Red blood cell folate and serum vitamin B12 status in children with sickle cell disease

PURPOSE: To determine red blood cell (RBC) folate and serum vitamin B12 levels in children with sickle cell disease, SS-type, and to evaluate the associations of these nutrient levels with growth and hematologic parameters. PATIENTS AND METHODS: Subjects enrolled in this prospective, cross-sectional study were recruited from one tertiary care setting. Complete blood counts, measurement of red blood cell (RBC) folate and serum vitamin B12, anthropometric measures (height, weight, skinfold measurements), pubertal status, and 24-hour dietary recalls were obtained from 70 patients ages 1 to 19 years. RESULTS: Low RBC folate levels were found in 15% of the children. Fifty-seven percent of the sample had inadequate dietary folate intake. Three percent of the children had low serum vitamin B12 levels. All children and adolescents sampled had adequate dietary intake of vitamin B12. Both RBC folate (P = 0.01) and serum vitamin B12 levels (P < 0.01) decreased with increasing age. CONCLUSIONS: More than half of the subjects had inadequate intake of folate from food, and despite daily folate supplementation, 15% had low RBC folate levels. Low serum vitamin B12 levels were rare, and dietary vitamin B12 intake was adequate. Additional research is needed to explore the effects of improved folate status, the need for folate supplementation, and the relationship of folate, vitamin B12, and homocysteine levels and the risk for vascular damage and stroke in children with sickle cell disease.     

Plasma homocysteine levels and folate status in children with sickle cell anemia.

PURPOSE: A sensitive inverse relationship between plasma homocysteine concentration and folate status has been demonstrated. Although children with sickle cell anemia (SCA) are at potential risk for folate deficiency, plasma homocysteine levels have not been reported in such patients. Therefore, a study was designed to assess plasma homocysteine levels as a marker of folate status. DESIGN: Plasma homocysteine concentrations were measured in 120 children with SCA (102 in steady state and 18 during an acute complication) who had never received supplemental folic acid. Folate status was directly assessed in 34 of these patients. RESULTS: Plasma homocysteine levels in the patients with SCA and control subjects were similar. The mean value +/- 1 SD was 5.8+/-2.5 micromol/L (range, 1.6 to 14.1 micromol/L) in the patients with SCA and 6.1+/-2.7 micromol/L (range, 1.7 to 15.3 micromol/L) in 73 pediatric control subjects. In a subpopulation of the study group (34 children), simultaneous serum folate, red cell folate, and total homocysteine concentrations were also measured. Their serum folate and red cell folate concentrations were normal: 12.4+/-10.0 nmol/L (range, 1 to 42 nmol/L) and 604+/-374.7 nmol/L (range, 205 to 1741 nmol/L), respectively. There was no correlation of plasma homocysteine concentration with various clinical or laboratory measures or with red cell folate concentration. CONCLUSION: Folate stores in children with SCA not receiving folic acid supplements are adequate despite an underlying hemolytic anemia.     

Degradation and clearance of methotrexate in children with osteosarcoma receiving high-dose infusion.

Plasma methotrexate (MTX) concentrations were quantitated in 34 patients after 127 high-dose (35--350 mg/kg) infusions with citrovorum factor rescue. Significant linear correlations have been obtained between methotrexate dosage and concentrations in plasma at 6 and 24 hours after the initiation of the therapy. However, similar trends have not been observed when 48- and 72-hour samples were analyzed. Clinical toxicity was not serious when the methotrexate level in plasma was less than 4.5 X 10(-6) M at 48 hours after the start of a six-hour infusion in children. A minimal four-hour steady-state methotrexate plasma level can be maintained during a six-hour infusion. Children excrete methotrexate at a faster rate than adults; the half-life of MTX during the first phase of plasma clearance curve is one hour shorter in children. Urinary analyses have indicated that substantial methotrexate is metabolized. The chemical nature of these components has not been identified. Further, the urinary metabolic profiles varied among patients.     

Influence of plasma lipids and adiposity on red blood cell tocopherol level

The influence of plasma lipids and the degree of adiposity on red blood cell (RBC) tocopherol levels was investigated in children. In the first study of nonobese children with a wide range of plasma lipid values, the correlation coefficient between RBC tocopherol levels and plasma tocopherol levels was 0.39 (P less than 0.001, n = 195) but when RBC tocopherol was compared with plasma tocopherol based on plasma total lipids, the coefficient increased to 0.69. From this finding it is assumed that RBC tocopherol levels are governed by the tocopherol concentration in plasma lipids. In the second study of obese children, RBC tocopherol levels decreased in the children with 30% or more excess weight, as compared with those of control children and those with less than 30% obesity, while plasma tocopherol levels were unrelated to obesity grades. Because of no significant difference in plasma total lipid levels among these three groups of children, decreased RBC tocopherol in children with 30% or more obesity is probably attributable to their adiposity.     

Degradation and clearance of methotrexate in children with osteosarcoma receiving high-dose infusion

Plasma methotrexate (MTX) concentrations were quantitated in 34 patients after 127 high-dose (35–350 mg/kg) infusions with citrovorum factor rescue. Significant linear correlations have been obtained between methotrexate dosage and concentrations in plasma at 6 and 24 hours after the initiation of the therapy. However, similar trends have not been observed when 48- and 72-hour samples were analyzed. Clinical toxicity was not serious when the methotrexate level in plasma was < 4.5 × 10^?6 M at 48 hours after the start of a six-hour infusion in children. A minimal four-hour steady-state methotrexate plasma level can be maintained during a six-hour infusion. Children excrete methotrexate at a faster rate than adults; the half-life of MTX during the first phase of plasma clearance curve is one hour shorter in children. Urinary analyses have indicated that substantial methotrexate is metabolized. The chemical nature of these components has not been identified. Further, the urinary metabolic profiles varied among patients.     

维族、汉族急性淋巴细胞白血病患儿甲氨蝶呤不良反应探讨

目的：通过对维吾尔族及汉族急性淋巴细胞白血病（ALL）患儿甲氨蝶呤（MTX）血药浓度监测结果的分析,为MTX不良反应的发生提供判断依据。方法：根据24 h MTX血药浓度监测结果,将28例（汉族 15 例,维吾尔族 13 例）接受大剂量MTX化疗的ALL患儿分为>10 μmol/L与≤10 μmol/L组;根据48 h MTX血药浓度监测结果分为>1.0 μmol/L与≤1.0 μmol/L组。采用酶放大免疫测定法对行MTX治疗的所有患儿给药后24 h及48 h血药浓度进行检测并观察不良反应发生情况。结果：不良反应发生率在不同24 h MTX血药浓度组间差异无统计学意义(P>0.05);48 h MTX血药浓度>1.0 μmol/L组的消化道反应及黏膜损害发生率高于血药浓度≤1.0 μmol/L组 (P0.05);汉族患儿24 h及48 h MTX血药浓度均高于维吾尔族(P<0.05);除消化道反应外,汉族患儿肝功能异常、黏膜损害及骨髓抑制的发生率高于维吾尔族患儿 (P<0.05)。结论：24 h MTX血药浓度不能预测不良反应的发生,48 h MTX血药浓度对不良反应的发生有一定预测价值;24 h、48 h MTX血药浓度及不良反应发生率在维吾尔族及汉族间存在差异;MTX血药浓度监测结果可能对及时调整MTX用量,从而达到MTX个体化治疗具有重要意义。     

High-dose methotrexate therapy of childhood acute lymphoblastic leukemia: lack of relation between serum methotrexate concentration and creatinine clearance.

BACKGROUND: The objectives of this study were: (1) to analyze the relation of serum methotrexate (MTX) concentration with creatinine clearance, (2) to compare the leucovorin rescue dose administered to the patients based on creatinine clearance, with the one calculated according to serum MTX levels, and (3) to determine MTX-related toxicity. PROCEDURE: Thirty children with high-risk non-B acute lymphoblastic leukemia (ALL) treated according to the national protocol (PINDA 92) based on ALL BFM 90, were randomized to receive consolidation with four doses of either 1 or 2 g/m(2) MTX as a 24-hr infusion, at 2-week intervals (group M1 and M2, respectively). Serum MTX concentrations were measured at 24, 42, and 48 hr after beginning the infusion and were analyzed retrospectively. The creatinine clearance was calculated after 12-hr intravenous hydration prior to each MTX dose. Leucovorin dosage was adjusted according to creatinine clearance. RESULTS: Serum MTX concentrations at 24, 42, and 48 hr after starting the infusion were not related to creatinine clearance in both treatment groups. Leucovorin rescue administered according to creatinine clearance was excessive in 43% in group M1 and in 51% in group M2, as compared to the dose calculated according to serum MTX levels. No serious clinical complications were observed. CONCLUSIONS: These results suggest that creatinine clearance is not a good parameter to calculate leucovorin rescue. MTX-related toxicity in this group of patients receiving a dose of 1 or 2 g/m(2) and rescued with leucovorin without monitoring serum MTX levels was acceptable.     

New aspects of the determination of blood methotrexate levels in leukemic children

Serum and CSF concentrations after medium dosage of methotrexate (MTX; 500 mg/m2 - 1,000 mg/m2) have been determined by an enzymatic assay during 142 infusions in children with ALL. If the dose of MTX was 500 mg/m2 MTX concentrations in CSF were under 10(-6) M/l in 40% of the treatments but only in 22%, when the dose was increased to 1,000 mg/m2. The systemic clearance of MTX was found to be increased significantly by the 2nd MTX treatment in children who relapsed thereafter. Such a phenomenon was not observed in children who continued in remission. The relapse free survival of children, whose MTX-clearance remained constant by the 2nd MTX treatment was significantly longer. No serious MTX toxicity has been observed in our patients.     

Red blood cell sorbitol in diabetic children

When red blood cells (RBC) were incubated with various concentrations of glucose, the RBC sorbitol level increased in a concentration-dependent manner. The elevated RBC sorbitol level was not reduced by further incubation in a glucose-free medium. In both diabetic and non-diabetic children, an increase of RBC sorbitol levels occurred in the oral glucose tolerance test and the return to baseline was delayed in diabetics compared with non-diabetics. In the majority of diabetics (87%), RBC sorbitol levels exceeded the upper limit of the normal range, which was arbitrarily determined as the mean + 2 s.d., in healthy non-diabetic children and adults. A good correlation was observed between RBC sorbitol levels and plasma glucose levels (r = 0.644). In both diabetics and non-diabetics, no correlation was observed between RBC sorbitol levels and age, and in diabetics the RBC sorbitol level was not related to the duration of disease. A good correlation was observed between RBC sorbitol levels, and hemoglobin Alc (HbAlc) or fructosamine levels in diabetic children.     

癫痫患儿红细胞免疫功能的研究

目的 探讨红细胞免疫粘附功能与癫痫发作的关系。方法 采用酵母菌花环试验法对７０例癫痫患儿及３０例健康儿童（对照组）进行红细胞（Ｃ３ｂ（ＲＢＣ－Ｃ３ｂ）受体花环率及红细胞免疫复合物ＲＢＣ－ＩＣ）花环率检测,并进行比较。结果（１）癫痫组ＲＢＣ－Ｃ３ｂ受体花环率明显地姐;ＲＢＣ－ＩＣ花环率明显高于对照组;（２）使用抗癫痫药物组患儿ＲＢＣ－Ｃ３ｂ受体花环率明显高于未使用抗癫痫药物组,ＲＢＣ－ＩＣ花环率两组     

大剂量甲氨蝶呤目标浓度个体化调整研究

目的 探讨大剂量甲氨蝶呤(MTX)24 h输注治疗儿童急性淋巴细胞白血病目标浓度个体化调整的方法.方法 本研究涉及24例患儿105个疗程,检测MTX开始输注后第1和第6小时的血药浓度,根据已建立的大剂量MTX群体药物动力学模型,推算出该疗程稳态血药浓度(CSS)的预测值.根据CSS预测值,于MTX开始输注后第8小时调整MTX输注速度和剂量.MTX输注后第23小时再检测血药浓度(CSS实测值).结果 为达目标浓度,17例(71%)患儿进行了剂量调整.45个疗程(43%)调整了剂量,42个疗程增加了剂量,3个疗程减少了剂量.早期阶段(诱导缓解和巩固治疗方案后的大剂量MTX的疗程)29个疗程中有16个疗程增加了剂量,1个疗程减少了剂量;维持阶段76个疗程中有26个疗程增加了剂量,2个疗程减少了剂量.最终有95个(90%)疗程的CSS实测值达目标范围,8个疗程小于目标范围,2个疗程大于目标范围.如果不调整剂量,仅有74个(70%)疗程的CSS(不调整)在目标范围.调整MTX剂量,与不调整相比,可以明显增加CSS实测值达目标范围的疗程数(χ2=13.366,P=0.000).在剂量不调整的60个疗程中,CSS实测值和CSS预测值有较好的直线相关性(r=0.487,P=0.000);CSS实测值与MTX输注后第6小时的血药浓度也有一定的直线相关性(r=0.389,P=0.002).105个疗程MTX的总清除率(CL)实测值是(7.01±2.06)L/(m2·h).在所有疗程间CL相差最大达4.4倍,同一患儿不同疗程间CL相差最大达2.9倍.CL与患儿的年龄、体重和总胆红素呈直线负相关,与血磷呈直线正相关;化疗早期阶段疗程的CL有高于维持阶段疗程的倾向(P均＜0.05).结论 105个疗程大剂量MTX化疗,疗程间CL差异最大达4.4倍,需要目标浓度个体化调整.通过检测MTX输注后第1和第6小时的血药浓度,调整MTX输注速度和剂量,最终90%疗程的CSS实测值达目标范围.早期阶段大剂量MTX化疗更需要目标浓度个体化调整.     

Effect of methotrexate and folinic acid on skeletal growth in mice

AIM: To investigate whether chronic administration of medium doses of methotrexate (MTX) causes suppression of skeletal growth in young mice and to determine whether folinic acid supplementation could reverse this effect. METHODS: Four equal groups of Balb/c young male mice (6 animals in each group; mean body weight 11.9 +/- 0.25 g, in their rapid growth phase) were subjected to the following drug treatment for a period of 3 wk. Group 1 was given intraperitoneal MTX (3.5 mg kg(-1) body weight) every second day. Group 2 received folinic acid (7.0 mg kg(-1) body weight) intraperitoneally every second day. Group 3 was given both drugs (MTX every second day and folinic acid 8 h post-MTX injection). Group 4 was injected with physiological saline every other day to serve as a control group. Total body weight of the animals in each group was monitored every second day for the entire study period. The animals were sacrificed, the bilateral femurs and tibias of each animal were harvested and X-rays of the bones were taken. The length of each femur and tibia was measured using a micrometer. Measurements from the radiographs were also recorded using image analysis software. The MTX concentrations in the plasma and the folate levels in erythrocytes were determined. The heights of the distal femoral and the proximal tibial growth plate for each animal were measured on histological tissue sections. RESULTS: Mean lengths of both the tibia and femur of animals were compared in the four treatment groups. A significant decrease in the mean lengths (one-way ANOVA, p < 0.005) was observed in the group receiving MTX alone. Similarly, there was a significant decrease (p < 0.001) in the height of the femoral and tibial growth plate in this group when compared with the other groups. The main effect of MTX seemed to be on the hypertrophic proliferative zone of chondrocytes in the growth plate. Furthermore, animals in this MTX-treated group also showed increased levels of MTX in plasma and low levels of erythrocyte folate. CONCLUSION: These data show that chronic administration of MTX induces suppression of skeletal growth in mice, possibly through the inhibition of the pathway of de novo DNA synthesis. Folinic acid treatment following MTX administration appears to reverse this growth inhibition. Based on these observations, children suffering from juvenile rheumatoid arthritis, osteosarcoma or acute lymphoblastic leukaemia and receiving MTX over long periods of time could be at risk of short-term suppression of skeletal growth. If this is the case, it is possible that they could benefit from dietary supplementation with folinic acid.     

Myelotoxicity, pharmacokinetics, and relapse rate with methotrexate/6-mercaptopurine maintenance therapy of childhood acute lymphoblastic leukemia

White blood cell and absolute neutrophil counts (WBC, ANC), aminotransferase (AT) levels, methotrexate (MTX) and 6-mercaptopurine (6MP) doses, metabolites in erythrocytes (E-MTX and E-6TGN), and the prognostic significance of these parameters were studied in 58 children receiving MTX/6MP maintenance therapy for acute lymphoblastic leukemia diagnosed from July 1986 to December 1991. At the end of follow-up July 1995, 13 patients had relapsed (pEFS = 0.77). Weighted means of AT, WBC, and ANC during and after maintenance therapy (mAT, mWBCON, mWBCOFF, mANCON, mANCOFF), E-MTX (mE-MTX), and E-6TGN (mE-6TGN) were calculated, as well as the product of mE-MTX and mE-6TGN (mE-MTX*6TGN), as MTX and 6MP probably act synergistically. Beyond higher MTX and 6MP doses to patients with high mWBCON, neither mWBCON, (median 3.5 x 10(9)/L), mANCON, nor mAT was correlated with the dose of MTX and 6MP, mE-MTX, mE-6TGN, or risk of relapse. Patients with mE-MTX*6TGN above or below 828 (nmol/mmol Hb)2 (median value) had pEFS values of 0.84 and 0.70, respectively (P = .16). All 5 patients who relapsed during therapy had mE-MTX*6TGN < 828 (nmol/mmol Hb)2 (P = .03). mWBCOFF and the degree of myelosuppression (= mWBCSHIFT = mWBCOFF - mWBCON; median: 2.5 x 10(9)/L) were related to age (rs = -0.50, P = .001 and rs = -0.40, P = .006, respectively). All eight relapses off therapy occurred in patients with mWBCSHIFT < 2.5 x 10(9)/L (P = .02). WBC levels during MTX/6MP therapy may underestimate the degree of MTX/6MP treatment intensity, especially in order children. Pharmacokinetic monitoring could be useful for optimizing MTX/6MP maintenance therapy.     

The effects of protein,red blood cells and whole blood on PS valve function

We tested the performance of low- and medium-pressure PS flow control valves as they were perfused with (1) solutions with varying concentrations of protein, (2) solutions with varying numbers of red blood cells (RBC) or (3) solutions with varying concentrations of whole blood. Perfusion was performed with a peristaltic pump at a constant rate and each trial lasted 2 weeks or until valve failure. Mean valve pressures were measured and recorded electronically, and opening and closing pressures were obtained at baseline and at the end of the perfusion period or upon valve failure. Any buildup of material within the valve was noted and recorded. Our findings were as follows: (1) protein levels have little practical effect on valve function; (2) moderate numbers of RBC cause increased variability in valve function while large numbers of RBC uniformly lead to valve failure; (3) prolonged perfusion with solutions of dilute whole blood is poorly tolerated, and (4) valve failure is preceded by a period of increased variability in perfusion pressure.     

Plasma and urine levels of methotrexate and 7-hydroxymethotrexate in children with all during maintenance therapy with weekly oral methotrexate

A new high-performance liquid chromatographic assay was used to determine methotrexate (MTX) and its main metabolite, 7-hydroxymethotrexate (7-OH-MTX), in the plasma (n - 17) and urine (n = 14) of children (age 3-12 years) on maintenance therapy for acute lymphocytic leukemia (n = 14) or non-Hodgkin's lymphoma (n = 3). Each child received oral doses of weekly MTX (4.0-29 mg/m²) and daily 6-mer-captopurine (40-111 mg/m²). Plasma samples were collected daily from two children during the 1-week dose interval. A limited sampling strategy was designed, whereby 2 days of blood sampling were used in the other 15 patients. Morning urine samples were collected daily for 1 week following MTX intake from 14 of the children. MTX was detectable in all plasma and urine samples for the entire dose interval. The main metabolite, 7-OH-MTX, could be detected in plasma and urine from all patients on the first day after dose intake but only in a few patients during the whole dose interval. Interpatient variability of MTX and 7-OH-MTX levels was high at all points during the week. Significant correlation were found between the urinary MTX levels on days 2 and 7 and plasma MTX levels on day 2 after intake. No significant correlation was found between drug levels in plasma or urine and liver function tests in the children showing signs of mild liver injury. This assay provides a tool for further studies on the role of pharmacokinetics for the clinical effects of weekly oral low-dose MTX given alone or in combination with 6-mercaptopurine. © 1994 Wiley-Liss, Inc.     

Sodium and potassium concentrations in red blood cells and plasma in children with congenital heart defect

The sodium and potassium concentrations of the red blood cells and plasma were investigated in 93 children with cardiac disease, most of them with congenital heart defect, and in 48 healthy children of the same age. The red blood cell sodium and potassium concentrations were constant within a narrow range in normal subjects, but varied profoundly in pathological conditions. Digitalis treatment caused RBC Na+ and plasma K+ levels to increase and the RBC K+ level to decrease by blocking the Na+-K+ pump. The highest RBC Na+ concentration was observed in critically ill patients with congestive heart failure treated with digoxin. An augmented RBC sodium value was found in heart malformations with left to right shunt and in congestive cardiomyopathy that was not treated, whereas in patients with right to left shunt lower RBC sodium, higher RBC potassium and plasma potassium values were registered without any treatment. In cases of hyperkinetic circulation without any congenital heart defect the value of RBC sodium was definitely low. A low sodium and a high potassium level of the RBC were found after total correcting heart surgery. It is concluded that measurement of changes in sodium and potassium concentrations of the red blood cells is not a reliable method for assessment of the efficacy of digitalis treatment. The results point to the accompanying phenomena at a cellular level in heart disease.     

Interaction between trimethoprim-sulfamethoxazole and methotrexate in children with leukemia

Because trimethoprim-sulfamethoxazole (TMP-SMX) causes neutropenia in children with leukemia, we investigated the possibility that pharmacokinetic interaction between methotrexate (MTX) and TMP-SMX causes accumulation of the antileukemia agent. We studied the pharmacokinetics of MTX given intravenously or orally to nine children with acute lymphoblastic leukemia, once with and once without TMP-SMX. There was an increase in free MTX fraction during TMP-SMX therapy in all patients, from (mean +/- SD) 37.4 +/- 11% without TMP-SMX to 52.2 +/- 6.4% with TMP-SMX (p less than 0.01). Plasma clearance of total MTX did not change significantly, whereas clearance of free MTX decreased significantly (from 12.5 +/- 4 to 7.6 +/- 1.5 ml/kg/min; p less than 0.05). There was a consistent decrease in the renal clearance of free MTX (from 12.1 +/- 6.8 to 5.6 +/- 2.4 ml/kg/min; p less than 0.05). Elimination half-life of MTX was not affected significantly by TMP-SMX. There was a significant correlation between serum concentrations of TMP-SMX and the percentage of decrease in the renal clearance of free MTX (r = 0.91; p less than 0.05). These changes in protein binding and tubular clearance of MTX, caused by competition with TMP-SMX, result in a mean 66% increase in systemic exposure to MTX and may explain the myelotoxicity often observed with the coadministration of the two drugs.     

Pharmacokinetics and toxicity of methotrexate in children with Down syndrome and acute lymphocytic leukemia

Children with Down syndrome and acute lymphocytic leukemia (ALL) have poor tolerance to antineoplastic drugs, including methotrexate (MTX). We evaluated MTX pharmacokinetics and toxicity in five patients with Down syndrome and ALL who had received multiple high doses of MTX (1 g/m2). Three control patients without Down syndrome were matched to each case according to sex, race, age, and initial leukocyte count. Median MTX plasma concentrations, measured 42 hours after infusion, were significantly higher in patients with Down syndrome versus control patients (average 0.47 vs 0.24 mumol/L, respectively, P = 0.03). When a 42-hour MTX concentration of 0.5 mumol/L was used to identify patients at risk for toxicity, more courses were considered at high risk for toxicity among patients with Down syndrome (31 of 62, 50%) than in control patients (13 of 214, 6.1%, P less than 0.0001). The average MTX clearance was 64.1 mL/min/m2 in Down syndrome vs an average control value of 80.6 mL/min/m2 (P = 0.13). Toxicity after each high-dose MTX course was graded according to standardized criteria. Grades 2 through 4 gastrointestinal toxicity and grades 3 and 4 hematologic toxicity occurred more frequently in the patients with Down syndrome (36% and 13.4% of courses, respectively) vs the control patients (3.6% and 0.9% respectively, P less than 0.0001 for both). This higher frequency of toxicity occurred despite higher doses and prolonged duration of leucovorin given to all patients with Down syndrome. We conclude that altered MTX pharmacokinetics may contribute to the higher incidence of MTX-induced toxicity seen in patients with Down syndrome.     

Plasma homocysteine and lipoprotein (a) levels as risk factors for atherosclerotic vascular disease in epileptic children taking anticonvulsants

AIM: To assess the effect of anticonvulsant treatment on plasma homocysteine level and lipoprotein (a) in epileptic children. METHODS: Plasma total homocysteine, folate, vitamin B12 and lipoprotein (a) concentrations were measured in 111 epilectic children taking anticonvulsant drugs for longer than 12 mo. Forty-six healthy, sex- and age-matched children served as controls. RESULTS: Patients and controls differed significantly in concentrations of homocysteine (p < 0.05) and lipoprotein (a) (p < 0.001). The number of patients with homocysteine concentrations of >9 microM was significantly higher in the patient group than in the control group. A significant inverse relationship was found between vitamin B12 folate levels and plasma homocysteine levels in the patient group; 28.8% of the patient group had lipoprotein (a) concentrations above the cut-off value (30 mg/dl) for increased risk of early atherosclerosis, whereas none of the control patients had concentrations above this value. CONCLUSION: These data indicate that prolonged anticonvulsant treatment could increase plasma homocysteine and lipoprotein (a) concentrations and that it may be useful to measure the levels routinely in order to prevent atherosclerosis in epileptic children taking anticonvulsant drugs.     

Oxygen transport in congenital heart disease: influence of fetal hemoglobin, red cell pH, and 2,3-diphosphoglycerate.

In 48 individuals (age 1 day to 13 years) with congenital heart disease, blood oxygen transport function was studied in order to evaluate adaptive changes in shunt hypoxemia and to investigate the in vivo regulation of erythrocyte 2, 3-diphosphoglycerate concentration (RBC 2, 3-DPG) in the presence of fetal hemoglobin (HbF). Arterial pO2 and oxygen content, oxygen capacity, acid base status, oxygen affinity, HbF fraction, plasma pH, red cell pH, and RBC 2, 3-DPG were determined. During the first 50 days of life values of standard P50 (stdP50) (37, pH 7.4), actual in vivo P50 (actP50), RBC 2, 3-DPG, O2 capacity, arterial plasma pH, and red cell pH were scattered around the normal range, although tending to low values for stdP50 and arterial plasma pH and to high values for O2 capacity. After the third month, stdP50 actP50, RBC 2, 3-DPG, O2 capacity, and red cell pH were found to be elevated. Plasma pH and actP50 were scattered around the normal range (Figs. 1 and 2). Intraerythrocytic pH in hypoxemic infants was increased compared with normal children when related to plasma pH (Fig. 3). A close to normal intraerythrocytic pH was therefore found in the hypoxemic infants with low plasma pH, and an increased intraerythrocytic pH in the hypoxemic children with normal plasma pH (Fig. 1). A significant negative correlation exists between erythrocyte H+ ion and 2, 3-DPG concentration (Fig. 5); regression constants derived from data at high (mean 47%) and low (mean 9%) fractions of HbF are not significantly different (Regression Equations 8 and 11 in Table 1). Thus, the known difference in 2, 3-DPG binding to fetal or adult deoxyhemoglobin does not measurably influence the erythrocyte 2, 3-DPG concentration, indicating that in vivo the 2, 3-DPG synthesis in hypoxia is virtually regulated by the erythrocyte pH, which in turn is determined by plasma pH and the oxygenation state of hemoglobin.