Malnutrition has become a dangerously common problem in children with chronic liver disease, negatively impacting neurocognitive development and growth. Furthermore, many children with chronic liver disease will eventually require liver transplantation. Thus, this association between malnourishment and chronic liver disease in children becomes increasingly alarming as malnutrition is a predictor of poorer outcomes in liver transplantation and is often associated with increased morbidity and mortality. Malnutrition requires aggressive and appropriate management to correct nutritional deficiencies. A comprehensive review of the literature has found that infants with chronic liver disease (CLD) are particularly susceptible to malnutrition given their low reserves. Children with CLD would benefit from early intervention by a multi-disciplinary team, to try to achieve nutritional rehabilitation as well as to optimize outcomes for liver transplant. This review explains the multifactorial nature of malnutrition in children with chronic liver disease, defines the nutritional needs of these children, and discusses ways to optimize their nutritional.
Our results show that more education regarding medication in functional constipation is necessary, including the use of medication reducing time to remission, the necessity of disimpaction, and misconceptions regarding adverse effects.
It has become a common practice to supplement human milk with a variety of additives to improve the nutritive content of the feeding for the premature infant. Twenty-two freshly frozen human milk samples were measured for lysozyme activity, total IgA, and specific IgA to Escherichia coli serotypes 01, 04, and 06. One mL aliquots were mixed with the following: 1 mL of Similac, Similac Special Care, Enfamil, Enfamil Premature Formula, and sterile water; 33 mL of Poly-Vi-Sol, 33 mg of Moducal, and 38 mg of breast-milk fortifier, and then reanalyzed. Significant decreases (41% to 74%) in lysozyme activity were seen with the addition of all formulas; breast-milk fortifier reduced activity by 19%, while no differences were seen with Moducal, sterile water, or Poly-Vi-Sol. No differences were seen in total IgA content, but some decreases were seen in specific IgA to E. coli serotypes 04 and 06. E. coli growth was determined after 3 1/2 hours of incubation at 37 degrees C after mixing. All cow-milk formulas enhanced E. coli growth; soy formulas and other additives preserved inhibition of bacterial growth. Nutritional additives can impair anti-infective properties of human milk, and such interplay should be considered in the decision on the feeding regimen of premature infants.
Asians as a group comprise > 60% the world’s population. There is an incredible amount of diversity in Asian and admixed populations that has not been addressed in a pharmacogenetic context. The known pharmacogenetic differences in Asian subgroups generally represent previously known variants that are present at much lower or higher frequencies in Asians compared with other populations. In this review we summarize the main drugs and known genes that appear to have differences in their pharmacogenetic properties in certain Asian populations. Evidence‐based guidelines and summary statistics from the US Food and Drug Administration and the Clinical Pharmacogenetics Implementation Consortium were analyzed for ethnic differences in outcomes. Implicated drugs included commonly prescribed drugs such as warfarin, clopidogrel, carbamazepine, and allopurinol. The majority of these associations are due to Asians more commonly being poor metabolizers of cytochrome P450 (CYP) 2C19 and carriers of the human leukocyte antigen (HLA)‐B*15:02 allele. The relative risk increase was shown to vary between genes and drugs, but could be > 100‐fold higher in Asians. Specifically, there was a 172‐fold increased risk of Stevens‒Johnson syndrome and toxic epidermal necrolysis with carbamazepine use among HLA‐B*15:02 carriers. The effects ranged from relatively benign reactions such as reduced drug efficacy to severe cutaneous skin reactions. These reactions are severe and prevalent enough to warrant pharmacogenetic testing and appropriate changes in dose and medication choice for at‐risk populations. Further studies should be done on Asian cohorts to more fully understand pharmacogenetic variants in these populations and to clarify how such differences may influence drug response.
Background Liver failure of unknown etiology (LFUE) has a transplant-free survival rate <25%. Human herpesvirus 6 (HHV-6) may be associated with LFUE, but studies are limited by small sample size. Methods We identified all children who underwent liver transplant for LFUE at a single quaternary children’s hospital; 51/65 cases could be age matched with controls (children who underwent liver transplant for metabolic liver disease). Quantitative polymerase chain reaction for HHV-6 was performed on DNA from formalin-fixed paraffin-embedded liver explant tissue. Results HHV-6 was detected in 34/51 cases (66.7%) and 19/51 controls (37.3%) (P = .005). Average HHV-6 viral load was 213207 copies/106 cells in positive cases (range: 7293–1102030) and 38115 copies/106 cells in positive controls (range: 1382–122375) (P = .0008). HHV-6 was present significantly more often in cases compared to controls in patients younger than 6 years. In particular, in patients younger than 3 years, HHV-6 was present in 13/27 cases (48.1%) and 2/27 controls (7.4%) (P = .0009). Conclusions HHV-6 was detected in liver explants significantly more often and in higher quantities in children transplanted for LFUE compared to controls, suggesting HHV-6 should be evaluated in young children who present with LFUE.
It was shown previously that phage 21 and the defective element e14 integrate at the same site within the icd gene of Escherichia coli K-12 but that 21 integrase and excisionase excise e14 in vivo very infrequently compared to excision of 21. We show here that the reverse is also true: e14 excises itself much better than it excises an adjacent 21 prophage. In vitro integrase assays with various attP substrates delimit the minimal attP site as somewhere between 366 and 418 bp, where the outer limits would include the outermost repeated dodecamers suggested as arm recognition sites by S. J. Schneider (Ph.D. dissertation, Stanford University, Stanford, Calif., 1992). We speculate that the reason 21 attP is larger than attP (240 bp) is because it must include a 209-bp sequence homologous to the 3 end of the icd transcript in order to allow icd expression in lysogens. Alteration of portions of 21 attP to their e14 counterparts shows that 21 requires both the arm site and core site sequences of 21 but that replacements by e14 sequences function in some positions. Consistent with Schneider's in vivo results, and like all other known integrases from lambdoid phages, 21 requires integration host factor for activity.The lambdoid phages are a group of natural temperate phages whose best-known member is coliphage . They have a common genetic map and are related to one another by frequent natural recombination but exhibit extensive variation in function and nucleotide sequence (6). One example of such variation is seen in their integrase genes, which mediate insertion into the chromosome by site-specific recombination. Each lambdoid phage has a specific preferred site of insertion on the chromosome. Whereas some phages, like and 434, insert at the same chromosomal site and closely resemble each other in their integrase and excisionase genes and phage attachment sites, many distinct insertion specificities are found within the group. Between phages that insert at different sites, like and 21, the protein components are not interchangeable. Thus, each integrase protein has its own specificity of site recognition. The integrase genes of all lambdoid phages have sufficient sequence similarity to imply origin from a common ancestor, from which the whole spectrum of integration specificities must have evolved.The biochemical pathway of integrase-mediated site-specific recombination is well known (Fig. 1). For , the required extent of specific sequence is about 21 bp for the bacterial partner (attB) and 240 bp for the phage partner (attP). The actual crossover event takes place between attB and a similar sequence (core sequence) within attP and entails an exchange between the top two strands, forming a Holliday junction intermediate, followed by a homology-dependent process equivalent to branch migration through a 7-bp overlap (O) segment (identical in attB and the attP core) and resolution by exchange in the lower two strands at a position displaced 7 bp from the initiating exchange. The overlap segment is flanked by oppositely or...
Level IV, therapeutic study. See Guidelines for Authors for a complete description of levels of evidence.
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