Bone mineral density assessed by phalangeal radiographic absorptiometry before and during long-term growth hormone treatment in girls with Turner's syndrome participating in a randomized dose-response study.

To assess bone mineral density (BMD) in girls with Turner's syndrome before and during long-term treatment with GH, longitudinal measurements using phalangeal radiographic absorptiometry were performed in 68 girls with Turner's syndrome. These previously untreated girls, age 2-11 y, participating in a randomized, dose-response trial, were randomly assigned to one of three GH dosage groups: group A, 4 IU/m(2)/d ( approximately 0.045 mg/kg/d); group B, first year 4 IU/m(2)/d, thereafter 6 IU/m(2)/d ( approximately 0.0675 mg/kg/d); or group C, first year 4 IU/m(2)/d, second year 6 IU/m(2)/d, thereafter 8 IU/m(2)/d ( approximately 0.090 mg/kg/d). In the first 4 y of GH treatment, no estrogens for pubertal induction were prescribed to the girls. Thereafter, girls started with 17beta-estradiol (5 microg/kg body weight/d, orally) when they had reached the age of 12 y. BMD results were adjusted for bone age and sex, and expressed as SD scores using reference values of healthy Dutch girls. At baseline, almost every individual BMD value of bone consisting predominantly of cortical bone, as well as that of bone consisting predominantly of trabecular bone, was within the normal range of healthy girls and the SD scores were not significantly different from zero [mean (SE) 0.38 (0.22) and -0.04 (0.13)]. During 7 y of GH treatment, BMD SD scores showed a significant increase to values significantly higher than zero [mean (SE) 0.87 (0.15) and 0.95 (0.14)]. The increment in BMD SD score of bone consisting predominantly of cortical bone was significantly higher in group C compared with that of the other two GH dosage groups. The pretreatment bone age was significantly negatively related to the increment in BMD SD score. We found no significant influence of spontaneous puberty or the use of low-dose estrogens in the last 3 y of the study period on the increment in BMD SD score during 7 y of GH treatment. In conclusion, most untreated young girls with Turner's syndrome have a normal volumetric BMD. During 7 y of GH treatment with 4, 6, or 8 IU/m(2)/d, the BMD SD score increased significantly.

A longitudinal study on bone mineral density until adulthood in girls with Turner's syndrome participating in a growth hormone injection frequency-response trial.

OBJECTIVE: The aim of this study was to assess the volumetric bone mineral density (BMD) in girls with Turner's syndrome (TS) before and during growth hormone (GH) treatment in combination with low dose oestrogens as well as three years after discontinuation of GH treatment. DESIGN: In a prospective, randomized injection frequency-response study, the effect of GH treatment in combination with low dose ethinyl oestradiol (starting with 0.05 microgram/kg/day), on BMD was evaluated, comparing twice daily (BID) with once daily (OD) injections of a total GH dose of 6 IU/m2/day until adult height was reached. After discontinuation of GH treatment, the dosage of oestrogens was further increased to adult supplementation levels. PATIENTS: Nineteen untreated girls with TS, mean (SD) baseline pretreatment age 13.3 (1.7) (range 11.0-17.6) year. MEASUREMENTS: Before and during GH treatment, measurements of volumetric BMD were performed using phalangeal radiographic absorptiometry. In addition, the BMD measurements were repeated three years after discontinuation of GH treatment. BMD results were adjusted for bone age and sex, and expressed as SD-scores (SDS) using reference values of healthy Dutch girls. RESULTS: At baseline, most individual BMD values of cortical bone as well as those of trabecular bone were within the normal range of healthy girls. However, the mean BMD SDS of the trabecular bone was significantly lower than zero. During treatment, the BMD SDS showed a significant increment to values equal or higher than zero after mean (SD) GH treatment period of 36.6 (7.5) months. The increase in BMD of the cortical bone was significantly higher in the OD group than in the BID group. The BMD SDS in the last year of GH treatment was not significant different between the two injection frequency groups. Three years after discontinuation of GH treatment, the BMD values had increased further similar as in healthy girls, resulting in BMD values all within normal range or even higher. CONCLUSIONS: Most untreated girls with Turner syndrome, age >/= 11 years, have a normal volumetric BMD of the cortical, as well as of the trabecular bone compared to healthy girls. During GH treatment with 6 IU/m2/day in combination with low dose oestrogens, the BMD SDS increases significantly. After discontinuation of GH treatment and the use of oestrogens in an adult dosage, the BMD was as high as in young healthy women.

Body proportions during long-term growth hormone treatment in girls with Turner syndrome participating in a randomized dose-response trial.

To assess body proportions in girls with Turner syndrome (TS) during long term GH treatment, height, sitting height (SH), hand (Hand) and foot (Foot) lengths, and biacromial (Biac) and biiliacal (Biil) diameters were measured in 68 girls with TS participating in a GH dose-response trial. These previously untreated girls with TS, aged 2-11 yr, were randomly assigned to 1 of 3 GH dosage groups: group A, 4 IU/m2 x day; group B, first year 4 and thereafter 6 IU/m2 x day; group C, first year 4, second year 6, and thereafter 8 IU/m2 x day. Seven-year data were evaluated to assess the effect of GH treatment on body proportions during childhood. In addition, data from all girls who had reached adult height were evaluated to determine the effect on the adult body proportions. All results were adjusted for age and sex and expressed as SD scores using reference values of healthy Dutch girls. To describe the proportions of SH, Hand, Foot, Biac, and Biil to height, these values were adjusted for the SD score of height and were expressed as shape values, using the formula, e.g. for SH: shape SH = (SH SD score - height SD score)/square root(2 - 2 x correlation coefficient between SH and height in the reference population). Furthermore, SD scores using references of untreated girls with TS were calculated for height and SH. Values less than -2 or more than +2 were considered outside the normal range. At baseline, the shape values of all measurements were significantly higher than zero, but most mean shape values were still within the normal range. Seven-year data of 64 girls and adult height data of 32 girls showed that an increase in height was accompanied by an even higher increase in Foot, resulting in mean SD scores above zero and shape values of +2 and higher. The increase in the shape value of Foot was significantly higher in groups B and C compared to that in group A after 7 yr of GH treatment, but there were no significant differences between the GH dosage groups in the girls who had reached adult height. The shape values of SH had decreased to values closer to zero after reaching adult height, especially in group A. A similar pattern in the relationship of SH to height was seen using references of girls with TS. No significant changes in the other proportions were found after reaching adult height. In conclusion, on the average, untreated girls with TS have relatively large trunk, hands, and feet, and broad shoulders and pelvis compared to height. The increase in height after long term GH treatment is accompanied by an even higher increase in Foot and a moderate improvement of the disproportion between height and SH. Recently published reference data from untreated adults with TS and the results of a different patient group receiving a comparable GH dosage suggest that the disproportionate growth of feet has to be considered a part of the natural development in TS, but might be influenced by higher GH dosages. The development of large feet can play a role in the decision of the girl to discontinue GH treatment in the last phase of growth.

The effects of long-term growth hormone treatment on cardiac left ventricular dimensions and blood pressure in girls with Turner's syndrome. Dutch Working Group on Growth Hormone.

OBJECTIVE: To assess the effects of long-term growth hormone (GH) treatment for short stature on left ventricular (LV) dimensions and systemic blood pressure (BP) in girls with Turner's syndrome without clinically relevant cardiac abnormalities. STUDY DESIGN: LV dimensions measured by echocardiography and systemic BP were assessed before and during 7 years of GH treatment in 68 girls with Turner's syndrome participating in a randomized dose-response study. These previously untreated girls, age 2 to 11 years, were randomly assigned to 1 of 3 GH dosage groups: group A, 4 IU/m(2)/d; group B, first year 4 IU/m(2)/d, thereafter 6 IU/m(2)/d; group C, first year 4 IU/m(2)/d, second year 6 IU/m(2)/d, thereafter 8 IU/m(2)/d. After the first 4 years, girls >/=12 years of age began receiving 17beta-estradiol, 5 microg/kg body weight per day, for induction of puberty. RESULTS: At baseline the LV dimensions of almost every girl were within the normal range, and the mean SD scores were close to zero. During 7 years of GH treatment, the growth of the left ventricle was comparable to that of healthy girls. No signs of LV hypertrophy were found. Before the start of GH treatment, mean BP was within the normal range but significantly higher than in healthy control subjects. Diastolic BP and systolic BP were above the 90th percentile in 23% and 28% of the girls, respectively. After 7 years of treatment, these percentages were 14% and 36%, respectively (not significantly different from baseline). The SD score of the diastolic BP showed a small decrease after 7 years of treatment. The growth of the left ventricle and the development of BP were not different between the GH dosage groups. CONCLUSIONS: Long-term GH treatment, even at dosages up to 8 IU/m(2)/d, does not result in LV hypertrophy or hypertension in girls with Turner's syndrome. Continued observation into adulthood is recommended to monitor the further development of the relatively high BP and to ensure that GH treatment has no long-term negative effect on the heart.

Final height in girls with Turner's syndrome treated with once or twice daily growth hormone injections. Dutch Advisory Group on Growth Hormone.

OBJECTIVES: To study final height in girls with Turner's syndrome treated with once or twice daily injections of growth hormone (GH) in combination with low dose ethinyl oestradiol. DESIGN: Until final height was reached, the effect of fractionated subcutaneous injections given twice daily was compared with once daily injections of a total GH dose of 6 IU/m2/day. Twice daily injections were given as one third in the morning and two thirds at bedtime. All girls concurrently received low dose oestradiol (0.05 microgram ethinyl oestradiol/kg/day, increased to 0.10 microgram/kg/day after 2.25 years). PATIENTS: Nineteen girls with Turner's syndrome aged > or = 11 years (mean (SD) 13.6 (1.7) years). MEASUREMENTS: To determine final height gain, we assessed the difference between the attained final height and the final height predictions at the start of treatment. These final height predictions were calculated using the Bayley-Pinneau (BP) prediction method, the modified projected adult height (mPAH), the modified index of potential height (mIPHRUS), and the Turner's specific prediction method (PTSRUS). RESULTS: The gain in final height (mean (SD)) was not significantly different between the once daily and the twice daily regimens (7.6 (2.3) v 5.1 (3.2) cm). All girls exceeded their adult height prediction (range, 1.6-12.3 cm). Thirteen of the 19 girls had a final height gain > 5.0 cm. Mean (SD) attained final height was 155.5 (5.4) cm. A "younger bone age" at baseline and a higher increase in height standard deviation score for chronological age (Dutch-Swedish-Danish references) in the first year of GH treatment predicted a higher final height gain after GH treatment. CONCLUSIONS: Division of the total daily GH dose (6 IU/m2/day) into two thirds in the evening and one third in the morning is not advantageous over the once daily GH regimen with respect to final height gain. Treatment with a GH dose of 6 IU/m2/day in combination with low dose oestrogens can result in a significant increase in adult height in girls with Turner's syndrome, even if they start GH treatment at a relatively late age.

Carbohydrate and lipid metabolism during various growth hormone dosing regimens in girls with Turner syndrome. Dutch Working Group on Growth Hormone.

To analyze the effects of supraphysiological dosages of growth hormone (GH) on carbohydrate (CH) and lipid metabolism, we investigated 87 girls with Turner syndrome (TS) in two studies: (1) a 4-year GH dose-response (DR) study comparing three groups with stepwise GH dosage increases up to 8 IU/m2/d in girls aged 2 to 11 years, and (2) a 2-year GH administration frequency-response (FR) study in girls aged 11 to 17 years, comparing once-daily (OD) and twice-daily (BID) injections of a total GH dose of 6 IU/m2/d in combination with low-dose ethinyl estradiol (50 ng/kg/d orally). At baseline, impaired glucose tolerance (IGT) was present in 6% of the girls, and at the end of the studies, in 5%. In the DR study, the area under the curve for time-concentration (AUCab) for glucose after an oral glucose tolerance test (OGTT) showed no change over time and no significant difference between any of the study groups. However, in all three DR groups, the AUCab for insulin, fasting glucose, the insulinogenic index, hemoglobin A1c (HbA1c), and urinary C-peptide (uCp) were all significantly higher after 4 years compared with pretreatment (P<.05). In the FR study, group differences were not observed. Compared with healthy Dutch control subjects, the median baseline levels in relatively young girls in the DR study were similar for total cholesterol (TC) and lower for high-density lipoprotein (HDL) cholesterol. In contrast, the median TC levels of relatively older girls in the FR study were higher and HDL levels were similar. With increasing GH dosage in the DR study, median TC and low-density lipoprotein (LDL) levels decreased, whereas median HDL levels increased. The changes after 4 years were significant, including a decrease in the atherogenic index. GH treatment at the supraphysiological dosages used in this study did not increase the frequency of IGT or clinical diabetes. However, we observed an increased insulinogenic index indicative of insulin resistance. Therefore, long-term follow-up study is warranted in these otherwise healthy subjects. OD injection regimens changed the lipid profile toward a more cardioprotective direction with a significant reduction of the TC/HDL cholesterol ratio.

Efficacy of long-term growth hormone treatment in Turner's syndrome. European Study Group.

The efficacy of long-term growth hormone treatment and the optimal treatment modalities in Turner's syndrome are still controversial. Studies have shown widely divergent results. While there is still need for results of randomized controlled trials, large uncontrolled trials remain a valuable source of preliminary information. This study of 136 girls with Turner's syndrome (TS) from the European Lilly Turner Study shows that the treatment regimens followed by girls with TS who start GH treatment at a relatively late age (12.9 +/- 2.2 yr) lead at best to a small average gain in final height. Mean gain over initial projected final height was 3.7-4.7 cm, depending on the chosen Turner-specific height-for-age reference data. There was a considerable variation in gains over initial projected final height (range -10.6 to +17.2 cm), which may be partly explained by the existence of good and bad responders. Whether there is a genetic/molecular basis for this and how responsiveness can best be predicted remains an important challenge.

[A daughter with Turner's syndrome: the impact on parents]. / Een dochter met het syndroom van Turner: de betekenis voor de ouders.

OBJECTIVE: To inventory the problems encountered by parents of girls with Turner's syndrome. DESIGN: Descriptive. SETTING: University Hospital Rotterdam-Sophia Children's Hospital, department of Child and Adolescent Psychiatry, Rotterdam, the Netherlands. METHOD: In 1995, structured interviews were held with 65 parents/pairs of parents (total 119 parents) of 66 girls with Turner's syndrome (36 aged 6-11 years and 30 aged 12-18 years) who participated in studies of the effect of growth hormone treatment. The questions concerned the parents' emotional reactions immediately after hearing the diagnosis and at the time of the interview, and the inner experience of their child's development. RESULTS: Immediately after the diagnosis, most parents felt sadness (95%) and shock (82%), approximately half were angry (61%) and ashamed (56%) and a minority felt guilt (29%). At the time of the interview (in 100 instances (84%) at least 5 years later), one-third of the parents still felt sadness, shock or anger and half felt ashamed. During the first few years of life, half the girls had been hospitalized at least three times, and feeding and sleeping also gave problems. Subsequently, the parents had problems with retarded motor development (67%), the acquisition of language (50%) and the restricted social skills of the child (67% were ragged a lot). Nearly all parents (90%) found their daughter's infertility difficult to cope with. They expected fewer opportunities for their daughter to find a job (38%) and (or) a partner (54%). CONCLUSION: Parents of girls with Turner's syndrome frequently find it difficult to cope emotionally with the fact that their child has this disorder, and with the problems regarding their daughter's linguistic and motor development and subnormal social skills.

Growth response and levels of growth factors after two years growth hormone treatment are similar for a once and twice daily injection regimen in girls with Turner syndrome. (Dutch Working Group on Growth Hormone).

UNLABELLED: GH is known to improve height velocity in girls with Turner syndrome (TS) but the optimal dosage regimen has yet to be defined. OBJECTIVE: We attempted to improve the growth response by trying to mimic normal pulsatile GH secretion more closely. DESIGN: In a 2-year study the effect of fractionated twice daily (BID) was compared with once daily (OD) s.c. injections of a total GH dose of 6 IU/m2/day. BID injections were administered as two-thirds at bedtime and one-third in the morning. The subjects concurrently received low dose ethinyl oestradiol (0.05 mg/kg/day, orally). SUBJECTS: Nineteen girls with TS aged 11 years or over, who were previously involved in a 10-week GH cross-over study. MEASUREMENTS: Height and bone age were evaluated in relation to untreated Turner reference data. Final height (FH) was predicted using the Bayley and Pinneau (BP) method, the modified index of Potential Height (mIPHRUS), and a recently developed Turner-specific method (PTSRUS) based on regression coefficients for height (H), chronological age (CA) and bone age (BA). Plasma levels of GH, GHBP, IGF-1, and IGFBP-3 were determined by RIA. RESULTS: After 2 years treatment the growth response expressed as HV, HVSDS, the change in HSDSCA, the gain in height over estimated untreated values and in FH prediction all showed significant improvements. Although mean values tended to be higher with OD injections, significant differences between groups were not found. Bone maturation was similar between groups and compared with untreated estimated values. Independent of treatment group, the change in HSDSCA after 2 years of GH treatment was related negatively to the baseline CA and HSDSCA, and positively to BA delay at baseline. After 18 months of GH treatment the significant decrease in GHBP plasma levels observed after 6 months was no longer significant. In contrast, IGF-1 and IGFBP-3 plasma levels and the IGF-1 to IGFBP-3 ratio increased significantly during 18 months GH therapy. None of these growth related factors showed a difference between groups in their 18 months change. Relevant side-effects were not observed during the first 2 years of GH treatment. CONCLUSIONS: The present growth data are in conformity with the data of the earlier 24-hour GH profiles. The growth response and plasma levels of growth related factors after 2 years GH on a total dose of 6 IU/m2/day in combination with low-dose oestrogens were not significantly different between the once daily and the twice daily GH injection regimen.

Yearly stepwise increments of the growth hormone dose results in a better growth response after four years in girls with Turner syndrome. Dutch Working Group on Growth Hormone.

To optimize the growth promoting effect of growth hormone (GH), 65 previously untreated girls with Turner syndrome (TS), chronological age (CA) 2-11 yr, were randomized into 3 dosage regimen groups: A, B, and C, with a daily recombinant-human GH dose during 4 study years of 4-4-4-4, 4-6-6-6, and 4-6-8-8 IU/m2 b.s. The first GH dosage increase in groups B and C resulted in a significantly higher mean height velocity (HV) compared with constant dose group A. During the third year, when the dose was raised again only in group C, mean HV was significantly higher in groups B and C than in group A, and in group C compared with group B. In year 4 only group C mean HV remained significantly higher than group A. The pattern of change in HSDSCA (Dutch-Swedish-Danish Turner references) was identical; however, in year 4 mean delta HSDSCA in group B also remained significantly higher than group A. After 4 yr GH treatment, the following was determined. 1) The mean delta HSDSCA was significantly higher for groups B and C compared with group A, but not significantly different between groups B and C. 2) Although significantly higher compared with estimated values for untreated Dutch girls with TS, bone maturation of the GH treated girls was not significantly different between groups. 3) It was positively related with the degree of bone age (BA) retardation at start of study and negatively with baseline CA. 4) Both the modified Index of Potential Height (mIPHRUS) and a recently developed Turner-specific final height (FH) prediction method (PTSRUS), based on regression coefficients for H, CA, and bone age, showed significant increases in mean FH prediction, without significant differences between groups. PTSRUS values were markedly higher than the mIPHRUS values. Dose dependency could be shown for the area under the curve (AUC) for GH, but delta HSDSCA was not linearly related with AUC. Baseline GH binding protein (BP) levels were in 84% of the cases within the normal age range; the decrease in mean levels after 6 months GH was not significant. Mean insulin-like growth factor I (IGF-I) and IGFBP-3 plasma levels increased significantly, without significant differences between groups. delta HSDSCA during GH was dependent on IGF-I plasma levels at baseline and during the study period, beta-0.002 and beta-0.0004. Thus, a stepwise GH-dosing approach reduced the "waning" effect of the growth response after 4 yr treatment without undue bone maturation. FH prediction was not significantly different between treatment groups. Irrespective of the GH dose used, initiation of GH treatment at a younger age was beneficial after 4 yr GH when expressed as actual cm gained or as gain in FH prediction, but was not statistically significant when expressed as delta HSDSCA over the study period.

A regression method including chronological and bone age for predicting final height in Turner's syndrome, with a comparison of existing methods.

A total of 235 measurement points of 57 Dutch women with Turner's syndrome (TS), including women with spontaneous menarche and oestrogen treatment, served to develop a new Turner-specific final height (FH) prediction method (PTS). Analogous to the Tanner and Whitehouse mark 2 method (TW) for normal children, smoothed regression coefficients are tabulated for PTS for height (H), chronological age (CA) and bone age (BA), both TW RUS and Greulich and Pyle (GP). Comparison between all methods on 40 measurement points of 21 Danish TS women showed small mean prediction errors (predicted minus observed FH) and corresponding standard deviation (ESD) of both PTSRUS and PTSGP, in particular at the "younger" ages. Comparison between existing methods on the Dutch data indicated a tendency to overpredict FH. Before the CA of 9 years the mean prediction errors of the Bayley and Pinneau and TW methods were markedly higher compared with the other methods. Overall, the simplest methods--projected height (PAH) and its modification (mPAH)--were remarkably good at most ages. Although the validity of PTSRUS and PTSGP remains to be tested below the age of 6 years, both gave small mean prediction errors and a high accuracy. FH prediction in TS is important in the consideration of growth-promoting therapy or in the evaluation of its effects.

Computer-aided skeletal age scores in healthy children, girls with Turner syndrome, and in children with constitutionally tall stature.

The manual Tanner-Whitehouse 2 method has recently been transformed into a computer-aided skeletal age scoring system (CASAS), which rates either the complete TW-RUS score (13b model) or a subset consisting of radius, ulna, and the four bones of the third finger (6b model). In this study the reliability of CASAS was evaluated in healthy children, and the 13b model was compared with the manual ratings and with the 6b model in (subgroups of) 151 healthy children, 87 girls with Turner syndrome, and 362 children with constitutionally tall stature. In addition, reference curves for bone maturation in Turner syndrome and constitutionally tall stature are presented. Some of mean differences in methods were statistically significant; however, because these mean differences were less than 0.4 bone age "year," they are clinically not significant. In all comparisons the range of the difference between the methods (either with the 6b or the 13b model) was considerable, but the combined within- and between-components of variance (0.7%) were in the same order of magnitude as reported for the manual readings. In general, the percentage of equal stage ratings on duplicate assessments was high (+/- 90%). Our data indicate that this computerized method is applicable in these groups of children. The use of the 6b model seems preferable because it is less time-consuming than the rating of 13 bones. In view of the percentages of manual insertions of a stage (up to 8% in all groups) the clinical use of this CASAS version (3.5) seems to be more efficient, particularly with longitudinal studies. Manual substitution of a stage should be avoided, and when performed its percentage and the limits for the acceptance of disagreement should be reported.

Radiographic absorptiometry of the phalanges in healthy children and in girls with Turner syndrome.

Although bone mineral status in children has been measured with various techniques, information about development of the actual bone mass density during childhood and adolescent growth is scarce. Our modified radiographic absorptiometry (RA) determines bone mass density (BMaD) three dimensionally at the diaphyseal and metaphyseal site of the middle phalanx of the left second digit, representing predominantly cortical (50% site) and trabecular bone compartments (25% site), respectively. The objectives of this study were to establish reference curves with 95% prediction intervals of BMaD in relation to bone age (BA) during childhood and adolescence (N = 303) determined by RA. The specific effects of female puberty on BMaD were studied comparing the values of 110 untreated girls with Turner syndrome (TS) with those of the female reference group. For either sex, a piecewise linear model with one inflection point (IP) was postulated for the relationship of both the 25% and 50% site with BA. The IPs appeared at exactly the same BA (11.5 "years") for both the 25% and 50% site in boys and for the 25% site in girls. However, in girls the 50% site IP appeared 0.25 "years" later. All BMaD values to the left of the IPs showed little increase with age. In contrast, the slopes to the right of the IPs showed in both genders regression coefficients of approximately 0.05 for the 25% site. For the 50% site, the regression coefficient in girls was markedly higher (0.075) than in boys (0.058), resulting only in girls in a significant difference between the 25% and the 50% site to the right of the IP (p = 0.03).(ABSTRACT TRUNCATED AT 250 WORDS)

Reference values for apolipoprotein A-I and apolipoprotein B in serum still depend on choice of assay techniques.

In a study with young children receiving growth hormone treatment, it was necessary to re-establish reference values for various blood components, e.g. apolipoproteins A-I and B. We find that considerable method-to-method variation still exists. We used the DuPont Dimension analyzer (D) and the Beckman Array analyzer (B) systems and a third procedure with Orion reagents and a Kone Analyzer (K). We investigated if assay results may be pooled or exchanged within our study. In 59 serum samples we measured apolipoprotein A-I and apolipoprotein B (n = 58) and calculated the orthogonal regression equations y = a(Sa) x + b(Sb). For apolipoprotein A-I the results are: (I) B = 1.165 (0.065) D - 0.193 (0.077), Syx = 0.055; with r = 0.922 and (II) K = 0.831 (0.056) D - 0.190 (0.066), Syx = 0.055; with r = 0.898. For apolipoprotein B the equations are: (III) B = 1.586 (0.137) D - 0.246 (0.100), Syx = 0.061; with r = 0.840 and (IV) K = 0.869 (0.065) D + 0.251 (0.048), Syx = 0.044; with r = 0.875. According to Passing & Bablok, the slopes and intercept values are 1.093 and -0.126; 0.848 and 0.167; 1.500 and -0.185; 0.880 and 0.249. The overall impression is the same for both regression methods: comparability had not yet been achieved by early 1993, particularly not for apolipoprotein B, and reference values differ significantly depending on the selected methodology.

Effect of growth hormone administration frequency on 24-hour growth hormone profiles and levels of other growth related parameters in girls with Turner's syndrome. Dutch Working Group on Growth Hormone.

OBJECTIVE: The optimal dose and frequency of GH administration in Turner's syndrome is unknown. There is some evidence that a schedule which mimics normal pulsatile GH secretion may be more effective than a single daily dose. We therefore wished to study the influence of the frequency of GH administration on 24-hour GH profiles and levels of other growth-related factors in Turner's syndrome. DESIGN: Four weeks after initiation of 0.05 microgram/kg/day ethinyl oestradiol, we compared twice daily (b.i.d.-fractionated dose) with once daily (o.d.) s.c. injections of 6 IU GH/m2/day in a 2-week cross-over design with a 2-week washout interval. Each treatment period was concluded with 24-hour GH profile tests. Pretreatment plasma/serum levels of GH, IGF-I, binding proteins for GH (GHBP) and IGF-I (IGFBP-3) were used as a basis for comparison of the levels found after each regimen. A one-compartment open model was used for estimation of pharmacokinetic parameters. SUBJECTS: Ten previously untreated girls with Turner's syndrome aged > or = 11 years. MEASUREMENTS: Plasma levels of GHBP by standardized binding assay; GH, IGF-I, and IGFBP-3 serum/plasma levels by radioimmunoassay. RESULTS: There were significantly higher maximum GH levels and a greater area under the curve with o.d. than with b.i.d. GH, while GH clearance was greater with b.i.d. The pharmacokinetic values with o.d. injections were in conformity with values for healthy and GH-deficient children. Pretreatment GHBP levels tended to be high compared with values in healthy prepubertal children. These levels decreased with GH therapy, significantly so with b.i.d. GH only. There was a significant increase in levels of IGF-I and IGFBP-3, irrespective of regimen. The IGF-I to IGFBP-3 ratio, a possible indicator of the growth response, rose significantly and comparably with both regimens. There was no consistent diurnal variation with either regimen in GHBP, IGF-I or IGFBP-3 levels. Four-hourly levels of GH, GHBP, IGF-I and IGFBP-3 were not correlated. CONCLUSIONS: Although the 24-hour profiles differed during once or twice daily administration of the same total growth hormone dose, the diurnal pattern and mean levels of factors involved in the biological effects of GH are comparable for both regimens.

Low prevalence of coagulation and fibrinolytic activation in patients with primary untreated cancer.

The prevalence of subclinical coagulation abnormalities greatly differs in the various studies due to selection of patients and differences in study design. We performed coagulation studies in 69 consecutive patients with primary untreated cancer of various origin. The control group consisted of 42 sex and age matched healthy volunteers. Plasma coagulation tests included thrombin-antithrombin-III-complex (TAT), plasmin-alpha 2-antiplasmin-complex (PAP) and tissue-plasminogen-activator-antigen (t-PA-ag). These tests were performed once, prior to any anti-cancer treatment. We evaluated if activation of the coagulation system (elevated TAT-complexes) and the fibrinolytic system (elevated PAP-complexes and t-PA-ag) correlated with the tumor-type or the extent of the tumor. To document clinical manifest haemorrhage or thromboembolic disease (TED) we performed a 6 months follow-up study. In 8 patients (12%) and in 3 control subjects (7%) an elevated TAT-complex level was observed (this difference is not significant). An increased plasma level of PAP-complex was seen in 8 patients (12%) versus none in the control group (p less than 0.05). In one patient both TAT and PAP-complex concentrations were elevated. Consequently, 15 of the 69 patients (22%) showed activation of the coagulation and/or fibrinolytic system. Fibrinolysis seems to be enhanced in a subset of cancer patients in contrast to blood coagulation. In 10 patients (14%) we found raised t-PA-ag levels. Three patients had both elevated levels of PAP-complex and t-PA-ag. These findings suggest that in a minority of patients increased PAP-complex levels may be a result of t-PA induced plasminogen activation.(ABSTRACT TRUNCATED AT 250 WORDS)

Protein C activity and antigen levels in childhood.

Hereditary protein C deficiency is an important risk factor for thrombosis. To enable its diagnosis shortly after birth, we determined reference values of protein C antigen and activity levels for the first 3 months of life. To establish an age-related range of protein C levels we also determined median values for individuals up to 18 years of age. A good correlation between the two levels was seen from the 3rd/4th month of life onwards, whereas in the first 2 months the activity levels were significantly lower than the antigen levels. This was not due to interference by the increased plasma citrate concentration at high haematocrit values, and may suggest a dysfunctional protein C molecule in the neonatal period. We found a rapid rise in protein C activity and antigen levels until the age of 7-9 months, followed by a slower progression toward adolescence. In contrast to previous reports, our results indicate that adult values are probably not achieved until sometime during the 2nd decade of life.

Thromboembolic complications in an asplenic HbE-beta-thalassaemia patient.

A patient, double heterozygous for HbE-beta-thalassaemia, had recurrent thromboembolic complications following splenectomy. In addition to marginally decreased protein C and S plasma levels, laboratory studies revealed a persistent thrombocytosis and markedly elevated plasma concentrations of platelet factor 4 (PF4). PF4 neutralizes the heparin anticoagulant activity. The increased PF4 levels explained the initial heparin resistance observed during anticoagulant treatment in this patient. Subsequent heparin loading tests revealed an abnormal reaction of the PF4 plasma levels, i.e. no increase of PF4. However, upon repeated heparin injections this PF4 response normalized, which may be due to depletion of the endothelial cell associated heparin mobilizable PF4 pool. These observations may be of relevance for the treatment of similar patients.