Examination of serum ferritin and erythrocyte ferritin--its role in the blood transfusion service.

Blood donors were examined for serum ferritin values and concentration of ferritin in the erythrocytes. The group of male and female donors without previous donations showed average values of 102.27 ng and 51.75 ng of ferritin per one ml of serum, respectively. Males with over 20 donations had 68.04 ng ferritin per one ml, females 37.14 ng of ferritin per one ml. The reduced serum ferritin values in multiple male and female donors is statistically significant. Serum ferritin values in women of the two groups are lower than those of males, the difference also being statistically significant. In male and female blood donors, irrespective of the number of donations, average values of 13.74 ag and 12.07 ag of ferritin per erythrocyte, respectively, were established. The difference in ferritin concentration in the erythrocytes between males and females is statistically insignificant. The correlation coefficient failed to demonstrate any dependence between erythrocyte ferritin concentration and concentration of ferritin in the serum. The object of serum ferritin determination in blood donors is to detect the earliest stage of storage iron deficiency in the organism. For the latter purpose, the determination of erythrocyte ferritin is ineffective.     

Testosterone and dihydrotestosterone concentrations in elephant serum and temporal gland secretions

Serum and temporal gland secretions (TGS) were obtained from mature wild African (Loxodonta africana) and captive Asian elephants (Elephas maximus). Samples were obtained from five cows and eight bulls culled for management purposes in Kruger National Park, South Africa, and from four females and two males residing at the Washington Park Zoo, Portland, Oregon. Our purpose was to describe the levels of the androgens, testosterone (T), and dihydrotestosterone (DHT), and to correlate these observations with sex, species and behavioral status. Male-female differences in serum T were pronounced in the Asian species, whereas male and female concentrations overlapped in the African elephant serum. Serum T concentrations in African females were greater than in Asian females. Serum DHT reflected T levels, except that the striking elevation of testosterone in Asian bulls during musth was not paralleled by equal increases in DHT levels. A species difference observed among males was higher serum T levels in nonmusth Asian bulls (1.84-5.35 ng/ml) compared to the levels in African bulls (0.38-0.68 ng/ml), except for one dominant African bull (6.64 ng/ml). This single African value was still considerably lower than the serum T values of the Asian males during musth. These musth values were the highest serum androgen concentrations: T was between 19 and 40 ng/ml (average 26.10 ng/ml). The TSG values of T and DHT were much higher than serum levels except in the Asian female. T/DHT ratios in TGS were more similar than in serum. One dominant African bull had a T TGS value of 78 ng/ml, which was much higher than the rest of the African males or females, but considerably lower than as Asian bull in musth (547 ng/ml). It seems apparent that a change in androgen status as reflected in serum and TGS levels of T and DHT precedes or is concomitant with overt alteration in behavior in the Asian male. The temporal gland appears to actively concentrate androgens in both African males and females, but in the Asian male the gland secretes only during musth when the greatest concentration of both T and DHT were observed. The apparent difference in the degree of temporal gland secretory activity between the two species suggests a more specific communicative function within the Asian male.     

Iron stores in female blood donors evaluated by serum ferritin

Iron stores were evaluated by serum ferritin determinations in 948 menstruating and 141 non-menstruating female blood donors. Blood donation was associated with a decrease in ferritin. First-time donors (n = 163) had a geometric mean ferritin of 24 micrograms/l and multiple-time donors a value of 19 micrograms/l (p less than 0.01). In the donating population 31.5% had ferritin values less than 15 micrograms/l (i.e. depleted iron stores). Menstruating donors had lower mean serum ferritin than non-menstruating donors (p less than 0.001), and a higher frequency of ferritin values less than 15 micrograms/l (p less than 0.05). There was no relationship between ferritin levels and the number of pregnancies. The frequency of donations was more predictive of ferritin levels than the number of donations. Mean ferritin displayed a moderate fall up to the 2nd donation, and was hereafter relatively constant, whereas an increase in donation frequency was accompanied by a significant decrease in ferritin. Female donors, especially when phlebotomised greater than or equal to 3 times per year, should have their iron status checked at appropriate intervals by measurement of serum ferritin and should be advised regular iron supplementation.     

The course of serum ferritin in blood donors

In the course of 18 months there occurred a decrease in the serum ferritin concentration from 58 +/- 2 micrograms/l to 32 +/- 1 micrograms/l in male donors after 5-6 donations of 400 ml of blood each. Female permanent donors showed a constantly lowered content of an average of 15 +/- 1 micrograms/l. Female first donors attained the serum ferritin level of permanent female donors with the fourth donation, whereas it was not until the fifth donation that male first donors declined to the level of permanent donors. This decrease of serum ferritin content in blood donors points to a depletion of iron stores. This process should be counteracted by exerting an increased influence on nutritional habits supported by oral iron substitution and diminishing the frequency of donation, particularly for female blood donors.     

Whole blood and serum zinc levels in relation to sex and age

The zinc content in whole blood and serum was determined in 239 healthy males and 217 healthy females by atomic absorption spectrophotometry. The mean level of zinc obtained in whole human blood from males was 607.0 +/- 105.3 micrograms/100 ml and in females 585.2 +/- 122.9 micrograms/100 ml. The mean level of zinc in serum was 116.6 +/- 55.2 micrograms/100 ml and 105.2 +/- 66.9 micrograms/100 ml in males and females respectively. The zinc concentration in whole blood and serum in males proved to be slightly higher than in females though the difference is not statistically significant. For the males a positive correlation was found between age and the zinc level in whole blood and serum; this is only statistically significant in whole blood. In females, the zinc level in whole blood showed a positive correlation with age which was not statistically significant, while in serum this correlation was negative and statistically significant.     

Whole blood and serum copper levels in relation to sex and age

The copper content in whole blood and serum was determined in healthy human subjects (240 males and 217 females) by atomic absorption spectrophotometry. The mean level of copper obtained in whole blood was 104.8 +/- 20.5 micrograms/100 ml in males and 117.1 +/- 20.1 micrograms/100 ml in females. The mean level of copper in serum was 102.3 +/- 21.7 micrograms/100 ml and 123.9 +/- 30.4 micrograms/100 ml, in males and females respectively. The copper concentration in whole blood and serum in females proved to be significantly higher than in males (p less than 0.001). With respect to age, the copper level showed a slightly negative correlation which is only statistically significant in whole blood in females (p less than 0.05).     

Effect of time and temperature on bovine serum and plasma progesterone concentration

Whole blood, with and without anticoagulant, from 5 pregnant cows was incubated at 40°C for 0 (30 minutes after collection), 6 and 24 hours (hr) before the blood was centrifuged and the plasma or serum was frozen for later progesterone assay. Mean plasma progesterone concentration decreased from 6.6 ng/ml at 0 hr to 1.7 ng/ml at 6 hr (P < 0.01) and to 2.8 ng/ml at 24 hr (P < 0.01). Mean serum progesterone concentration decreased from 6.1 ng/ml at 0 hr to 3.9 ng/ml at 6 hr (P < 0.01) and to 4.4 ng/ml at 24 hr (P < 0.01). Whole blood samples with and without EDTA were also incubated at 4°C for 24 hr. Mean plasma progesterone concentration decreased from 6.6 ng/ml at 0 hr to 4.2 ng/ml at 24 hr (P < 0.01). Mean serum progesterone concentration decreased from 6.1 ng/ml at 0 hr to 4.7 ng/ml at 24 hr (P < 0.01). The incubation time and temperature of whole blood, from collection of blood to the separation of serum or plasma, significantly affects assayable concentration of progesterone.     

Blood testosterone levels in Italian Mediterranean buffalo bulls managed in two different breeding conditions

In Italian buffalo cows the spontaneous cyclic ovarian activity is mainly high in autumn, while during spring and early summer it is very low. However many farmers separate males from females in the October-February period to obtain births in winter-spring. In order to verify if blood testosterone concentration in adult buffalo bulls is affected by season and by different management of the contact with females, 20 adult buffalo males, bred in central Italy were submitted to monthly blood sampling for 1 year, from September to August. The bulls were kept together with females all the time (group A; n=9) or were held separated from cows from October to February (group B; n=11). The mean (+/-S.E.M.) serum testosterone concentrations were higher in spring and summer than in autumn and winter in group B (2.07+/-0.1 ng/mL versus 0.99+/-0.08 ng/mL, P<0.01) but in group A the seasonal difference was not significant (2.09+/-0.13 versus 1.48+/-0.28). The management of the contact with females affected testosterone values (P<0.01): in the separation period (October-February) the mean serum concentration in group B was lower than in March-September, when the cows were together with the bulls (0.94+/-0.09 ng/mL versus 1.95+/-0.1 ng/mL, P<0.05). This is not true for group A (1.49+/-0.20 ng/mL versus 2.00+/-0.13 ng/mL, NS). It is concluded that contact with females exerted a major stimulus for the testicular androgen secretion in buffalo bulls, even if other seasonal factors (climate, food intake) may affect control of gonadal activity.     

Anogenital distance and umbilical cord testosterone level in newborns in Zaria, Northern Nigeria

The anogenital distance (AGD) is the distance between the anus and the base of the penis in males and anus to fourchette (AF) distance in females and is a sexually dimorphic index that, on average, is twice as great in males as in females, so it is used as an indicator of appropiate masculine development. In this study, the anogenital distance (AGD) and anthropometric measurements such as birth weight, birth length, head circumference and placenta weight of 200 newborns (100 male, 100 female) were taken and umbilical cord serum was assayed for testosterone concentration using Radioimmunoassay (Microwell). Data obtained were analysed using Student t-test and Pearson's Correlation Analysis as applicable. Results revealed that mean total anogenital distance was 22.53±0.70mm, and it was significantly higher in males: 31.11±0.64mm than in females: 13.89±0.26mm and we observed that there was positive correlation between birth weight and AGD in females. In males head circumference correlated positively with AGD. The mean cord testosterone concentration was 2.78±0.30ng/ml in males and 2.09±0.22ng/ml in females and did not have any significant correlation with anogenital distance. It was concluded that AGD of the population studied, though high was not significantly higher than AGD in other parts of the world and umbilical cord testosterone level did not have any significant effect on AGD. Keywords: Anogenital distance, Ethnicity, Umbilical cord testosterone, Anthropometry.     

Changes in the tumor marker concentration in female patients with hyper-, eu-, and hypothyroidism

The levels of 6 circulating tumor markers were evaluated in a total of 131 female subjects with altered thyroid states; 36 normal subjects, 46 hyperthyroid patients with Graves' disease, and 49 primary hypothyroid patients. The mean CEA concentration was observed to be significantly higher (p less than 0.02) in hypothyroid patients than in normal and hyperthyroid patients (1.1 +/- 0.1 ng/ml, 0.8 +/- 0.1 ng/ml and 0.8 +/- 0.1 ng/ml, respectively). Similarly, the mean serum CA 125 concentration in hypothyroid patients was higher (p less than 0.02) than in normal and hyperthyroid patients (13.0 +/- 2.6 U/ml, 7.6 +/- 1.1 U/ml and 5.5 +/- 0.8 U/ml, respectively), and the mean serum CA 15-3 concentration in hypothyroid patients was significantly higher than in normal subjects (p less than 0.01) and hyperthyroid patients (p less than 0.001) (16.2 +/- 0.9 U/ml, 13.9 +/- 0.6 U/ml and 10.6 +/- 0.5 U/ml, respectively). No statistical difference was found in mean CA 19-9 in the three subject groups. AFP in the hypothyroid patients (3.6 +/- 0.3 ng/ml) was significantly higher (p less than 0.05) than in normal subjects (2.6 +/- 0.2 ng/ml) and hyperthyroid patients (1.7 +/- 0.2 ng/ml) (p less than 0.01). On the other hand, serum ferritin was low in the hypothyroid patients (65.9 8.0 ng/ml) and significantly increased (69.1 +/- 9.0 ng/ml) (p less than 0.02) with the normalization of thyroid function. In hyperthyroidism, serum ferritin (70.2 +/- 7.0 ng/ml) was significantly higher than in the hypothyroid patients (p less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)     

Diagnostic value of ferritin in the differential diagnosis of malignant effusions

The diagnostic value of ferritin in pleural effusions or ascites was studied in 151 samples from 147 patients (four patients had both kind of effusions). Samples (99 pleural effusions, 52 ascites) were evaluated in 4 groups: benign transudate (27 cases), benign nontuberculous exudate (26 cases), tuberculous exudate (47 cases) and malignant exudate (51 cases). Median ferritin levels in effusions were 67 ng/ml, 805 ng/ml, 889 ng/ml, 998 ng/ml and median effusion/serum (E/S) ratios were 0.7. 2.0, 4.9, 3.2 respectively. There was a significant difference between the concentrations of ferritin in malignant (51 cases) and nonmalignant effusions (100 cases) (p < 0.001), but the specificity and positive predictive value were low (43% and 45% respectively). Ferritin levels in transudate group were significantly lower than those in the others (p < 0.001). However, ferritin concentrations in three exudate groups were similar (p > 0.05). When compared the all inflammatory effusions (malignant, tuberculous, nontuberculous inflammatory exudates) with noninflammatory effusions (transudate and exudate), we determined a significant difference (p < 0.001). CONCLUSIONS: 1) Elevated ferritin concentration in effusions is significant indicators of exudates; 2) It is not good a parameter to discriminate the malignant effusions from the benign ones; 3) They can be useful in the differential diagnosis of the inflammatory exudations from the noninflammatory ones.     

Serum copper and zinc concentrations in a representative sample of the Canarian population.

Serum copper (Cu) and zinc (Zn) concentrations of 395 individuals (187 males + 208 females) living in Canary Islands were determined by flame atomic absorption spectrometry. The mean copper and zinc concentrations were 1.10 +/- 0.25 mg/L and 1.16 +/- 0.52 mg/L respectively. Our data were similar to other data published in other Spanish regions. Individuals from Lanzarote presented a mean Cu and Zn concentrations higher (p < 0.05) than individuals from the rest of islands; Individuals from EL Hierro showed the lowest (p < 0.05) mean Zn concentration. These differences could be attributed a differences in Cu and Zn contents of soil and/or differences in dietary habits of the populations. The mean serum Cu concentration in females was higher (p < 0.05) than in males, however serum Zn concentration did not vary with the sex of the subjects. No relation to socio-economic status and educational level were found with respect to the serum Cu and Zn concentrations. The serum Cu concentration varied with age of individuals, observing the highest (p < 0.05) Cu concentration in the 20-30 year old interval. A higher serum Cu concentration in females within 20-30 year old interval was observed. This could be due to a higher use of oral contraceptives or to the higher number of pregnancies. Boys (younger than 15) showed a decrease (p < 0.05) of the serum Cu concentration with age. The mean Zn concentrations in serum did not change (p > 0.05) among the different age intervals. No clear trends in the serum Cu and Zn concentrations were observed when drinking and smoking habits were considered. The increase of physical exercise reduced (p < 0.05) the serum Cu concentrations.     

Haematinic Deficiency and Macrocytosis in Middle-Aged and Older Adults

Objective

To assess the prevalence and determinants of haematinic deficiency (lack of B12 folate or iron) and macrocytosis in blood from a national population-based study of middle-aged and older adults.

Methods

A cross-sectional study involving 1,207 adults aged ≥45 years, recruited from a sub-study of the Irish National Survey of Lifestyle Attitudes and Nutrition (SLÁN 2007). Participants completed a health and lifestyle questionnaire and a standard food frequency questionnaire. Non-fasting blood samples were obtained for measurement of full blood count and expert morphological assessment, serum ferritin, soluble transferrin receptor assay (sTfR), B12, folate and coeliac antibodies. Blood samples were also assayed for thyroid function (T4, TSH), liver function, aminotransferase (AST) and gamma-glutamyl transferase (GGT).

Results

The overall prevalence (95% C.I.) of anaemia (Hb <13.5g/dl men and 11.3 g/dl women) was 4.6% (2.9%–6.4%) in men and 1.0% (0.2%–1.9%) in women. Iron deficiency (ferritin <17ng/ml men and <11ng/ml in women) was detected in 6.3% of participants (3.7% in males and 8.7% in females, p<0.001). Based on both low ferritin and raised sTfR (>21nmol/ml) only 2.3% were iron-deficient. 3.0% and 2.7% were found to have low levels of serum folate (<2.3ng/ml) and serum B12 (<120ng/l) respectively. Clinically significant macrocytosis (MCV>99fl) was detected in 8.4% of subjects. Strong, significant and independent associations with macrocytosis were observed for lower social status, current smoking status, moderate to heavy alcohol intake, elevated GGT levels, deficiency of folate and vitamin B12, hypothyroidism and coeliac disease. The population attributable fraction (PAF) for macrocytosis associated with elevated GGT (25.0%) and smoking (24.6%) was higher than for excess alcohol intake (6.3%), folate deficiency (10.5%) or vitamin B12 (3.4%).

Conclusions

Haematinic deficiency and macrocytosis are common in middle-aged/older adults in Ireland. Macrocytosis is more likely to be attributable to an elevated GGT and smoking than vitamin B12 or folate deficiency.     

Increased ferritin levels in the fluid of thyroid cyst

High ferritin levels in the aspirate of thyroid cyst (Six yellow clear, 4 yellow turbid and 10 chocolate colored turbid) without apparent sings of malignancy were found. The mean concentration in the 3,000 X g supernatant of the fluid was 40,116 ng/ml, and the 3,000 X g precipitate was 11,147 ng/ml. All cases showed normal levels of serum ferritin. Con A binding with ferritin was distributed from low to high. These ferritins showed a molecular weight of approximately 450,000 which was the same as found in human spleen and liver. The continuous increase in ferritin levels in thyroid cyst fluid was found by a chronological study in some cases. When tumor markers such as CEA, NCA, CA 19-9 and alpha 1-acid glycoprotein (alpha 1-AG, acute phase reactant) were examined simultaneously, an increase in some of the cyst fluid was observed. However, the incidence and the rate of increase of these tumor markers and acute phase reactant were low compared to ferritin. Neither a correlation between ferritin and CEA, nor between ferritin and CA 19-9 was found. The increase in ferritin in thyroid cyst fluids may be due to the increased synthesis, release and storage by the inflammatory cells.     

The source of urinary epidermal growth factor in humans

To clarify the source of human urine EGF, we studied EGF renal clearance in 20 healthy, young adult subjects. Immunoreactive EGF was measured hourly in EDTA plasma, heparin plasma, serum and urine of 12 males and 8 females during a 3 h study period. Plasma and urine creatinine and creatinine clearance were measured and calculated hourly. Mean (and SEM) creatinine clearance was similar in males and females (118 +/- 12 vs 105 +/- 6 ml/min). EGF was not detectable in plasma, whereas relatively high levels were measured in serum (2.5 +/- 0.25 vs 1.5 +/- 0.18 ng/ml in males and females respectively p less than 0.05). Urine EGF excretion averaged 1641 +/- 233 ng/h in males and 1507 +/- 191 ng/h in females (p greater than 0.05). A significant correlation was observed between urine creatinine and urine EGF concentrations in both male (r = 0.98, p less than 0.01) and female (r = 0.94, p less than 0.01) subjects. EGF immunoreactivity in urine and serum eluted from G-75 sephadex columns similarly to recombinant 6000 Mr hEGF. Urine excretion of EGF approximated 1.5 micrograms/h or 25 ng/mg creatine. The high concentrations of EGF found in urine in the face of non-detectable levels of EGF in plasma favor the hypothesis that EGF in urine is derived from kidney synthesis and secretion. The significant positive correlation between urine creatinine and urine EGF suggests a functional correlation between glomerular filtration and the process of tubular EGF excretion.     

Plasma corticosterone concentrations in wild and captive juvenile tuatara (Sphenodon punctatus)

Abstract

High mortality and abnormal growth patterns commonly found in captive juvenile tuatara were hypothesised to be due in part to the effects of long‐term chronic stress of captivity. This study compared plasma concentrations of the reptilian adrenal steroid, corticosterone, in wild juvenile tuatara on Stephens Island, Cook Strait, and in captive juveniles of Stephens Island origin, held in New Zealand institutions, in February and August 1992. Seasonal variation in plasma concentration of corticosterone in wild juveniles in four seasons of the year was also examined. This is the first study of seasonal cycles in plasma corticosterone in a wild juvenile reptile. Plasma corticosterone concentrations were significantly higher in captive juvenile females (4.21 ± 0.27 ng/ml; mean ± SE) compared with wild juvenile females (2.44 ± 0.42 ng/ml) in February (P < 0.05), but not in August, and there was no difference in concentration between captive and wild juvenile males in either month. There was significant seasonal variation in plasma corticosterone in wild juvenile females (P < 0.05). However, there was no seasonal variation observed in wild juvenile males, and the magnitude of the variation in plasma corticosterone was low in both sexes (1.28 ± 0 ng/ml ‐4.65 ±3.41 ng/ml). Although mean plasma corticosterone was higher in captive juvenile females compared with wild juvenile females in February 1992, the value in captive females was within the range of mean plasma corticosterone concentrations observed in the seasonal study, and may be therefore due to asynchronicity of seasonal cycles, rather than stress. Further research is required; however, lack of correlation between plasma corticosterone concentrations and either growth rate or density indicate that captive juvenile tuatara in New Zealand are not suffering from pronounced chronic stress.     

Leptin values in placental cord blood of human newborns with normal intrauterine growth after 30-42 weeks of gestation

OBJECTIVE: To evaluate leptin values in placental cord blood of newborns with normal intrauterine growth after 30-42 weeks of gestation. DESIGN: Leptin, a protein encoded by the ob gene, plays an important role in the regulation of feeding behaviour and energy balance in rodents, primates and humans. The presence of leptin in human amniotic fluid and cord blood has recently been reported in human gestations at term and the possible role of leptin in human fetal growth suggested. However, little is known of leptin synthesis during human foetal development. Thus, the aim of our work was to measure leptin (RIA, Linco Research, Inc.) in placental cord blood of human newborns at different fetal ages. PATIENTS: One hundred and twenty-six healthy newborns with normal intrauterine growth were studied. Twenty-nine were preterm (15 males and 14 females; gestational age: 30-36 weeks) and 99 were at term (49 males and 48 females; gestational age: 37-42 weeks). RESULTS: Leptin values increase progressively throughout gestation from 1.30 +/- 0.53 ng/ml at 30 weeks of gestation to 7.98 +/- 4.96 ng/ml (mean +/- SD) at term, and correlate positively with birth weight (r = 0.56, p < 0. 005, n = 126), length (r = 0.37, p < 0.005, n = 126), BMI (r = 0.57, p < 0.005, n = 126), head circumference (r = 0.37, p < 0.005, n = 126), gestational age (r = 0.48, p < 0.005, n = 126) and placental weight (r = 0.38, p < 0.003, n = 59). Leptin values are statistically significantly lower (p < 0.005) preterm (median: 2.05 ng/ml; range: 0.7-8.3 ng/ml) than at term (median: 7.0 ng/ml; range: 1.1-28.1 ng/ml). Leptin values are also significantly (p < 0.005) higher in females (median: 7.2 ng/ml; range: 0.9-23.6 ng/ml, n = 62) than in males (median: 4.8 ng/ml; range: 0.7-28.1 ng/ml, n = 64), although there are no differences in weight (2,864 +/- 536 g in females vs. 2,937 +/- 744 g in males). Multiple regression analysis shows weight to be a positive sex-independent predictor of serum leptin values (p < 0.0005). Sex also proves to be a predictor of leptin, independently of weight and is higher in females than in males (p < 0.003). CONCLUSION: Leptin is present in placental human cord blood after 30-42 weeks of gestation. Newborn weight and sex are independent predictors of leptin values.     

Ferritin in the Serum of Normal Subjects and Patients with Iron Deficiency and Iron Overload

The concentration of ferritin in serum gives a quantitative measure of the amount of storage iron in normal subjects and those with iron deficiency or overload. The mean level in normal men is 69 ng/ml, compared with 35 ng/ml in normal women. A concentration below 10 ng/ml is associated with a low transferrin saturation and iron-deficient erythropoiesis.     

Prostaglandin production by human epidermal cells in vitro: a model for studying pharmacologic inhibition of prostaglandin synthesis

Blood prostaglandin A levels were measured in 10 healthy subjects under different conditions of collection and storage. Plasma levels ranged from 1.20 to 1.81 ng/ml (M + or - SE=1.50 + or - 0.10) in 5 females, to 1.23 to 1.68 ng/ml (1.45 + or - 0.09) in 5 males, when centrifuged and frozen immediately after collection. Storage at 4 degrees Centigrade (C) for varying times up to 24 hours and at 22 degrees C (room temperature) up to 4 hours did not affect mean plasma concentrations significantly, but increased the range obtained to 1.00 to 2.47 ng/ml for both male and female groups. Serum concentrations differed in males and females and were lower than corresponding mean plasma values for males and higher for females. Mean serum concentrations were 1.77 + or - 0.08 ng/ml in females and 1.18 + or - 0.05 ng/ml in males and did not change significantly up to 24 hours of storage at 4 decrees C. These results suggest that prostaglandin A assayed in both plasma and serum under the conditions described is stable and should allow for greater flexibility in sampling under different experimental conditions.     

Evaluation of the body iron status of native Canadians

The serum ferritin concentration was measured in 1417 Indians and 310 Inuit aged 1 to 89 years. The subjects were initially selected to produce a representative sample of the entire native population, but the rate of nonresponse was high, and the results reported in this paper are representative only of the people studied.In males the median serum ferritin values increased during early life and tended to plateau after the age of 30 years. In females the median values rose during childhood, tended to plateau during adolescence, increased slightly during the reproductive period, then gradually rose thereafter. Ranges of values were wide in all age groups, reflecting the variations in body iron stores. When compared with the Inuit, the Indians had a significantly higher prevalence of abnormal serum ferritin values.From an analysis of the serum ferritin values in Indians it is probable that iron stores were reduced in approximately 30% of children, 40% of adolescents, 34% of nonpregnant women of reproductive age, 11% of older women and 5% of adult males. The corresponding figures for the Inuit were 15%, 23%, 22%, 6% and 1%. In contrast, iron deficiency anemia was found in only 3% to 4% of native peoples. If “normality” requires more than small amounts of iron stores to meet physiologic needs, the results suggest a high probability of iron deficiency in 20% to 40% of native children, adolescents and nonpregnant women of reproductive age, and in 0% to 10% of other subjects; but if “normality” is defined as adequate iron stores for erythropoiesis the prevalence of iron deficiency was approximately 1% to 2% in children and adolescents, 3% to 5% in women and less than 1% in adult males.