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The Effects of Eicosapentaenoic Acid (EPA), Gamma-Linolenic Acid (GLA) and Antioxidants in the Treatment of Sepsis

Primary Purpose

Sepsis, Severe Sepsis, Septic Shock

Status
Completed
Phase
Phase 4
Locations
Brazil
Study Type
Interventional
Intervention
Eicosapentaenoic acid, Gamma-Linolenic Acid and Antioxidant Vitamins
Standard ICU enteral diet, isocaloric to the study diet
Sponsored by
Fernandes Tavora Hospital
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional treatment trial for Sepsis focused on measuring Sepsis, Severe Sepsis, Septic Shock, Enteral Nutrition, Antioxidants, EPA, GLA, Nutrition, Intensive Care, ICU

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesDoes not accept healthy volunteers

Inclusion Criteria: Patients over 18 years of age, at the intensive care unit with diagnosis of sepsis and requiring enteral nutrition The diagnosis of sepsis follow the criteria previously defined by Bone et al., and modified in accordance with Bernard GR et al Included patients MUST start enteral feeding within 12 hours after fulfillment of all inclusion criteria to be considered evaluable In addition, patients MUST achieve at least once 75% of BEE (calculated using the Harris-Benedict equation) x 1.3 to be considered evaluable Patient septic state and caloric intake will be accessed in a daily basis Exclusion Criteria: Patients with septic shock at the baseline Pregnancy or breastfeeding Patients under 18 years of age Significant limitation of survival prognosis (patients expecting a life survival under 28 days due to a chronic and/or incurable disease such as uncontrolled cancer or other terminal disease) Pre-existing chronic renal insufficiency and need of hemodialysis or peritoneal dialysis Acute pancreatitis without established origin Participation in other clinical trial less than 30 days before inclusion in this trial Head trauma with a Glasgow Come Score (GCS) less or equal to 5 Recent stroke or subarachnoid hemorrhage (less than 3 months) Severe immunologic suppression (defined as a leukocyte count bellow 5.000 cells/mm3) Infection by the human immunodeficiency virus Patients with no indication for enteral feeding or in the imminence of receiving parenteral nutrition Patients receiving partial parenteral nutrition in order to achieve caloric goal Presence of uncontrolled diarrhea Recent gastrointestinal bleeding event Patient's, patient's legal representative or physicians decision to exclude patients from this protocol, known hypertriglyceridemia, obesity with BMI over 29.9.

Sites / Locations

  • Hospital Português - Real Sociedade Portuguesa 16 de Setembro
  • Hospital Salvador
  • Hospital Fernandes Távora - Adult Intensive Care Unit
  • Hospital Santa Luzia
  • Hospital de Clínicas da Universidade Federal da Paraíba
  • Associação Beneficente Evangélica de Joinville - Hospital Dona Helena
  • Centro Hospitalar Unimed
  • Fundação Faculdade de Medicina de São José Do Rio Preto
  • Clínica São Vicente
  • Hospital Pró-Cardíaco
  • Hospital São Paulo-UNIFESP
  • Instituto de Assistência Médica Ao Servidor Público Estadual-Iamspe

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Placebo Comparator

Arm Label

1

2

Arm Description

Experimental arm will receive an enteral diet enriched with EPA, GLA and Antioxidant vitamins

This arm will receive an enteral diet considered as a "standard" ICU diet, isocaloric to the control diet but not enhanced with EPA, GLA and antioxidant vitamins

Outcomes

Primary Outcome Measures

Evolution to more severe forms of the disease

Secondary Outcome Measures

28 days all-cause mortality,hyperglycemia, hypoglycemia, mean dose of insulin, use of hospital resources, ICU-free days,creatinine clearance, development of new organ failure,Evolution of the SOFA

Full Information

First Posted
May 23, 2006
Last Updated
December 30, 2009
Sponsor
Fernandes Tavora Hospital
Collaborators
Abbott
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1. Study Identification

Unique Protocol Identification Number
NCT00329680
Brief Title
The Effects of Eicosapentaenoic Acid (EPA), Gamma-Linolenic Acid (GLA) and Antioxidants in the Treatment of Sepsis
Official Title
Investigating Nutritional Therapy With EPA, GLA and Antioxidants Role in Sepsis Treatment-INTERSEPT STUDY
Study Type
Interventional

2. Study Status

Record Verification Date
October 2009
Overall Recruitment Status
Completed
Study Start Date
June 2007 (undefined)
Primary Completion Date
December 2008 (Actual)
Study Completion Date
October 2009 (Actual)

3. Sponsor/Collaborators

Name of the Sponsor
Fernandes Tavora Hospital
Collaborators
Abbott

4. Oversight

Data Monitoring Committee
Yes

5. Study Description

Brief Summary
The scope of this clinical study is to evaluate the possible role of an enteral formulation enriched with EPA, GLA and Antioxidants in patients diagnosed in the early stages of sepsis despite mechanical ventilation requirements, as well as the impact of this diet upon glycemic control and its capacity to prevent the development of sepsis into severe sepsis and septic shock.
Detailed Description
The effectiveness of nutritional support in modulating the chain of inflammatory response and in reducing demands of the respiratory system through use of nutritional intervention has received a growing attention, as a result of its capacity to interfere in a variety of biological processes [1]. Nutritional formulations that are low in carbohydrates and rich in lipids may reduce minute-ventilation and ventilatory demand, leading to a reduction of respiratory coefficient and CO2 production [2]. Gadek et al. [3] used a high lipid enteral diet enriched with eicosapentaenoic acid (EPA or fish oil), gamma-linolenic acid (GLA or borage oil) and enhanced levels of antioxidant vitamins in patients with ARDS, demonstrating a significant improvement, not only in the PaO2/FiO2 ratio, but also in several outcomes such as ventilator-free days, ICU-free days and reduced new organ dysfunctions. A recent clinical trial demonstrated that the use of this type of diet may produce better outcomes also in patients with acute lung injury (ALI) [4]. Recent pharmaceutical interventions proposed for sepsis have sought to focus on regulating the chain of pro and anti-inflammatory mediators [5,6], responsible for causing the systemic characteristics of the disease and, consequently, for leading to multiple organ failure. The inflammatory reaction is capable of activate synthesis of lipid mediators, such as prostaglandin E2, which are involved in the complex regulation of the inflammatory process [7]. Many of these inflammatory mediators are metabolites of omega-6 fatty acids, such as linoleic acid and the product of its elongation/desaturation, arachidonic acid [8]. Substitution of Omega-6 fatty acids by fatty acids rich in Omega-3, such as EPA, has proved to be beneficial in modulating the inflammatory processes both in animal models and in humans [9-17]. Interest has also grown around the potential metabolic effects of GLA. This oil is rapidly lengthened to dihomo-gamma-linolenic acid (DGLA) and is incorporated into tissue lipids. DGLA may, amongst other effects, suppress bio-synthesis of leukotrienes, being rapidly metabolized to monoenoic prostaglandins [18]. In addition, although EPA allows the elongation of GLA into DGLA, it tends to prevent its desaturation into arachidonic acid. This mechanism can produce an increase in 1 series prostanoids and a decrease in 2 series eicosanoids. Research using animal models of sepsis-induced ARDS has shown that a diet low in carbohydrates and rich in EPA and GLA may modulate the production of inflammatory mediators, improving the functional capacity of the lungs. This type of diet is capable of rapidly reducing the phospholipid fatty acid content of arachidonic acid in inflammatory cell membranes [19], even if administered parenterally [20]. In animal models of sepsis, a diet enriched with omega-3 fatty acids has been associated with reduced mortality [21-24]. Moreover, a recent study [25] demonstrated the beneficial effects of an enteral diet enriched with EPA, GLA and elevated level of antioxidant vitamins, in patients with severe sepsis and septic shock requiring mechanical ventilation. In this subpopulation of patients, the use of an enteral formulation enriched with EPA, GLA and Antioxidants is associated with an improvement in oxygenation status, reduced mechanical ventilation time, fewer days in ICU, less new organ dysfunction and also with a 19.4% absolute risk reduction in mortality (NNT=5). Since there is evidence in the literature pointing towards the anti-inflammatory roles not only of EPA and GLA (26), but also of antioxidant vitamins alone (27-29), the differences between both groups may be explained not just by the effects of EPA, GLA or antioxidants, but also by a combination of them. Although this and the previously published trials were designed to investigate the effect of this diet in patients with ARDS, certain differences prove to be particularly relevant. First, the former study examines the effects of such a diet in a population of ARDS patients constituted solely by patients with severe sepsis or septic shock. Moreover, it enrolled patients with a PaO2/FiO2 ratio below 200, rather than below 250, as occurred in the latter study. The heightened gravity of the patients used may have contributed to the greater number of days requiring mechanical ventilation and lower days outside ICU, when compared with previously published results. Finally, this study allows only 6 hours from the moment at which patients fulfilled all entry requirements to effective onset of diet, rather than 24 hours, leading to a significant reduction in time necessary to achieve 75% of BEE x 1.3. Recent studies have shown that time-dependence is a determinant aspect in the treatment of septic patients. For instance, the PROWESS study [5] showed a significant reduction in the mortality of severe septic patients with a high APACHE II score and who were treated with recombinant human activated protein C (rhAPC) in the first 48 hours after fulfillment of study entry criteria. Nevertheless, the ENHANCE study showed that septic patients who were treated with rhAPC in the first 24 hours after meeting inclusion criteria had lower mortality than those patients who were treated after 24 hours, but within the first 48 hours. The early use was also associated with a lower consumption of hospital resources including mechanical ventilation and the use of vasopressors [30]. Time-dependency was also associated with several other recommendations for the management of septic patients [31]. Another important finding from this recent trial is the number of patients who developed new organ failures not observed at the baseline, considerably lower in the group that received the study diet. This reduction demonstrates a trend towards lower evolution of multiple organ dysfunction in patients fed with EPA+GLA+Antioxidants. If we consider that the development of multiple organ dysfunctions is associated with increasing mortality rates, we can hypothesize this may be a determining factor in reducing the mortality rate [32]. This also suggested that this diet may develop an important role for patients in the early stages of sepsis, by preventing the evolution of the disease to severe sepsis or septic shock. On the other hand, hyperglycemia and insulin resistance are common in critically ill patients, even when glucose homeostasis has previously been normal. Increased gluconeogenesis, despite abundantly released, is probably central to this disruption of glucoregulation [33,34]. Strict maintenance of normoglycemia with intensive insulin therapy has been shown to reduce intensive care and hospital mortality and morbidity of critically ill adult patients [35]. Supplements or tube feeding using standard nutritional formulations can significantly compromise glycemic control [36-39], very probably due to the rapid and efficient absorption of these liquids. This is specially relevant in those individuals with overt diabetes or stress-related glucose intolerance, such as occurred in septic patients. In such individuals the use of standard nutritional formulations may complicate attempts to achieve and maintain normoglycemia. The answer for this matter may remain in the use of enteral diets high in lipids and low in carbohydrates. The scope of this clinical study is to evaluate the possible role of an enteral formulation enriched with EPA, GLA and Antioxidants in patients diagnosed in the early stages of sepsis despite pulmonary failure, as well as the impact of this diet upon glycemic control and its capacity to prevent the development of sepsis into severe sepsis and septic shock.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Sepsis, Severe Sepsis, Septic Shock
Keywords
Sepsis, Severe Sepsis, Septic Shock, Enteral Nutrition, Antioxidants, EPA, GLA, Nutrition, Intensive Care, ICU

7. Study Design

Primary Purpose
Treatment
Study Phase
Phase 4
Interventional Study Model
Parallel Assignment
Masking
ParticipantCare ProviderInvestigatorOutcomes Assessor
Allocation
Randomized
Enrollment
115 (Actual)

8. Arms, Groups, and Interventions

Arm Title
1
Arm Type
Experimental
Arm Description
Experimental arm will receive an enteral diet enriched with EPA, GLA and Antioxidant vitamins
Arm Title
2
Arm Type
Placebo Comparator
Arm Description
This arm will receive an enteral diet considered as a "standard" ICU diet, isocaloric to the control diet but not enhanced with EPA, GLA and antioxidant vitamins
Intervention Type
Dietary Supplement
Intervention Name(s)
Eicosapentaenoic acid, Gamma-Linolenic Acid and Antioxidant Vitamins
Other Intervention Name(s)
Oxepa (Ross Products Division, Abbott Laboratories)
Intervention Description
An enteral diet will be given in accordance with the caloric goal calculated by the Harris-Benedict equation x 1.3. The enteral diet will be provided for a period of 7 days or until death OR start of oral diet OR start of parenteral diet OR discharge from the ICU OR decision from the attending physician/family/patient to no longer participate in this clinical study
Intervention Type
Dietary Supplement
Intervention Name(s)
Standard ICU enteral diet, isocaloric to the study diet
Other Intervention Name(s)
Osmolite HiCal/Ensure Pkus HN (Ross Products Division, Abbott Laboratories)
Intervention Description
Patients will receive this diet in a blinded way using the same dose regimen specified previously and used in the study group
Primary Outcome Measure Information:
Title
Evolution to more severe forms of the disease
Time Frame
28-days follow up
Secondary Outcome Measure Information:
Title
28 days all-cause mortality,hyperglycemia, hypoglycemia, mean dose of insulin, use of hospital resources, ICU-free days,creatinine clearance, development of new organ failure,Evolution of the SOFA
Time Frame
28-days follow up

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria: Patients over 18 years of age, at the intensive care unit with diagnosis of sepsis and requiring enteral nutrition The diagnosis of sepsis follow the criteria previously defined by Bone et al., and modified in accordance with Bernard GR et al Included patients MUST start enteral feeding within 12 hours after fulfillment of all inclusion criteria to be considered evaluable In addition, patients MUST achieve at least once 75% of BEE (calculated using the Harris-Benedict equation) x 1.3 to be considered evaluable Patient septic state and caloric intake will be accessed in a daily basis Exclusion Criteria: Patients with septic shock at the baseline Pregnancy or breastfeeding Patients under 18 years of age Significant limitation of survival prognosis (patients expecting a life survival under 28 days due to a chronic and/or incurable disease such as uncontrolled cancer or other terminal disease) Pre-existing chronic renal insufficiency and need of hemodialysis or peritoneal dialysis Acute pancreatitis without established origin Participation in other clinical trial less than 30 days before inclusion in this trial Head trauma with a Glasgow Come Score (GCS) less or equal to 5 Recent stroke or subarachnoid hemorrhage (less than 3 months) Severe immunologic suppression (defined as a leukocyte count bellow 5.000 cells/mm3) Infection by the human immunodeficiency virus Patients with no indication for enteral feeding or in the imminence of receiving parenteral nutrition Patients receiving partial parenteral nutrition in order to achieve caloric goal Presence of uncontrolled diarrhea Recent gastrointestinal bleeding event Patient's, patient's legal representative or physicians decision to exclude patients from this protocol, known hypertriglyceridemia, obesity with BMI over 29.9.
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Alessandro Pontes-Arruda, MD, PhD
Organizational Affiliation
Hospital Fernandes Távora
Official's Role
Principal Investigator
Facility Information:
Facility Name
Hospital Português - Real Sociedade Portuguesa 16 de Setembro
City
Salvador
State/Province
Bahia
ZIP/Postal Code
40.130-030
Country
Brazil
Facility Name
Hospital Salvador
City
Salvador
State/Province
Bahia
ZIP/Postal Code
40.130-030
Country
Brazil
Facility Name
Hospital Fernandes Távora - Adult Intensive Care Unit
City
Fortaleza
State/Province
Ceara
ZIP/Postal Code
60.115-000
Country
Brazil
Facility Name
Hospital Santa Luzia
City
Brasília
State/Province
DF
Country
Brazil
Facility Name
Hospital de Clínicas da Universidade Federal da Paraíba
City
João Pessoa
State/Province
Paraíba
ZIP/Postal Code
60000000
Country
Brazil
Facility Name
Associação Beneficente Evangélica de Joinville - Hospital Dona Helena
City
Joinville
State/Province
Santa Catarina
ZIP/Postal Code
89.204-050
Country
Brazil
Facility Name
Centro Hospitalar Unimed
City
Joinville
State/Province
Santa Catarina
ZIP/Postal Code
89.204-060
Country
Brazil
Facility Name
Fundação Faculdade de Medicina de São José Do Rio Preto
City
São José Do Rio Preto
State/Province
São Paulo
ZIP/Postal Code
15.090-000
Country
Brazil
Facility Name
Clínica São Vicente
City
Rio de Janeiro
ZIP/Postal Code
21000000
Country
Brazil
Facility Name
Hospital Pró-Cardíaco
City
Rio de Janeiro
ZIP/Postal Code
21000000
Country
Brazil
Facility Name
Hospital São Paulo-UNIFESP
City
São Paulo
ZIP/Postal Code
04.024-900
Country
Brazil
Facility Name
Instituto de Assistência Médica Ao Servidor Público Estadual-Iamspe
City
São Paulo
ZIP/Postal Code
04.039-901
Country
Brazil

12. IPD Sharing Statement

Learn more about this trial

The Effects of Eicosapentaenoic Acid (EPA), Gamma-Linolenic Acid (GLA) and Antioxidants in the Treatment of Sepsis

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