Pediatric intestinal transplantation at Packard Children's Hospital/Stanford University Medical Center: report of a four-year experience.

We report a 4-year experience of a new program in pediatric intestinal transplantation. Among 50 children referred for evaluation, 27 were listed for transplantation. Two children originally listed for combined liver/small bowel transplant were changed to isolated intestinal transplant as rehabilitation efforts resulted in full recovery of hepatic function. Eighteen children received 18 grafts: 12 liver/intestine, 5 isolated intestine, and 1 multivisceral. Mean age at transplant was 3.6 year with 75% of patients aged 0 to 2 years. Five listed children died while waiting and four were still on the list. Immunotherapy included antithymocyte globulin induction and tacrolimus, sirolimus, and prednisone maintenance. At 1 year, patient and graft survivals were 75% and 67%, respectively. For isolated intestine, 1 year survivals were 100% and 75%, while for combined liver/intestine, they were 71% for both. Enteral autonomy is 100% with total parenteral nutrition stopping by 35.8 days (mean). We had two patients develop posttransplant lymphoproliferative disorder and three, exfoliative rejection, one of whom recovered completely. In conclusion, our program in pediatric intestinal transplantation has become well established with a high proportion of smaller/younger children receiving grafts. Outcomes achieved levels expected based on The Intestinal Transplant Registry and UNOS criteria, which were better than expected for isolated intestinal transplants and achievement of enteral autonomy.

Pituitary regulation of postnatal small intestinal ontogeny in the rat: differential regulation of digestive hydrolase maturation by thyroxine and growth hormone.

During the third week of postnatal life, dramatic ontogenic changes occur in the morphology and enzymology of the small intestine of the infant rat, enabling the animal to make the transition from milk to solid food. To investigate the roles of T4 and GH in regulation of these changes, infant rats were hypophysectomized on day 6 of life by the transauricular technique. Hypophysectomy resulted in diminution of somatic and intestinal growth as well as abnormal maturation of the disaccharidases lactase, sucrase, and maltase when measured on day 25. Administration of either T4 or GH to hypophysectomized animals resulted in moderately increased intestinal growth, while complete restoration of small intestinal growth resulted from administration of the combination of both hormones. Although T4, GH, or the combination of hormones reduced lactase activities, T4 alone produced normal maturation of sucrase and maltase. Neither hypophysectomy nor hormone replacement affected aminooligopeptidase. The molecular structure of lactase, analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, was not altered to a major degree in hypophysectomized animals or animals that received hormone replacement, but minor alterations were evident in sucrase structure in hypophysectomy. These studies indicate that 1) T4 and GH actively participate in postnatal regulation of small intestinal ontogeny; 2) thyroid hormones act directly on developing intestinal tissues to independently produce the normal maturation of the disaccharidases by mechanisms that are not likely to involve alterations in processing of the enzyme-protein; and 3) maturation of aminooligopeptidase is not regulated by pituitary hormones, in distinct contrast to the disaccharidases.

Altered maturation of small intestinal function in the absence of intraluminal nutrients: rapid normalization with refeeding.

The absence of intraluminal nutrients during weaning in rats was shown to result in altered intestinal growth and maturation. In this study intestinal length, mucosal weight, DNA, protein, and total disaccharidase activities were significantly lower in animals sustained by intravenous nutrients over the normal weaning age than were normally weaned controls but were greater than preweaning values. Absorptive capacity for sucrose (assessed by hydrogen-gas production) was diminished, directly linking incomplete maturation of sucrase to diminished intestinal function. To determine whether these alterations were permanent, rats previously deprived of intraluminal nutrients over the weaning period were refed. Eight days after refeeding, all variables except total lactase had attained values found in normally weaned age-matched controls, including absorptive capacity for sucrose. Although intestinal growth and maturation is abnormal in the absence of intraluminal nutrients during weaning, the abnormalities are not permanent and are rapidly corrected upon refeeding.

Maturational patterns of carbohydrases in the ileal remnant of rats after jejunectomy at infancy.

The enteric epithelium of suckling rat undergoes dramatic functional and cytokinetic changes (redifferentiation) with maturation. Ileal epithelial maturation was studied in infant rats subjected to 60% proximal enterectomy at age 10 d in an effort to examine redifferentiation mechanisms. Two months after resection the residual ileal remnant was increased in diameter, weight, total protein, and DNA per unit length compared with ileal segments from control littermates that had laparotomy without resection. The residual ileum demonstrated increased sucrase activity per unit length but was indistinguishable from control ileal segments in activity per unit DNA or villus distribution. Lactase activity was negligible in all segments of the residual intestine. Villus height and crypt depth were increased in the residual ileum with slight increases in cell turnover and cell-migration rates. These results show the presence of an intrinsic program for regulation of ileal epithelial maturation and its resistance to alteration by a major stimulus applied before its expression.

Genetic and environmental determinants of growth in Mexican-Americans.

Height and weight data from the Mexican-American portion of the Hispanic Health and Nutrition Examination Survey (HHANES) are shown for children of ages 2 to 17 years and compared with data for non-Hispanic white children from the second National Health and Nutrition Examination Survey and with the National Center for Health Statistics (NCHS) reference curves. Differences in stature between the Hispanic Health and Nutrition Examination Survey and the reference populations were minor prior to adolescence and could be entirely attributed to the greater poverty of Mexican-Americans. However, differences increased during adolescence (ie, median stature was less than the 25th percentile of the NCHS reference population at 17 years of age) and, in contrast with earlier ages, were independent of poverty. Similar growth patterns were observed in samples of upper-class subjects from Mexico and Guatemala. Nonetheless, the extent to which the short stature of Mexican-American adolescents is genetic is unclear because there is an apparent time trend toward greater stature in the Mexican-American population. In conclusion, the NCHS reference curves are appropriate growth standards for preadolescent Mexican-American children. Whether they are valid for Mexican-American adolescents remains unclear.

An evaluation of food group intakes by Mexican-American children.

Food group daily servings were examined for 3,436 children who participated in the Mexican-American portion of the 1982-1983 Hispanic Health and Nutrition Examination Survey (HHANES). Mean daily servings of 40 foods and food groups were calculated for four age groups: 1 to 2 years, 3 to 5 years, 6 to 11 years, and 12 to 17 years. The HHANES food servings data were combined into four major groups and compared with recommended servings for children. Mean daily servings of the milk group exceeded the recommended two to three servings for younger children but were low for teenagers. Meat group servings (including eggs and nuts/legumes) exceeded the recommended two daily servings for all age groups, whereas bread group intakes averaged 70% to 80% of a recommendation of four servings but only half of a recommendation of six servings. Intakes of fruits and vegetables were lowest, averaging only 33% to 47% of a recommended four servings, or 26% to 38% of a recommended five servings. Servings of all four groups were lowest for teenagers. A dietary score, based on the number of servings from each of the four groups, was developed for each child. Mean dietary scores ranged from 55% (teenagers) to 70% (toddlers and preschoolers) of the recommended score. According to these analyses, dietary guidance for Mexican-American children should focus on increasing intakes of fruits and vegetables and on encouraging more nutritious food choices by teenagers.

Intestinal maturation in the rat: the role of enteral nutrients.

In order to investigate the role of enteral nutrients in intestinal maturation, an animal model was developed consisting of provision of intravenous nutrient infusions to immature suckling rats over the period of weaning. Age- and litter-matched controls were provided identical amounts of the parenteral solution by entered cannula using the same model. At the end of the period of weaning, animals were killed and the intestines removed for measurement of morphologic parameters and disaccharidase, DNA, and protein levels. The absence of enteral nutrients during weaning resulted in striking inhibition of intestinal growth, diminution in mucosal cell mass, and delayed development of lactase. Although the appearance of sucrase was not affected by the lack of enteral nutrients, sucrase levels rose to only one-third of control levels. Jejunoileal gradients were not present in animals deprived of enteral nutrients but were present in animals receiving enteral nutrients. These results are distinct from adult animals treated in identical experimental fashion and indicate that major parameters of intestinal maturation are altered by the absence of intraluminal nutrients. A critical role for intraluminal nutrients in regulation of intestinal development is therefore suggested. The animal model developed for these studies is well suited for investigation of the interactions of the intraluminal environment with intestinal maturation.

Etiology of intestinal damage in gastroschisis, II. Timing and reversibility of histological changes, mucosal function, and contractility.

Previous work in the fetal lamb examined the relative effects of amniotic fluid and bowel constriction in the etiology of bowel damage in gastroschisis. The present study used the same model to assess the timing and reversibility of these changes during gestation. Gastroschisis was created at 80 days' gestation, and a tape was placed around the bowel to cause gradual constriction with growth. Lambs were killed at 100 days, 120 days, and term. Bowel damage was assessed using histology, mucosal enzyme activity, and in vitro motility. In an additional "repaired" group, the constrictor was removed at 120 days, a silastic pouch placed over the bowel, and bowel damage assessed at term. Normal fetuses at each gestational age were used as controls. A fibrous peel was observed at all gestational ages. Mucosal villous atrophy and mesenteric venous and lymphatic dilation were mild at 100 and 120 days, but severe at term. These changes were present but mild in repaired animals at term. Mucosal enzyme activity decreased gradually with gestational age; inhibition of maltase activity was maximal at term, and was significantly reversed by repair, whereas inhibition of aminooligopeptidase activity was maximal at 120 days, and was not affected by repair. Protein/DNA, DNA/weight, and protein/weight ratios showed that repaired mucosal cells were significantly more proliferative, smaller, and less mature than control or gastroschisis cells. In vitro motility studies demonstrated a mild decrease in contractility at 100 and 120 days, and a large decrease at term. This deleterious effect at the end of gestation was only partially reversed by repair in utero.(ABSTRACT TRUNCATED AT 250 WORDS)

Acute rejection of small intestine allografts is associated with increased expression of toll-like receptors.

Although outcomes after intestinal transplantation have steadily improved owing to advances in immunosuppressive therapy, operative techniques, and postoperative medical management, rejection of the intestinal allograft continues to be a major clinical problem and constitutes the primary reason for graft loss. Although the adaptive immune system has been the major focus of investigation regarding regulation of rejection of the intestinal allograft, the role of the innate immune system has recently become of increased interest. We hypothesized that microbial products of the microflora associated with the intestinal allograft may engage the Toll-like receptor pathway of the innate immune system to potentiate alloimmune responses and rejection of the allograft. To investigate this, we established a murine model for orthotopic intestinal transplantation and allograft rejection. Using this model, we show that the expression of Toll-like receptor 2 is increased 50-fold and the expression of Toll-like receptor 4 is increased 200-fold during rejection of the allograft. We then performed survival studies that showed increased survival of mice, which had the Toll-like receptor knocked out. These preliminary studies suggest an important role for in innate immune system in acute rejection of the small intestinal allografts, and as such represents an emerging and promising area of investigation.

Regulation of the ontogenic and regional expression of intestinal aminooligopeptidase.

Aminooligopeptidase (AOP) is the predominant peptidase in the small intestinal epithelium. During postnatal development in the rat, characteristic ontogenic and regional patterns of AOP activities become established. To investigate the molecular mechanisms regulating the maturational changes in AOP activity, we compared AOP synthesis and assembly in the jejunum of suckling (14-day-old) and weaned (28-day-old) rats. AOP synthesis was assessed in vivo by intraperitoneal labeling with [35S]methionine. Both AOP activity and AOP synthesis doubled at weaning, while its posttranslational processing remained unaltered. To examine the mechanisms responsible for generating the regional differences in AOP activity in weaned rats, we contrasted the de novo synthesis, kinetic properties, total immunoreactive protein, and degradation of the jejunal and ileal peptidases. Although AOP catalytic activity was significantly greater in the jejunum than in the ileum, its synthesis rate and substrate affinity (Km) were identical at both sites. However, the ileal peptidase was degraded more rapidly than the jejunal enzyme (t1/2 = 4 and 10 h, respectively). In summary, our data show that increased synthesis accounts for the ontogenic rise in intestinal AOP activity but that altered enzyme turnover produces the jejunal-ileal gradient in AOP activity in weaned rats. Thus the ontogenic and regional expressions of intestinal AOP are defined by transcriptional/translational and posttranscriptional regulatory mechanisms, respectively.

Synthesis and accumulation of protein and carbohydrases along the rat villus column.

Enterocytes of the intestinal mucosa of infant and adult rats continuously proliferate in the crypt, mature as they migrate along the villus column, and are discharged from the villus tip. We examined the synthesis patterns of total protein, lactase-phlorizin hydrolase, sucrase-isomaltase, and maltase-glucoamylase as well as the accumulation of these enzymes in cells during migration along the villus. Labeled leucine was administered intraperitoneally to suckling and young adult rats, and radioactivity was determined in protein and digestive carbohydrase pools of developing villus cells separated sequentially from tip to base of the villus column. The developing cells were found to continuously accumulate protein and carbohydrates as they ascended the villus column. In addition, incorporation of radioactivity into total protein and carbohydrase pools occurred at generally constant rates along the length of the villus. These studies showed that the differentiated enterocyte of both infant and young adult rat intestine exhibits a pattern of continuous growth while migrating the length of the villus column and maintains synthesis of protein and digestive carbohydrates at generally constant rates during this time.

Paediatric liver transplantation: indications, timing and medical complications.

Newer surgical techniques and immunosuppressive therapies have resulted in paediatric liver transplantation being available for most children with end-stage liver disease and has resulted in a greater than 80% 5-year survival rate. The most common indications for paediatric liver transplantation are biliary atresia (43%), metabolic disease (13%) and acute hepatic necrosis (11%). For approximately 75% of children with acute hepatic failure, the cause is unknown. Timing of liver transplantation not only affects survival rate, but may influence neurodevelopmental outcome. Fortunately, numerous types of donors, such as reduced-sized, living related or unrelated and blood-type mismatched, have reduced the mortality of children who are waiting for liver transplantation. However, the mortality and morbidity before and after liver transplantation remain high for children who have fulminant hepatic failure or are less than 5 months of age at the time of transplantation. The principle medical complications after liver transplantation are rejection and infection. Although use of newer immunosuppressive regimens has reduced the rate of rejection, Epstein-Barr virus infection with associated lymphoproliferative disorder remains the principle cause for morbidity and mortality after the initial 3 months post-liver transplant.

Ontogeny of membrane and soluble amino-oligopeptidases in rat intestine.

Intestinal amino-oligopeptidase (AOP) plays an essential role in protein digestion. To characterize its postnatal development, we measured AOP activity in intestinal membrane and cytosolic fractions in suckling and weaned rats, compared the subunit structures of the membrane and soluble enzymes, and assessed the biochemical relationship of these peptidases. At weaning, jejunal membrane AOP activity doubled while soluble AOP activity in the ileum fell abruptly. The maturational increase in the molecular mass of ileal membrane AOP was due to alterations in the N-linked glycosylation of this protein. Ileal membrane and soluble AOP exhibited similar substrate affinities, pH optima, inhibition characteristics, and antigenic epitopes. However, soluble AOP was 25-35 kDa smaller than the membrane enzyme. Peak incorporation of [35S]methionine into ileal brush-border AOP preceded maximal radioactivity in soluble AOP, suggesting that the membrane peptidase is a precursor of the soluble enzyme. We conclude that membrane and soluble AOP are closely related proteins with distinct developmental profiles and that the soluble peptidase may be derived from endocytosis of the membrane enzyme.

Ontogeny of intestinal lactase: posttranslational regulation by thyroxine.

To assess the molecular mechanisms underlying the regulation of lactase ontogeny by thyroxine (T4), we performed an in vivo study of lactase catalytic activity, synthesis, subunit structure, degradation, and enterocyte migration rates in propylthiouracil-induced hypothyroid rat pups, hypothyroid pups injected with T4, and normally weaned rats. Although lactase catalytic activity remained elevated in the hypothyroid rats and declined normally in the other two groups, lactase synthesis was constant among the groups. Lactase subunit structure was identical in normally weaned and T4-injected animals, but the 100-kDa moiety, characteristic of weaned rats, was absent in the hypothyroid pups. The turnover of lactase enzyme was more rapid in euthyroid and T4-injected rats than in hypothyroid animals (t1/2 = 17, 20, and 30 h, respectively). In addition, enterocyte migration was accelerated in the T4-injected rats and reduced in the hypothyroid group compared with controls. However, transit rate was not directly related to lactase activity. Our results suggest that T4 regulates lactase ontogeny by posttranslational mechanisms that include altered processing and increased degradation of the lactase enzyme.

Absorption of zinc deuteroporphyrin IX 2,4-bis-glycol by the neonatal rat small intestine in vivo.

Zinc deuteroporphyrin IX 2,4-bis-glycol (ZnBG) is a potent inhibitor of heme oxygenase and may be useful in the prevention of neonatal jaundice. Enteral administration could be advantageous clinically, but it has been only minimally effective with other metalloporphyrins in rats and humans. Thus, the absorption of ZnBG by the small intestine in vivo was examined. ZnBG was administered enterally at 40 mumol/kg to 2-week-old suckling rats via in situ catheterization of the small intestine. Within 15 min ZnBG was absorbed by the small intestine, as it was measured in portal and systemic venous plasma, intestine, kidney, liver, and spleen. Concentrations exceeding 5.0 microM were found in plasma within 30 min, and 9.4 microM was found in the liver after 30 min. A total of 4.6% of the administered ZnBG dose was measured in plasma and tissues.

Regulation of postnatal intestinal maturation by growth hormone: studies in rats with isolated growth hormone deficiency.

During the 3rd wk of postnatal life in the rat, dramatic maturational changes occur in the structure and function of the small intestine, enabling the animal to make the transition from milk to solid food. To investigate the role of GH in the regulation of this complex process, we studied postnatal intestinal maturation in the spontaneous dwarf rat, a strain of Sprague-Dawley rats with an autosomal recessive mutation in the GH gene resulting in complete but isolated GH deficiency. GH-deficient and GH-normal littermates were studied at d 7 and 14 (suckling) and d 23 (postweaned). The body weight of GH-deficient animals was inhibited by 60% at each age. Longitudinal growth of the small intestine was not inhibited, suggesting that longitudinal small bowel growth is independent of GH regulation. Mucosal cell mass was significantly lower in GH deficiency at all ages studied, and digestive hydrolase capacity per cm of intestine was significantly lower in GH-deficient postweaned animals. However, epithelial cell mass increased markedly in association with weaning and the maturation of lactase, sucrase, and aminooligopeptidase proceeded normally in GH deficiency. These data suggest that, although GH is not required for normal postnatal intestinal maturation, the mucosal epithelial hypoplasia found in GH-deficient animals suggests that GH or GH-dependent factors act as an intestinal mucosal growth factor whose function is to promote the homeostatic or steady-state regulation of mucosal epithelial growth.

Short and plump physique of Mexican-American children.

Mexican-American children are shorter but relatively heavier than non-Hispanic whites and blacks. The objectives of this paper are to assess the extent to which this "short and plump" physique occurs in data collected in two national surveys (HANES I and II); to determine variations by age, sex, and socioeconomic status; and to investigate the anthropometric characteristics that may account for the overweight. Three groups, defined on the basis of reported ancestry and observed race, are studied: Mexican-Americans (MEXAME), non-Hispanic Whites, (EURAME), and blacks (BLACK). Short stature was clearly associated with the poverty index (PI) in all three groups. MEXAMEs with a PI greater than 1.6 were similar in stature to EURAMEs at the same income level at ages 1-11 years but not at 12-17 years. On the other hand, MEXAMEs were shorter than BLACKs at all ages and income levels. The body mass index (kg/cm2) and poverty were unrelated. With respect to the anthropometric characteristics examined that are related to the body mass index, MEXAMEs and EURAMEs were similar in sitting height as a proportion of total height, arm muscle and fat areas, and triceps skinfold but different in the following ways: MEXAMEs had narrower elbow but broader bitrochanteric breadths and larger chest circumferences and subscapular skinfolds. Greater upper body dimensions and fatfolds seem to best describe the physique of MEXAMEs. However, in multiple regressions, these anthropometric characteristics failed to account fully for the greater relative weight of MEXAMEs as compared to EURAMEs.

Hepatic copper metabolism in a mouse model for Menkes' kinky hair syndrome.

Menkes' kinky hair syndrome (KHS) is a lethal x-linked neurodegenerative disorder of copper metabolism, with low serum copper concentrations, tissue-specific copper sequestration, and decreased activities of cuproenzymes in a number of cell types. Although liver copper accumulation is abnormal in KHS, the actual defect in hepatic copper metabolism has not been elucidated. Our studies of liver copper metabolism were conducted in the mottled (blotchy) mouse, an animal model of KHS. After implantation of central venous and biliary catheters in both blotchy and control mice, we measured biliary copper excretion, hepatic copper uptake, and tissue copper contents over an 8-h period after i.v. bolus administration of radioactive 64Cu. Under the experimental conditions used, bile flow and biliary bile acid excretion were held constant, and control and blotchy hepatic 64Cu concentrations were similar in the face of the expected differential in control and mutant kidney 64Cu contents. Biliary excretion of radiocopper was 24.7 +/- 1.5% of injected 64Cu over 8 h in control animals, whereas heterozygotes excreted 6.5 +/- 1.3% and a single hemizygote excreted less than 2%. The pattern of biliary copper excretion was different, with sharp increase and steady decline in control biliary 64Cu excretion but consistently low excretion in mutant mice. No differences were observed in control or mutant hepatic uptake of 64Cu. These data show a reduced biliary excretion of copper in the blotchy mouse, in the absence of a defect in hepatic copper uptake. We suggest that defective copper transport from hepatocyte to bile represents the hepatic expression of the mottled mutation and speculate that a similar defect occurs in human KHS.(ABSTRACT TRUNCATED AT 250 WORDS)

Relationship between breath and total body hydrogen excretion rates in neonates.

Our study examined the relationship of H2 excreted in breath to total body H2 excreted by neonates. We report simultaneously measured end-tidal H2 concentrations, plus breath H2 and total body H2 (breath H2 plus flatus H2) excretion rates in 10 neonates. End-tidal H2 concentrations varied from 2.4 to 192 ppm. Breath H2 excretion rates ranged from 0.20 to 6.5 and total body H2 excretion rates from 0.29 to 15.0 ml/h. The fractional breath H2 excretion in these infants was 48% (range 33-69%), compared with 21% reported in adults. The correlation coefficient for end-tidal derived H2 excretion and directly measured breath H2 excretion rates was 0.95 (p less than 0.001). We conclude that the proportion of total H2 excreted in the breath of neonates is increased compared with adults, suggesting that caution must be exercised when interpreting newborn breath H2 measurements and using adult norms.

Human intestinal lactase-phlorizin hydrolase: isolation and preparation of a specific antiserum.

Human intestinal lactase-phlorizin hydrolase (lactase) was selectively isolated with monospecific polyclonal antibodies to rat lactase. In addition to their immunologic similarities indicated by this isolation, human and rat lactase have similar kinetic characteristics but different subunit structure when analyzed by gel electrophoresis under reducing conditions. Rabbits immunized by injecting human lactase complexed with anti-rat lactase produced specific antibodies to human lactase that exhibited little cross-reactivity to the rat enzyme. The simple single-step procedure allows isolation of human lactase in high purity from small biologic samples and preparation of specific antisera to the human enzyme.