk was taken before and another taken after a breast feed, and the electrical conductivity and chloride content of each of 124 specimens was determined as soon as possible after taking the sample. Of the 62 women, some had an adequate milk supply, but in others there were signs that the lactation was inadequate. Their infants failed to gain weight and received less than 2 oz. of breast milk per lb. body weight each day. The average of the values for electrical conductivity of the 62 specimens of after-milk was 231-1x10-5+7 38x10-5 ohm-1 cm. -1, whilst the corresponding figure for fore-milk was219-4xl -5+ 8-29x10--5ohm-1cm.-1. The average chloride contents for the two series of milks were67-7+5 -12 mg.and 75 -2+6-13 mg.per 100 ml.respectively. It will be seen that the values are lower in the fore-milk than in the after-milk. Using the standard errors, we find that the differences are not significant. This method of comparison, however, does not allow for the fact that the fore-milk and after-milk observations have been made on the same series of women. We have, therefore, taken the differences between the values of the two samples of milk obtained from each woman and applied tests to ascertain whether the mean of these differences differs significantly from zero. The result is that the average of the differences of the conductivity values between fore-milk and after-milk does differ significantly from zero (t= 3 1), but for the chloride content the result is just significant (t=2-1). Hence, it may be concluded that the tendency for after-milk to have higher electrical conductivity and chloride values than fore-milk is a real one. Similar observations were made by Sisson and Denis (1921), Macy, Nims, Brown, and Hunscher (1931) and Ishii (1937), but their results were not statistically analysed.These authors were agreed that the values for after-milk could be either greater or smaller than those for fore-milk. Thus, when making investigations into either the electrical conductivity or chloride content of milk, all milk samples should be taken either before a breast-feed or after a breastfeed, unless the daily milk yield can be obtained for examination.Comparison of Morning, Mid-day, and Evening Milk Samples of milk from two series of ...

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supporting

confidence: 54%

supporting

confidence: 54%

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The Electrical Conductivity and Chloride Content of Women's Milk: Part 2: The Effect of Factors Relating to Lactation

Kermack¹,

Miller²

1951

Archives of Disease in Childhood

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“…Some of the results suggest a relationship between the chloride content of the milk and either the adequacy of lactation or the milk yield, the chloride values below 50 mg. % being usually associated with adequate and those above 50 mg. % with inadequate lactation (Holt, Courtney, and Fales, 1915;Sisson and Denis, 1921;Widdows, Lowenfeld, Bond, Shiskin, and Taylor, 1935;Nozaki, 1934;Ishii, 1937). It has been shown in Part IL that there is not only a relationship between the chloride content of milk and adequacy of lactation, but also a relationship between the electrical conductivity of milk and adequacy of lactation, the average values for both being lower in women with adequate than in those with inadequate lactation.…”

mentioning

confidence: 99%

“…In such cases, the infants should be test-weighed. Discussion In the past it has been shown that women between the second week and the fifth month of lactation and with a milk chloride content of less than 50 mg. % usually lactated adequately but those with a milk chloride of more than 50 mg. % usually lactated inadequately (Sisson and Denis, 1921;Nozaki, 1934;Widdows et al, 1935;Ishii, 1937). The chloride level of 50 mg. % quoted by previous investigators is analogous to the five critical levels selected in the present investigation.…”

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confidence: 99%

The Electrical Conductivity and Chloride Content of Women's Milk: Part 3: Relationship to Adequacy of Lactation

Miller¹

1951

Archives of Disease in Childhood

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For at least 50 years observations have been made on the chloride content of women's milk. Some of the results suggest a relationship between the chloride content of the milk and either the adequacy of lactation or the milk yield, the chloride values below 50 mg. % being usually associated with adequate and those above 50 mg. % with inadequate lactation (Holt, Courtney, and Fales, 1915;Sisson and Denis, 1921;Widdows, Lowenfeld, Bond, Shiskin, and Taylor, 1935;Nozaki, 1934;Ishii, 1937). It has been shown in Part IL that there is not only a relationship between the chloride content of milk and adequacy of lactation, but also a relationship between the electrical conductivity of milk and adequacy of lactation, the average values for both being lower in women with adequate than in those with inadequate lactation. However, a proportion of the women with poor lactation had milk of low chloride content and low conductivity while some women with adequate lactation had milk of relatively high chloride content and conductivity.To decide whether the determination of either the chloride content or the electrical conductivity of women's milk was of practical value, a series of 538 specimens of milk from women in the second week to the fifth month of lactation inclusive were examined; 352 were taken from women with adequate lactation, and 186 from women with inadequate lactation. The mothers providing the samples of milk gave two specimens from the same breast, one before the 6 a.m. feed and the other before the mid-day feed (12 p.m. or 2 p.m.) on the same day.A second series of observations involving the chloride estimation and the electrical conductivity measurement of milk taken from both breasts of each woman was considered necessary, in view of a number of anomalous results obtained in the first series. One hundred and thirty-six specimens of milk taken during the third week to fifth month of lactation were examined; 72 were obtained from mothers with adequate lactation, and 64 from mothers with inadequate lactation. The mothers providing samples gave one from each breast before the 6 a.m. feed and one from each breast before the mid-day breast feed. All specimens obtained from each mother were collected in separate containers and tested separately. In both series of cases, each sample amounted to about 8 ml. and was expressed into a special container that had been thoroughly cleansed, rinsed in distilled water, and dried in an oven.All the mothers were apparently healthy and had given birth to a mature infant which fixed well at the breast and was fed at regular intervals five or six times a day. The infants were apparently normal at the time of the test. The choice of a mother with adequate lactation was made by noting that her infant was gaining weight while it was entirely breast fed. Women with inadequate lactation were selected by first finding a mother whose infant was healthy, but who was not gaining weight, or who required complementary feeds. Such infants were then test-fed for at least 24 hours. If the results...

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The Chlorin Content of Cows' and Goats' Milk and Formulas Commonly Used in Infant Feeding

Sisson¹

1922

Arch Pediatr Adolesc Med

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Recent studies of foods emphasize the importance of their various salts to nutrition, and especially to the nutrition of growing animals. In starting an investigation of this subject in its relation to the nutrition of infants, it seemed necessary, first, to study the concentration of the various salts that are found in milk. The sodium chlorid content of human milk obtained from mothers at various stages of lactation and

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Studies on the Inorganic Constituents of Milk

Cited by 7 publications

References 3 publications

The Electrical Conductivity and Chloride Content of Women's Milk: Part 2: The Effect of Factors Relating to Lactation

The Electrical Conductivity and Chloride Content of Women's Milk: Part 2: The Effect of Factors Relating to Lactation

The Electrical Conductivity and Chloride Content of Women's Milk: Part 3: Relationship to Adequacy of Lactation

The Chlorin Content of Cows' and Goats' Milk and Formulas Commonly Used in Infant Feeding

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