Your search keyword '"Parekh NR"' showing total 16 results

1. The multidisciplinary approach to the care of patients with intestinal failure at a tertiary care facility.

Author

Rhoda KM, Parekh NR, Lennon E, Shay-Downer C, Quintini C, Steiger E, and Kirby DF

Abstract

Intestinal failure is a complex disease state for which extensive therapy is often required. Parenteral nutrition is one of these therapies, but with its long-term use, life-threatening complications may develop. Intestinal rehabilitation to enhance intestinal absorption and function through diet and medication is another therapy that can be used in hopes of weaning parenteral nutrition and preventing malnutrition. For patients who develop complications from parenteral nutrition and fail intestinal rehabilitation interventions, intestinal transplantation may be the best option. In this review, therapies available for intestinal failure and the use of a multidisciplinary approach to the patient with intestinal failure will be reviewed. [ABSTRACT FROM AUTHOR]

Published

2010

2. Criteria for the use of recombinant human growth hormone in short bowel syndrome.

Author

Parekh NR and Steiger E

Published

2005

3. Percentage of weight loss as a predictor of surgical risk: from the time of Hiram Studley to today.

Author

Parekh NR and Steiger E

Published

2004

4. Perioperative Complications Associated with Severity of Anemia in Geriatric Patients Undergoing Spinal Procedures.

Author

Almeida ND, Lee R, Bestourous D, Klein AL, Parekh NR, Sack K, and Sherman JH

Subjects

Aged, Anemia blood, Elective Surgical Procedures adverse effects, Female, Humans, Male, Middle Aged, Perioperative Period, Postoperative Complications surgery, Quality of Life, Reoperation adverse effects, Risk Factors, Urinary Tract Infections etiology, Anemia complications, Postoperative Complications epidemiology, Spine surgery

Abstract

Objective: To investigate preoperative baseline anemia, stratified by severity as a function of hematocrit level, as a risk factor for perioperative complications in geriatric patients undergoing spinal procedures., Background: Previous literature has examined the impact of anemia on risk for complications and adverse outcomes in patients undergoing elective spinal procedures. However, there is a paucity of literature analyzing the impact of anemia in the geriatric population, specifically., Methods: The American College of Surgeons-National Surgical Quality Improvement Database was used to identify patients older than 65 years who had undergone elective spinal procedures and were subsequently stratified into 3 separate cohorts based on hematocrit levels: severe/moderate (hematocrit level <30%), mild (30%-37%), and no anemia (>38%). These patient samples were then analyzed using multivariate analyses to assess severity of anemia as a risk factor for complications in elderly patients undergoing spinal procedures., Results: When anemia classes were analyzed as separate independent risk factors for complications, mild anemia (class II) was a significant risk factor for the same complications as moderate/severe anemia (class III/IV), with the exception of 2 complications, compared with nonanemic patients. Mild anemia was independently associated with wound dehiscence (odds ratio, 1.521; 95% confidence interval, 1.126-2.054; P = 0.006), whereas moderate/severe anemia did not show an increased risk for wound dehiscence. However, moderate/severe anemia independently increased the risk for deep venous thromboembolism (odds ratio, 1.437; 95% confidence interval, 1.028-2.011; P = 0.034), compared with mild anemia. Both categories of anemia independently increased the risk for additional complications such as deep incisional surgical site infection, organ/space surgical site infection, pneumonia, unplanned intubation, ventilator dependence, progressive renal insufficiency, acute renal failure, urinary tract infections, cardiac arrest, myocardial infarctions, blood transfusions, systemic sepsis, reoperation, extended length of stay of ≥5 days, unplanned readmission, and mortality., Conclusions: This study indicated that patients with preoperative baseline anemia were at risk for requiring transfusions, renal failure, and infectious complications. Physicians should be cognizant of anemia as a risk factor affecting numerous perioperative complications and adverse outcomes to work toward improving health-related quality of life., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

5. Management of Five Hundred Patients With Gut Failure at a Single Center: Surgical Innovation Versus Transplantation With a Novel Predictive Model.

Author

Abu-Elmagd KM, Armanyous SR, Fujiki M, Parekh NR, Osman M, Scalish M, Newhouse E, Fouda Y, Lennon E, Shatnawei A, Kirby D, Steiger E, Khanna A, Radhakrishnan K, Quintini C, Hashimoto K, Barnes J, and Costa G

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Female, Follow-Up Studies, Humans, Infant, Intestinal Diseases diagnosis, Intestinal Diseases mortality, Liver Transplantation, Male, Middle Aged, Quality of Life, Treatment Outcome, Young Adult, Clinical Decision Rules, Intestinal Diseases surgery, Intestines transplantation, Therapies, Investigational methods

Abstract

Objective(s): To define the evolving role of integrative surgical management including transplantation for patients gut failure (GF)., Methods: A total of 500 patients with total parenteral nutrition-dependent catastrophic and chronic GF were referred for surgical intervention particularly transplantation and comprised the study population. With a mean age of 45 ± 17 years, 477 (95%) were adults and 23 (5%) were children. Management strategy was guided by clinical status, splanchnic organ functions, anatomy of residual gut, and cause of GF. Surgery was performed in 462 (92%) patients and 38 (8%) continued medical treatment. Definitive autologous gut reconstruction (AGR) was achievable in 378 (82%), primary transplant in 42 (9%), and AGR followed by transplant in 42 (9%). The 84 transplant recipients received 94 allografts; 67 (71%) liver-free and 27 (29%) liver-contained. The 420 AGR patients received a total of 790 reconstructive and remodeling procedures including primary reconstruction, interposition alimentary-conduits, intestinal/colonic lengthening, and reductive/decompressive surgery. Glucagon-like peptide-2 was used in 17 patients., Results: Overall patient survival was 86% at 1-year and 68% at 5-years with restored nutritional autonomy (RNA) in 63% and 78%, respectively. Surgery achieved a 5-year survival of 70% with 82% RNA. AGR achieved better long-term survival and transplantation better (P = 0.03) re-established nutritional autonomy. Both AGR and transplant were cost effective and quality of life better improved after AGR. A model to predict RNA after AGR was developed computing anatomy of reconstructed gut, total parenteral nutrition requirements, cause of GF, and serum bilirubin., Conclusions: Surgical integration is an effective management strategy for GF. Further progress is foreseen with the herein-described novel techniques and established RNA predictive model.

Published

2019

6. Intestinal failure management at the Cleveland Clinic.

Author

Shatnawei A, Parekh NR, Rhoda KM, Speerhas R, Stafford J, Dasari V, Quintini C, Kirby DF, and Steiger E

Subjects

Academic Medical Centers, Continuity of Patient Care, Female, Follow-Up Studies, Humans, Intestinal Diseases mortality, Intestinal Diseases surgery, Intestines transplantation, Long-Term Care, Male, Nutritional Requirements, Nutritional Status, Parenteral Nutrition, Home adverse effects, Parenteral Nutrition, Home methods, Parenteral Nutrition, Total adverse effects, Patient Discharge, Randomized Controlled Trials as Topic, Retrospective Studies, Risk Assessment, Short Bowel Syndrome diagnosis, Short Bowel Syndrome mortality, Survival Rate, Treatment Outcome, Intestinal Diseases diagnosis, Intestinal Diseases therapy, Parenteral Nutrition, Total methods, Short Bowel Syndrome therapy

Abstract

The Cleveland Clinic institutional guidelines for the management of intestinal failure, including long-term or home parenteral nutrition and related complications, intestinal rehabilitation, and small bowel transplantation, were reviewed. PubMed was searched for relevant articles. The search was performed in November 2008; keywords used were home parenteral nutrition, short bowel syndrome, intestinal rehabilitation, and small-bowel transplantation. Randomized, prospective, observational, retrospective reviews and case report articles that contained relevant data for long-term parenteral nutrition, intestinal rehabilitation, and intestinal transplantation were selected. Researchers reviewed 67 selected articles that met our inclusion criteria. Our institution data registries for intestinal rehabilitation and home parenteral nutrition were also reviewed for relevant data. The survival of tens of thousands of children and adults with complicated gastrointestinal problems has been possible because of parenteral nutrition. In selected patients, a program of intestinal rehabilitation may avoid the need for long-term parenteral nutrition.

Published

2010

7. Soil microorganisms determine the sorption of radionuclides within organic soil systems.

Author

Parekh NR, Poskitt JM, Dodd BA, Potter ED, and Sanchez A

Subjects

Temperature, Radioisotopes metabolism, Soil Microbiology, Soil Pollutants, Radioactive metabolism

Abstract

The potential of soil microorganisms to enhance the retention of (137)Cs and (85)Sr in organic systems was assessed in a series of experiments. A biologically active, 'mineral-free', organic material, produced under laboratory conditions from leaves, was used as the uptake matrix in all experiments to minimise potential interference from competing clay minerals. Biological uptake and release were differentiated from abiotic processes by comparing the sorption of radionuclides in sterilised organic material with sterile material inoculated with soil extracts or single fungal strains. Our results show conclusively that living components of soil systems are of primary importance in the uptake of radionuclides in organic material. The presence of soil microorganisms significantly enhanced the retention of Cs in organic systems and approximately 70% of the Cs spike was strongly (irreversibly) bound (remained non-extractable) in the presence of microorganisms compared to only approximately 10% in abiotic systems. Sorption of (85)Sr was not significantly influenced by the presence of soil microorganisms. A non-linear temperature response was observed for the retention in biotic systems with increased uptake at between 10 and 30 degrees C and lower retention at temperatures above or below the optimum range. The optimum temperatures for biological uptake were between 15 and 20 degrees C for Cs, and 25 and 30 degrees C for Sr. Our results indicate that single strains of soil and saprotrophic fungi make an important contribution to the sorption of Cs and Sr in organic systems, but can only account for part of the strong, irreversible binding observed in biotic systems. Single strains of soil fungi increased the amount of non-extractable (137)Cs (by approximately 30%) and (85)Sr (by approximately 20%) in the organic systems as compared to abiotic systems, but the major fraction of (137)Cs and (85)Sr sorbed in systems inoculated with saprotrophic fungi remained extractable.

Published

2008

8. Short bowel syndrome.

Author

Parekh NR and Steiger E

Abstract

Treatment of short bowel syndrome (SBS) is often a difficult endeavor due to the high variability among patients with SBS in regard to remaining anatomical structure and functional capacity. Research efforts to substantiate the use of existing therapies in the treatment of SBS are ongoing, with newer developments yet to be fully explored. Current therapy for SBS begins with the implementation of a modified diet based on the presence or absence of the colon. Patients with difficulty ingesting enough nutrients and fluids for weight maintenance and fluid balance may benefit from nocturnal enteral nutrition and hydration. Those with inadequate absorptive capacity despite maximization of oral and enteral intake will need parenteral nutrition (PN) or hydration. Medications, including antisecretory agents, antidiarrheals, pancreatic enzymes, bile acid sequestrants, and antibiotics, often are useful in abating symptoms commonly associated with SBS. Growth factors, including recombinant human growth hormone and glucagon-like peptide 2, may be trialed to stimulate intestinal adaptation and enhance absorption in PN-dependent SBS patients. The gradual refinement of surgical procedures for SBS, including small bowel transplantation, has led to improved outcomes, and early referral of SBS patients to centers of excellence will optimize care.

Published

2007

9. Effects of gamma irradiation on Holcus lanatus (Yorkshire fog grass) and associated soil microorganisms.

Author

Jones HE, West HM, Chamberlain PM, Parekh NR, Beresford NA, and Crout NM

Subjects

Fungi growth & development, Gram-Negative Bacteria growth & development, Holcus growth & development, Population Dynamics, Gamma Rays adverse effects, Holcus microbiology, Plant Roots microbiology, Soil Microbiology

Abstract

An investigation was conducted to determine the impact of acute doses of gamma radiation on the microbial community structure of a Holcus lanatus dominated grassland soil. Mesocosms containing soil and established grass were irradiated using a sealed (137)Cs source (7.0 Gy min(-1)). Doses ranged from 5 to 160 Gy, analyses were conducted on the day of irradiation, then 7 and 30 days later. Plant growth and arbuscular mycorrhizal fungal colonisation of roots were reduced by irradiation. Gram-negative bacteria, and microbial metabolic capacity were also negatively affected by treatment. Microbial biomass measured by phospholipid fatty acid (PLFA) analysis, showed an increase at doses above 20 Gy, 7 and 30 days after treatment. Proportions of Gram-positive bacterial and fungal PLFAs fluctuated inversely to each other, in response to both sampling time and radiation dose. We hypothesise that many of the observed soil microbial responses are indirect effects mediated by the influence of ionising radiation on the plants in this system.

Published

2004

10. Assessing soil biodiversity across Great Britain: national trends in the occurrence of heterotrophic bacteria and invertebrates in soil.

Author

Black HI, Parekh NR, Chaplow JS, Monson F, Watkins J, Creamer R, Potter ED, Poskitt JM, Rowland P, Ainsworth G, and Hornung M

Subjects

Animals, Bacteria, Data Collection, Databases, Factual, Environmental Monitoring, Geography, Plants, Conservation of Natural Resources, Ecosystem, Invertebrates, Soil, Soil Microbiology

Abstract

An assessment of the biodiversity of soils was a component of the Countryside Survey 2000 (CS2000). This was the first integrated survey of soil biota and chemical properties at a national scale. A total of 1052 soil samples were collected across Great Britain during CS2000 and analysed for a range of soil microbial and invertebrate characteristics resulting in the production of a series of robust datasets. A principal objective was to use these datasets to investigate relationships between soil biota and environmental factors such as geographical location, vegetation, land use, land cover, soil type and pollutant levels as first stages in characterising the inherent biodiversity of British soils and investigating the potential of soil biodiversity as indicators of soil health at a regional or national scale. Preliminary results for culturable heterotrophic, invertebrate taxa, Acari, Collembola and Oribatid mites are presented here to illustrate the nature of the data collected and the patterns of soil biodiversity in relation to large-scale regional, vegetation and soil characteristics across the British countryside.

Published

2003

11. (13)C incorporation into DNA as a means of identifying the active components of ammonia-oxidizer populations.

Author

Whitby CB, Hall G, Pickup R, Saunders JR, Ineson P, Parekh NR, and McCarthy A

Subjects

Carbon Radioisotopes, Nitrosomonas genetics, Carbon Dioxide metabolism, DNA, Bacterial metabolism, Nitrosomonas metabolism, Quaternary Ammonium Compounds metabolism

Abstract

Aims: To identify active CO2-assimilating species of ammonia-oxidizing bacteria in fresh water sediment., Methods and Results: Enrichment cultures were incubated in the presence of 13C labelled CO2, and 13C-DNA successfully resolved from 12C-DNA by caesium chloride density gradient ultracentrifugation of DNA extracts. Ammonia-oxidizer DNA recovered from these gradients was amplified and characterised by Temporal Temperature Gradient Gel Electrophoresis (TTGE), with confirmatory sequence analysis to identify the metabolically active components of the population., Conclusion: The 12C-DNA fraction was dominated by nitrosospiras, in contrast to the 13C-DNA fraction which was largely nitrosomonad DNA, in support of the hypothesis that nitrosomonads out-compete nitrosospiras in laboratory culture., Significance and Impact of the Study: The use of stable isotype incorporation into ammonia-oxidizer DNA could therefore circumvent the problems associated with RNA detection to identify metabolically active species in situ.

Published

2001

12. Genetic diversity of carbofuran-degrading soil bacteria.

Author

Desaint S, Hartmann A, Parekh NR, and Fournier J

Abstract

The genetic diversity of 128 carbofuran-degrading bacteria was determined by ARDRA (amplified ribosomal DNA restriction analysis) of 16S rDNA and restriction fragment length polymorphism analysis of the 16S-23S rDNA spacer region (IGS) using five endonucleases. The isolates were distributed in 26 distinct ARDRA groups and 45 IGS types revealing a high level of microbial diversity confirmed by ARDRA clustering and sequencing of 16S rDNA. The occurrence of a methylcarbamate-degrading gene (mcd) was monitored by polymerase chain reaction amplification using specific primers. The mcd gene was detected only in 58 bacteria and there was no clear relationship between the presence of this gene and the phylogenetic position of the strain.

Published

2000

13. Detection and classification of atmospheric methane oxidizing bacteria in soil.

Author

Bull ID, Parekh NR, Hall GH, Ineson P, and Evershed RP

Subjects

Atmosphere, Carbon Isotopes, Chromatography, Gas, Fatty Acids metabolism, Methylobacterium metabolism, Methylosinus metabolism, Trees, Methane metabolism, Methylococcaceae metabolism, Soil Microbiology

Abstract

Well-drained non-agricultural soils mediate the oxidation of methane directly from the atmosphere, contributing 5 to 10% towards the global methane sink. Studies of methane oxidation kinetics in soil infer the activity of two methanotrophic populations: one that is only active at high methane concentrations (low affinity) and another that tolerates atmospheric levels of methane (high affinity). The activity of the latter has not been demonstrated by cultured laboratory strains of methanotrophs, leaving the microbiology of methane oxidation at atmospheric concentrations unclear. Here we describe a new pulse-chase experiment using long-term enrichment with 12CH4 followed by short-term exposure to 13CH4 to isotopically label methanotrophs in a soil from a temperate forest. Analysis of labelled phospholipid fatty acids (PLFAs) provided unambiguous evidence of methane assimilation at true atmospheric concentrations (1.8-3.6 p.p.m.v.). High proportions of 13C-labelled C18 fatty acids and the co-occurrence of a labelled, branched C17 fatty acid indicated that a new methanotroph, similar at the PLFA level to known type II methanotrophs, was the predominant soil micro-organism responsible for atmospheric methane oxidation.

Published

2000

14. Stable-isotope probing as a tool in microbial ecology.

Author

Radajewski S, Ineson P, Parekh NR, and Murrell JC

Subjects

Alphaproteobacteria classification, Alphaproteobacteria metabolism, Bacteria classification, Bacteria metabolism, Carbon Isotopes, Centrifugation, Density Gradient, Ecology, Methanol metabolism, Molecular Probes, Molecular Sequence Data, Phylogeny, Alphaproteobacteria genetics, Bacteria genetics, DNA, Complementary isolation & purification, Soil Microbiology

Abstract

Microorganisms are responsible for driving the biogeochemical cycling of elements on Earth. Despite their importance and vast diversity, the taxonomic identity of the microorganisms involved in any specific process has usually been confined to that small fraction of the microbiota that has been isolated and cultivated. The recent coupling of molecular biological methods with stable-isotope abundance in biomarkers has provided a cultivation-independent means of linking the identity of bacteria with their function in the environment. Here we show that 13C-DNA, produced during the growth of metabolically distinct microbial groups on a 13C-enriched carbon source, can be resolved from 12C-DNA by density-gradient centrifugation. DNA isolated from the target group of microorganisms can be characterized taxonomically and functionally by gene probing and sequence analysis. Application of this technique to investigate methanol-utilizing microorganisms in soil demonstrated the involvement of members of two phylogenetically distinct groups of eubacteria; the alpha-proteobacterial and Acidobacterium lineages. Stable-isotope probing thus offers a powerful new technique for identifying microorganisms that are actively involved in specific metabolic processes under conditions which approach those occurring in situ.

Published

2000

15. Rapid degradation of the triazinone herbicide metamitron by a Rhodococcus sp. isolated from treated soil.

Author

Parekh NR, Walker A, Roberts SJ, and Welch SJ

Subjects

Biodegradation, Environmental, Culture Media, Glucose metabolism, Pyruvates metabolism, Pyruvic Acid, Rhodococcus growth & development, Rhodococcus isolation & purification, Ribose metabolism, Succinates metabolism, Succinic Acid, Herbicides metabolism, Rhodococcus metabolism, Soil Microbiology, Triazines metabolism

Abstract

Seven bacterial isolates which degraded the herbicide metamitron (3-methyl-4-amino-6-phenyl-1,2,4-triazin-5-one) were obtained from field-enhanced soil by liquid enrichment culture. All isolates appeared to be identical and a representative, 0246b, was identified as a Rhodococcus sp. by cell wall and fatty acid analyses. This isolate degraded metamitron as the sole source of carbon within 24 h at 25 degrees C and this is the first report of a bacterium capable of growing with metamitron as the sole source of carbon. Metamitron was degraded less rapidly when it was the sole source of both carbon and nitrogen. The rate and extent of degradation was affected by the presence and type of additional sources of carbon and nitrogen in the culture medium. In studies with [14C]-phenyl-labelled metamitron Rhodococcus sp. 0246b partly mineralized the phenyl ring.

Published

1994

16. Carbofuran-degrading bacteria from previously treated field soils.

Author

Parekh NR, Suett DL, Roberts SJ, McKeown T, Shaw ED, and Jukes AA

Subjects

Biodegradation, Environmental drug effects, Chloramphenicol pharmacology, Cycloheximide pharmacology, Gram-Negative Aerobic Bacteria classification, United Kingdom, Carbofuran metabolism, Gram-Negative Aerobic Bacteria metabolism, Soil Microbiology

Abstract

Laboratory incubation studies were made on soils collected from five field sites with different histories of treatment with carbofuran. All soils treated earlier with carbofuran degraded the compound more rapidly than untreated samples of the same soils. Reduced rates of degradation in the presence of chloramphenicol imply that soil bacteria are primarily responsible for the breakdown of carbofuran in these soils. Sixty-eight bacteria, capable of degrading carbofuran as the sole source of carbon and nitrogen, were isolated from liquid cultures of treated soils. The concentration of carbofuran in the liquid medium used for isolation and subsequent culture of carbofuran-degrading isolates appeared to affect the stability of their ability to degrade. Similar types of carbofuran-degrading bacteria were isolated from different soils and several different types were isolated from one soil. All carbofuran-degrading isolates were Gram-negative, aerobic rods which hydrolysed the insecticide to carbofuran phenol. They were separated into four groups on the basis of a limited number of phenotypic characters. There was a good correlation between the phenotype of carbofuran-degrading isolates and the stability of their ability to degrade. Fourteen isolates were placed in phenotypic group I and 13 of these did not degrade carbofuran after one subculture in liquid medium. Phenotypic groups II, III and IV consisted of 54 isolates in total (3, 46 and 5 isolates respectively) and 52 of these retained their ability to degrade carbofuran when subcultured.

Published

1994